INSTRUCTION MANUAL
PLUG AND PLAY EMS KIT
LOTUS ELISE/EXIGE/2-ELEVEN
2004+ with 2ZZ-GE ENGINE
DOCUMENT 19-0046
Radium Engineering LLC
©2012, All right reserved
Table of Contents
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Introduction
Warnings and Cautions
Before Getting Started
2004-2005 EMS Mounting
2006+ EMS Mounting
Installation of Accessories
Sensor Set Up
EMS Calibration
Initial Startup
Tables and Pinouts
1. INTRODUCTION
The Radium Engineering Plug and Play Engine Management System (EMS) gives the user complete
control over all engine parameters and also adds extra functionality for modified vehicles. The Radium
EMS itself is a highly modified AEM EMS-4. The stock ECU is retained to run the CAN-BUS dashboard,
electronic throttle (when equipped) and other secondary tasks. The EMS gives the user full control over
fueling, ignition timing and VVTi-L (cam position and lift). It also offers added features such as electronic
boost control, wideband O2 feedback, traction control, data logging, and much more.
To get familiar with the AEM EMS-4, reference the CD included in the kit. Download the AEMTuner
software and user manual. Note: visit www.aempower.com to get all of their latest updates. Read all
accompanying literature and become familiar with the operation of an AEM EMS-4 and how it functions.
Install the AEMTuner software on a laptop that can be used for initial start-up checks. The EMS is
shipped from Radium without a start-up calibration loaded. The engine will NOT start without a
loaded calibration file. Calibrations can be downloaded from www.radiumauto.com. The calibration
supplied by Radium is not a final tune. The vehicle must still be evaluated by a professional tuner
familiar with AEM software and tuning.
2. WARNINGS AND CAUTIONS
Use this system with EXTREME caution! The EMS System allows for total flexibility in engine tuning,
however misuse of this product can lead to major engine/vehicle damage. If you are not well versed
in engine dynamics and the tuning of management systems or are not PC literate, please do not
attempt installation or tuning of this product. For technical assistance, please visit the AEM Electronics
Forum or visit a local qualified AEM tuner near you. Radium and AEM hold no responsibility for any
engine damage that results from the misuse of this product! Failure to follow proper precautions may
result in engine damage or other collateral damage. Radium will not be held responsible for any
damage resulting from poor tuning or improper installation.
-Before driving the car, the calibration must be checked by a professional. Pre-loaded calibrations are
only a starting point for tuning and should not be considered fully safe.
-All inputs and outputs should be verified before starting the vehicle. This is done by connecting a
laptop computer and communicating with the EMS. Engine parameters can be observed and verified.
-All preliminary tuning should be done with high-octane fuel as an added safety factor to resist
accidental detonation from tuning.
-This EMS system is NOT EMISSIONS COMPLIANT and as a result is legal for off-highway use only.
3. BEFORE GETTING STARTED
For installations that are using a Radium Turbocharger
kit, the rear clamshell should ideally be removed to gain
easy access for installation (running wires, vacuum lines,
etc). Radium sells clamshell kits that help make this
process easier. For installations in naturally aspirated or
factory supercharged vehicles, clam shell removal is not
necessary but will help speed the installation.
Alternatively, for naturally aspirated vehicles, simply
removing the deck lid (or hatch) will allow access to the
critical areas for the plug and play installation.
Familiarize yourself with the location of engine control related components. If installing gauges, a
mounting location must be determined. Access to the area behind the LH seat is required for the EMS
installation. Removal of the speaker panel is necessary.
The following components are included in the basic Radium Lotus EMS kit:
JUMPER BOX
All Lotus EMS kits use a Radium jumper box (shown on
right). The jumper box consists of a conformal coated
printed circuit board and a billet aluminum enclosure.
The factory Lotus ECU connectors plug into this unit
making the kit plug and play. The included main harness
plugs into the other side of the jumper box. This unit
always mounts in the engine bay. However, depending
on the model year of the Lotus, this jumper box may
mount as such or 180 degrees rotated. The jumper box’s
connector header that matches the engine harness’
connectors will always face downwards.
RADIUM/AEM EMS-4
The circuitry of the AEM EMS-4 included in the kit has
been modified by Radium Engineering to make it
compatible with the Lotus electronics. Do not replace the
Radium EMS with a standard off-the-shelf AEM EMS-4
that does not have a Radium sticker. Contact Radium
Engineering should a replacement be needed.
MAIN WIRING HARNESS
The model specific main wiring harness is included and links the jumper box to all other components in
the system including the Radium EMS. This harness is custom engineered for the Lotus application by
Radium Engineering and makes installation plug and play.
Radium Main Harness, 2004-2005 Lotus
Radium Main Harness, 2006-up Lotus
LOTUS ECU CONNECTORS
The ECU connectors used on the 2004-2005 Lotus models are different than the 2006+ ECU connectors.
Understanding how both of these connectors work will make installation easier. Experiment with these
connectors and the Radium jumper box to see how they work before the system is installed in the car.
Familiarity with both connector styles is required for all installations.
The 2006+ connectors use a rotating latch to
lock the connector to the header. Shown at
left is a connector in its fully unlocked state
ready to be inserted into the header.
After insertion, rotate the latch and it will
draw the connector into the header. Once
fully engaged, the latch will lock in place.
To release, push the small release button with
your thumb (shown) and rotate the latch back
to the unlocked position.
The 2004-05 connectors use "slide locks" to
engage the connectors with the headers. The
picture shown depicts the slide in the fully
unlocked state. The slide has a tab that can
be pulled to release the latch mechanism.
The slide must be fully open, as shown, in
order for the connector to be inserted into
the header. Once inserted, push the slide
closed to fully engage the connector to the
header connector.
4. 2004-2005 EMS SYSTEM MOUNTING
Follow the instructions below if installing the Radium Plug and Play EMS kit on a 2004-2005 Lotus with a
cable actuated throttle body.
1. Disconnect battery negative cable.
2. Locate the factory engine control unit (ECU) on the firewall, near the engine intake manifold.
3. Unplug both the connectors going into the ECU. This is done
by pulling the connector slide lock mechanism, as shown.
4. Situate the Radium main wiring harness in the engine bay and
plug the connectors that match the factory connectors (from
previous step) into the factory ECU. Make sure the slide locks are
in the unlocked position as the connector is inserted into the ECU
header. Once inserted and seated, slide the lock closed and the
connector will fully engage into the header. Do this for both
connectors.
5. Use a 10mm socket to remove the LH side nut holding the ECU to its
mounting bracket, leave the washer in place. Using a 13mm socket,
remove the other mounting nut on the bottom RH side of the ECU. Leave
ECU in place and do not remove from firewall. In the EMS kit, locate the
two hex standoffs. Thread these onto the aforementioned studs. They
have different thread pitches to correspond with the threaded studs
(green = M8x1.25, black = M6x1.0). Tighten with a ½” wrench or socket.
6. Plug the factory ECU connectors into the Radium jumper box’s lower
ECU header. Make sure the slide locks are in the unlocked position as the
connector is inserted into the header. Once inserted and seated, slide the
lock closed and the connector will fully engage into the ECU header. Do
this for both connectors.
7. Use the included M6x1x12mm Allen screw with M6 washer and the
M8x1.25x16mm hex screw with M8 washer to mount the Radium jumper
box to the hex standoffs from step 5.
8. On the Radium main harness, locate the two ECU connectors similar to
what is shown in the picture. Plug these into the top two headers of the
Radium jumper box. The plugs are keyed to work in the correct headers and
are color coded black and brown. Be careful not to use the incorrect header
socket. Once the plug is inserted, rotate the latch which will fully seat the
connector and lock it in place.
9. Engine side of the main harness installed.
10. Remove the air intake system and drill out the six rivets holding the air box
bracket to the bulkhead wall. Four rivets are located on the vertical face (shown) and
two are located on the top face hidden by the carpet. Insert the included M5 button
head Allen screws into the holes as place holders until the EMS bracket is installed
inside at a later step.
11. To remove the rear speaker panel, it is required to remove the passenger seat
and slide the driver seat forward. Gently pull and unstick the immobilizer control
unit from the bulkhead wall, as shown. Using the included hook and loop tape
(Velcro), relocate the immobilizer to another spot out of the way of the EMS bracket
and wiring.
12. Unsnap the grommet from the hole. Using a razorblade, make a slit in the
factory wiring harness bulkhead wall grommet from the engine bay side.
13. Feed the Radium main wiring harness through the factory bulkhead wall hole and
into the cabin. Start with the EMS connector first then carefully feed the other leads
through the hole. Once the harness is fed through, snap the grommet back into the
hole. Some trimming may be necessary to make room for the added wires.
14. Secure the EMS and relays to the included mounting bracket and hardware. Plug
in the EMS and relays using the connectors from the main harness. Note: the relays
are all the same. Route the USB cable and the green connector towards the front of
the cabin near the center console. If the optional traction control switch and/or pwr
select switch was purchased place it underneath the center console.
15. Slide the EMS bracket behind the roll bar and align the four holes to the drilled
holes from the earlier step. Screw the four button head Allen screws from step 10
into the four rivet nuts in the bracket and tighten.
The EMS system is now installed. If you purchased the Auxiliary harness, continue
reading for additional instructions on how to hook up this harness and the related
accessories.
5. 2006+ EMS SYSTEM MOUNTING
Follow the instructions below if you are installing the Radium Plug and Play EMS kit on a 2006+ Lotus
with electronic throttle control.
1. Disconnect battery negative cable
2. Remove the speaker panel behind the seats on the interior of the car.
3. Remove the air intake filter box (and left side intercooler charge pipe for Exige-S and Cup only).
4. Locate the factory ECU on the bulkhead wall in the engine bay, near the
intake manifold. Release the latches on the two ECU connectors and unplug
them from the ECU.
5. Remove the four nuts holding the ECU to the bulkhead wall and remove the
ECU from the vehicle.
6. Locate the ECU connectors removed in step 4 and plug them into the Radium
ECU jumper box. Fully lock the latches in the connectors. Place the ECU jumper
box onto the mounting studs on the bulkhead wall.
7. Use the factory M6 nuts and secure the jumper box to the bulkhead wall.
8. Using the ECU mounting bracket included in the Radium EMS kit, mount the
Radium EMS using the 3 long included screws. Use 4 of the included M5 screws
to mount the factory ECU, as shown above. Note the orientation of each
component. Mount the relay to the rivet nut circled using one of the included
M5 screws (relay not shown). The other spare rivet nut can be used for the aux
relay, if the optional aux harness was purchased.
9. Drill out the rivets on the air box mounting bracket. Four rivets are located on
the vertical face (shown) and two are located on the top face hidden by the
carpet.
10. Place the EMS bracket into the cavity behind the LH roll bar support on the
interior of the vehicle. Line up the four holes around the RA logo with the four drilled
out rivet holes from step 9. Insert the included M5 screws from the engine bay side
and tighten down.
11. Unsnap the grommet from the hole. Using a razorblade, make a slit in the factory
wiring harness bulkhead wall grommet from the engine bay side.
12. Locate the Radium main ECU harness and find the end with the 2005 style ECU
connectors. Feed this end through the bulkhead wall pass-through first. Start with
the largest connector.
13. From the engine bay side, gently tug and ease the harness through the hole.
Next, work the second (smaller) 2005-style ECU connector through the hole.
14. Keep feeding the harness through until the lead for the 12-pin auxiliary
harness is fully in the engine bay.
15. Make sure the two 04-05 style connectors are in the unlock position and plug
them into the top side of the jumper box. Make sure connectors are fully engaged
and slide-locks are closed.
16. Inside the cabin, plug the large connector into the EMS as shown.
17. Plug the other two stock ECU connectors into the stock ECU. Plug the
remaining connector into the relay mounted to the bracket (not shown).
6. INSTALLATION OF ACCESSORIES
The Radium PnP EMS kit has an optional auxiliary harness that makes it easy to hook up extra
equipment to be controlled by the EMS. The aux harness attaches to the main harness, as shown below.
Wideband Oxygen Sensor with Gauge/Controller
If an aftermarket O2 sensor is used, the factory O2 sensor MUST be unplugged for proper operation. In
the optional auxiliary harness, locate the two wires coming from terminals 4 and 11 of the 12-pin gray
connector. Note: there are small molded pin numbers on this connector. These short flying leads are
tucked away in the sleeving. Gently tug these two wires from the protective loom. They will easily slide
out. These are the EMS wires for the wideband oxygen sensor input. Pin 4 is the signal (Analog+) and pin
11 is sensor ground (Analog-). Note: Many aftermarket wideband kits will not require the Analog-. Check
the wideband manufacturer for more details. If this is the case, leave this wire disconnected.
If an AEM wideband O2 sensor gauge/controller was
purchased, install it according to their instructions. The
newest AEM gauges will have two output wires: Analog+ and
Analog-. Route these two wires from the gauge to the 12-pin
gray connector where the auxiliary harness is plugged in, as
described above. Connect the Analog+ wire to the wire
coming from Pin 4. Connect the Analog- wire to the wire
coming from pin 11. Radium recommends soldering the wires
together and insulating with shrink tubing.
MAP (Manifold Absolute Pressure) Sensor
If a MAP sensor is used, the factory MAF sensor MUST be unplugged for proper operation. For Exige-S
and 2-Eleven applications, the Radium EMS kit can use the factory TMAP sensor. If looking to convert to
speed density for all other applications, the optional auxiliary harness contains a connector labeled
“MAP Sensor”. Any MAP sensor can be calibrated to work via
the AEMTuner software. However, the aux harness is wired
for an AEM MAP sensor (or equivalent). Radium sells AEM
3Bar MAP sensor p/n: 30-2130-50. The MAP sensor should
be mounted securely and receive a pressure signal from the
intake manifold plenum. This can be accomplished by drilling
and tapping a 1/8NPT hole in the intake plenum, or remotely
mounting the sensor and running a vacuum line from a port
on the intake manifold to the sensor.
IAT (Intake Air Temperature) Sensor
If an aftermarket intake air temperature sensor is used, the factory
MAF sensor MUST be unplugged for proper operation. The optional
auxiliary harness contains a labeled connector to attach a GM Intake
Air Temp (IAT) sensor. This sensor is available from Radium
Engineering as part of the “Speed Density Conversion” kit. This
sensor can be installed in the intake manifold via a drilled and tapped
3/8NPT hole, or in the intercooler piping after the charge cooler. If installing on a naturally aspirated
vehicle, the sensor may go in the intake pipe/airbox or in the intake manifold.
Radium Boost Control Solenoid
If the vehicle is turbocharged, a Radium solenoid can be purchased
for boost control. Within the optional Radium auxiliary harness, a 2pin connector is prewired and will plug directly into this controller.
The illustration to the right (top) depicts how to plumb the boost
hoses when utilizing a turbocharger setup that has an internal
wastegate.
The illustration to the right (bottom) depicts how to plumb the boost
hoses when utilizing a turbocharger setup that has an external
wastegate.
Note these are only examples of how to plumb the boost solenoid to
the wastegate. There are other ways not mentioned in this
instruction manual.
Spare Output
In the standard EMS kit, the output GPIO#6 is used to activate the Lotus Air Box Valve which is used to
increase induction sound at high engine speeds. If the optional auxiliary harness was purchased, an
integrated fuse and relay comes prewired and can be used for just about anything. The integrated white
2-pin connector will plug into a Spal fan, if needed. However, this output also uses GPIO#6, meaning that
both this output and the Lotus air box valve (if still used) will be activated using the same conditions
defined in the AEMTuner software.
For 04-05 kits, mount the relay and fuse to the spare rivet
nuts on the EMS bracket. For 06+ kits, use the one spare
rivet nut and secure the fuse holder nearby. Screws
included.
The spare output requires the aux harness power and
ground ring terminals to be connected. There is a factory
ground lug and 12V power box both located below the
throttle body area on the firewall secured with M8 nuts.
Radium PnP Switches
The optional plug and play switches do NOT require the
Radium auxiliary harness. These are simple to install and
do not require cutting or splicing.
For 2004-2005 EMS kits, the switches’ green connector will
secure to the mating green connector that is part of the
Radium main harness.
For 2006+ EMS kits, the switches’ green connector will
secure to the mating green connector that is found in the
factory wiring loom located underneath the center
console. If the vehicle came standard with Lotus T/C, the
factory switch will not work in this system.
If the Radium traction control switch and the Radium
power selector switch were both purchased, the Radium Yharness (shown at left) is necessary for proper mounting
and connecting.
To secure the switches in the factory location, the two Torx
bolts on either side of the center console will need to be
removed. Pull the center console up just enough to unplug
the hazard switch and the factory traction control switch (if
applicable). To mount the switches, a ½” drilled hole is
necessary for securing. If inserting into the factory traction
control switch location (if applicable), no modification is
necessary.
Note: Traction Control uses GPIO#8 and PWR Select uses GPIO#2 as described in a following section.
AEMnet CAN Bus
AEMnet is an open architecture based on CAN 2.0 which
provides the ability for multiple enabled devices, such as
dashboards, data loggers, etc. to easily communicate with
one another through a two twisted cables (CAN+/CAN-).
The Radium main harness includes two 4P DTM connectors,
as shown. Either connector (male or female) can be used. If
multiple devices will be used, use both DTMs as a daisy
chain. The pin numbering is identical for each connector. For
proper wiring, check with the manufacturer as many devices
will not require the extra 12V switched power and ground.
DTM PIN
1
2
3
4
DESCRIPTION
CAN + (CAN High)
CAN – (CAN Low)
12VS Power (2A max)
Chassis Ground
If not already enabled, open AEMTuner, power the vehicle and connect to the EMS. Go to:
Wizards | Setup Wizard | Telemetry: AEMNet. Now simply select CAN Datastream (01v21 firmware).
7. Sensor Set Up
If an aftermarket wideband O2 sensor was installed, make sure that the factory (pre catalytic converter)
primary O2 sensor is unplugged. Otherwise, the O2 sensor signal will be altered and not accurate.
If a MAP sensor and IAT sensor was wired into the system, make sure to unplug the factory mass air flow
sensor. Otherwise, the MAP sensor and IAT signals will be altered and not accurate.
If this EMS kit was installed in an Exige-S, 2-Eleven, or
any Lotus that uses both a factory TMAP sensor and
the mass air flow sensor, one or the other MUST be
unplugged. Otherwise, the engine load signal to the
EMS will be altered. On the Exige-S, the TMAP sensor
is mounted on the intercooler (as shown) and the
mass air flow sensor is mounted on the air intake box.
Note: the Radium Exige-S startup map uses the TMAP
sensor. However, the mass air flow sensor can be
used for engine load calculations instead, if need be.
8. EMS Calibration
Be sure that the vehicle is in the hands of an
authorized factory trained AEM tuner. The engine
will NOT start without first uploading a calibration
file. Download the available calibration files and
workspace file found at www.radiumauto.com. After
clicking on this link http://tinyurl.com/a68pnra scroll
towards the bottom of product page and click the
link (pictured at right) to download the zip files.
Generic naturally aspirated, supercharged, and turbocharged startup maps are supplied for each kit
(2004-2005 Lotus, 2006-2011 Lotus). These are NOT to be uploaded and driven hard until verified by an
AEM certified tuner. Check the notes listed below for details.
Naturally Aspirated 2ZZ-GE Map
Injectors: Stock 330cc/min
Fuel Pressure: Stock
Load Sensor: Stock MAF Sensor
O2 Sensor: AEM Wideband UEGO Sensor
Fuel Mapping: Alpha-N with Boost Compensation
Supercharged 2ZZ-GE Map
Injectors: Stock 440cc/min
Fuel Pressure: Stock
Load Sensor: Stock TMAP Sensor
O2 Sensor: AEM Wideband UEGO Sensor
Fuel Mapping: Alpha-N with Boost Compensation
Turbocharged 2ZZ-GE Map
Injectors: Radium 630cc/min
Fuel Pressure: 3 Bar Static, Vacuum Reference, 1:1 Rising Rate
Load Sensor: AEM 3.5 Bar MAP Sensor
O2 Sensor: AEM Wideband UEGO Sensor
Fuel Mapping: Alpha-N with Boost Compensation
Using the supplied USB cable in the main harness, connect the Radium EMS to a laptop. In the
AEMTuner File menu, open the workspace file. Next, upload the correct calibration for your particular
setup in the ECU menu.
If the factory narrowband O2 sensor will be used, enter in the nonlinear "Nernst Cell" sensor voltage
calibration commonly found online. Caution: stock O2 sensors are not accurate outside Stoichiometry.
If the vehicle came standard with the Lotus Variable
Traction Control (VTC), found in some 08+ models,
the optional Radium Traction Control switch is NOT
required. The OEM VTC steering column knob
(shown) is prewired and functional with this system.
The OEM T/C switch is ignored.
To activate the factory VTC knob, go to the Traction
Control tab in the Radium workspace. Make sure the
option TC Switch Input is set to Switch is Always ON
and TC Adjust Input is set to GPIO8 Volts. When
rotating the knob, notice the parameter GPIO AN will
vary from 0-5V. To deactivate traction control, the
knob should be rotated to the MAX position
(counterclockwise).
To activate T/C in the AEMTuner software, using either the Radium switch or the OEM VTC knob, select
ON for the option labeled Traction Control.
9. Initial Startup
Verify that all of the parameters are reading properly, ie: throttle, engine load, coolant temperature,
intake air temperature, etc. If applicable, check that the power select switch (GPIO#2) and the traction
control switch (GPIO#8) are both triggering ON/OFF when depressing the respective switch.
Also test that all of the outputs are working, ie: low speed radiator fan, high speed radiator fan, boost
solenoid (if applicable), spare aux output, etc.
There is a low RPM rev limiter in ALL of the Radium startup calibrations. This limits the engine revs for
pre-tune liability. It is found in: Setup Tab | Main Rev Limits | Fuel Cut. This can be raised when the
vehicle is put on a dynamometer and ready to be tuned. Note: The stock Lotus ECU limiter is 8500RPM.
If the vehicle does not start, check all of the connections. Go to forum.aempower.com/forum/index.php
for troubleshooting.
10. Tables and Pinouts
The table below illustrates the AEM general purpose input/output preset in the Radium EMS kit
GPIO
Name
I/O
1
VVL Solenoid
Output
2
Power Selector Switch
Input
3
High Speed Fan Relay
Output
4
Slow Speed Fan Relay
Output
5
VVTi Solenoid
Output
6
Air Box Valve (or Aux Relay)
Output
7
Boost Control Solenoid
Output
8
Traction Control Switch
Input
Notes
Preset to activate the Toyota variable valve lift
solenoid.
Preset for the optional Radium power select switch.
Common uses are race gas switch and/or high boost
switch. It can be used for other miscellaneous I/O.
Preset to activate the factory Lotus fast speed radiator
fan.
Preset to activate the factory Lotus slow speed
radiator fan.
Preset to control the Toyota variable valve timing
solenoid on the intake camshaft.
Preset to open the Lotus air box valve. It is also used
to drive the relay in the optional auxiliary harness. It
can do both but will be limited to one software
activation condition, so many unplug the air box valve.
Preset to control a turbo boost solenoid in the optional
aux harness. It can be used for other misc I/O.
Preset for the optional Radium traction control switch.
It can be used for other miscellaneous I/O.
The table below is the pinout sheet for the optional Auxiliary Harness 12P DTM Deutsch connector
Deutsch
Description
1
Boost Control Power
2
Boost Control Output
3
---
4
O2 Sensor Signal
5
IAT Sensor Signal
6
Sensor Ground
7
MAP Sensor Signal
8
5V Sensor Reference
9
---
10
Relay Trigger -
11
Sensor Ground
12
Relay Trigger +
Auxiliary Harness 12-pin Connector Notes
12V switched power to the 2-pin turbo boost solenoid connector.
Note: The turbo boost solenoid does not require polarity.
PWM ground to the 2-pin turbo boost solenoid connector. Note: The
turbo boost solenoid does not require polarity.
Not used
Short flying lead that can be pulled from sleeving. Commonly used
as an aftermarket O2 sensor input. Note: The factory O2 sensor
MUST be disconnected to use this input!
Connects to the 2-pin intake air temperature sensor connector. Note:
The intake air temperature sensor does not require polarity.
Connects to the sensor ground terminal on the 3-pin MAP (manifold
absolute pressure) sensor connector as well as the 2-pin intake air
temperature sensor connector.
Connects to the signal wire terminal on the 3-pin MAP sensor
connector. Note: The factory MAF (mass air flow) sensor MUST be
disconnected to use this input!
Connects to the power wire terminal on the 3-pin MAP (manifold
absolute pressure) sensor connector.
Not used
EMS GPIO#6 output that triggers the integrated aux relay ON/OFF.
Note: If still plugged in, the Lotus air box valve will also activate
(open) according to the GPIO#6 software conditions.
Short flying lead with no termination that can be pulled out from
sleeving. Use for aftermarket wideband O2 sensor controllers that
require an extra analog sensor ground.
Connects to the integrated auxiliary relay. This is a 12V switched
power wire for the relay's coil.
Shown below are the 04-05 Lotus 2ZZ-GE ECU pin-outs and pin numbering for the 04-05 ECU header
PIN
2004-2005 LOTUS 2ZZ-GE
PIN
2004-2005 LOTUS 2ZZ-GE
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
Pre O2 Sensor Heater Ground
Chassis Ground
Post O2 Sensor Signal
Crank Sensor Signal
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
AC Control Module Compressor Relay
Main Relay
Vap Pressure/Fuel Tank Sender/VTC 5V Ref
Trinary Switch AC Request
SAI Pressure Sensor Ground
Coolant Temp Sensor Ground
Throttle Body +5V
VSV CVCV Canister Vent Close Valve Ground
VSV ACIS Airbox
Oil Control Valve VVL Ground
Knock Sensor Ground
Injector 3
Pre O2 Sensor Signal
Cam Sensor Signal
IAT Sensor Ground
Knock Sensor Cable Screen
TPS Signal
Oil Pressure Switch VVTL
Ignition Coil Feedback
Oil Pressure Switch
Injector 1
Ignition Coil 2
Post O2 Heater Ground
Chassis Ground
Post O2 Sensor Ground
Crank Sensor Ground
MAF Sensor Ground
Coolant Temp Sensor Signal
Throttle Body Ground
IAC Valve Signal
SAI Pressure Sensor 5V Reference
VSV Purge Valve Ground
Injector 4
Pre O2 Sensor Ground
Cam Sensor Ground
Knock Sensor Signal
IAT Sensor Signal
MAF Sensor Signal
Ignition Coil 3
Ignition Coil 4
Oil Control Valve VVT Ground
SAI Pressure Sensor Signal
Injector 2
Ignition Coil 1
Diagnostic Connector K Line
AC Control Module Rad Fan Fast Relay 2
Ignition ACC
ABS Unit Right Rear
ABS Unit Right Front
ABS Unit Left Front
Diagnostic Connector CAN High
Start Relay
AC Control Module Rad Fan Slow Relay 3
Fuel Pump Relay
Hot Soak Starter Internal Connection Relay
Trinary Switch AC Fan Request
Diagnostic Connector L Line
Vapor Pressure Signal (except 2004 Elise/Exige)
Fuel Tank Sender Signal
ABS Unit Left Rear
Vapor Pressure/Fuel Tank Sendor Ground
Diagnostic Connector CAN Low
BATT
Shown below are the 2006+ Lotus 2ZZ-GE ECU pin-outs and pin numbering for the 06+ ECU header
PIN
A
B
C
D
E
F
G
H
J
K
L
M
2006+ BROWN (L) CONNECTOR
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
Diagnostic Connector CAN High
TPMS R1 (Specific Models Only)
Pre O2 Sensor Signal
ABS Unit Left Front
Diagnostic Connector CAN Low
TPMS R2 (Specific Models Only)
Post O2 Sensor Signal (Except 2-Eleven)
ABS Unit Left Rear
Vap Pressure Signal/Diagnostic (2-Eleven Only)
PIN
A
B
C
Diagnostic Connector L Line
Throttle Pedal S1 Signal
Throttle Pedal S2 Signal
Variable TC Signal (Specific Models Only)
Trinary Switch AC Fan Request
Trinary Switch AC Request
Fuel Tank Sender Signal
ABS Unit Right Rear
Clutch Switch Air Bag Harness Canada Only
D
E
F
Pre/Post O2 Sensor Ground
Start Relay
Ignition ACC
Diagnostic Connector K Line
Throttle Pedal S1 Ground
VSV CVCV Canister Vent Close Valve Ground
Post O2 Heater Ground (Except 2-Eleven)
ABS Unit Right Front
AC Control Module Compressor Relay
AC Control Module Rad Fan Fast Relay 2
AC Control Module Rad Fan Slow Relay 3
Fuel Pump Relay
Hot Soak Starter Internal Connection Relay
Throttle Pedal S1 +5V
Pre O2 Sensor Heater Ground
BATT
Throttle Pedal S2 +5V
Throttle Pedal S2 Ground
Vap Pressure/Fuel Tank Sender/VTC Ground
Main Power In
Main Power In
Main Relay
Vap Pressure/Fuel Tank Sender/VTC 5V Ref
G
H
J
K
L
M
BLACK (R) CONNECTOR
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
TMAP Sensor Temp Signal (Supercharged Only)
Oil Pressure Switch
Knock Sensor Ground
MAP Sensor Signal (Supercharged Only)
Oil Pressure Switch VVTL
IAT Sensor Signal
MAF Sensor Signal
Cam Sensor Signal
Traction Control Switch (Specific Models Only)
Coolant Temp Sensor Signal
Knock Sensor Signal
Throttle Body Sensor Ground
MAF/IAT/MAP Sensor Ground
Throttle Body TPS1
Crank Sensor Signal
Cam Sensor Ground
Throttle Body TPS2
Crank Sensor Ground
Knock Sensor Cable Screen
Ignition Coil Feedback
VSV Purge Valve Ground
Ignition Coil 1
Ignition Coil 4
Ignition Coil 3
Ignition Coil 2
Coolant Temp Sensor Ground
Oil Control Valve VVL Ground
VSV ACIS Airbox
Injector 1
Oil Control Valve VVT Ground
Traction Control LED Ground (Specific Models Only)
Secondary Injector (2-Eleven Only)
Injector 4
Injector 3
Injector 2
Throttle Body M+
Throttle Body MMAP Sensor +5V (Supercharged Only)
Chassis Ground
Chassis Ground
Chassis Ground
Throttle Body +5V