Installation Instructions for: EMS P/N 30-1120 1991-1992 MR2 Turbo 1990-1992 All Trac

WARNING: This installation is not for the tuning novice nor the PC illiterate! Use this system with EXTREME caution! The AEM EMS System allows for total flexibility in engine tuning. Misuse of this product can destroy your engine! If you are not well versed in , engine dynamics and the tuning of management systems or are ! not PC literate, please do not attempt the installation. Refer the installation to a AEM trained tuning shop or call 800-423-0046 for technical assistance. You should also visit the AEM EMS Tech Forum at http://www.aempower.com

NOTE: AEM holds no responsibility for any engine damage that results from the misuse of this product!

This product is legal in California for racing vehicles only and should never be used on public highways.

ADVANCED ENGINE MANAGEMENT INC. 2205 126th Street Unit A Hawthorne, CA. 90250 Phone: (310) 484-2322 Fax: (310) 484-0152 Http://www.aempower.com Instruction Part Number: 10-1120  2003 Advanced Engine Management, Inc.

Page 1 of 1 Congratulations! You have just purchased the finest Engine Management system for your at any price! The AEM Engine Management System (EMS) is the result of extensive development on a wide variety of . Each system is engineered for the particular application. The AEM EMS differs from all others in several ways. The EMS is an all new stand alone system, which completely replaces the factory ECU and features unique Plug and Play Technology, which means that each system is configured especially for your make and model of car. There is no need to modify your factory wiring harness and in most cases your car may be returned to stock in a matter of minutes. The AEMPro software is configured to work with the factory sensors and equipment, so that there is no need for expensive or hard to find sensors, making replacement and repairs as simple as with an unmodified car. For stock and some slightly modified cars, the AEMPro software be preprogrammed with a set of base parameters, providing a starting point for individual tuning. For more heavily modified cars, the EMS has many spare inputs and outputs allowing the elimination of separate rev-limiters, boost controllers, nitrous controllers, and fuel computers. It will also allow programmable control over all automatic functions, and includes a configurable onboard data logger capable of recording 512kb of information. Every EMS comes with all functions installed and activated, and there are no expensive options or upgrades to be performed.

The installation of the AEM ECU on the 1991-1992 Toyota MR2 Turbo and 1990-1993 All Trac uses the stock sensors and actuators. The base map is automatically installed in the base calibrations directory in the AEMPro directory on your computer. It is named 1120.V1.03.CAL.

Full details of the test vehicle used to generate this map can be found in the files notes section. However, while the base map is a good starting point and may save you considerable time and money, it will not replace the need to tune your specific application. It is not intended to be driven aggressively. Ignoring this can and will damage your engine.

Please visit the AEM EMS Tech Forum at http://www.aempower.com/bbs and register your EMS before you start to use it. Make sure you enter your EMS serial number when you register as doing this grants access to the calibration files. We always post the most current strategy release, PC Software and base calibrations online. On the forum, you will find many helpful hints/tips to make your EMS perform it’s best. Also, we may make available EMS maps for engines running speed density, larger turbo, etc…

Read and understand these instructions BEFORE attempting to install this product. 1) Removing the Stock Engine Control Unit a) Access the stock Engine Control Unit (ECU). The location of the ECU on the Toyota MR2 is behind the Firewall cover in the on the left side. b) Push in the center of the clips that hold the trunk liner in place, and expose the factory ECU. c) Carefully disconnect the wiring harness from the ECU. Avoid excessive stress or pulling on the wires, as this may damage the wiring harness. Some factory

Page 2 of 2 ECU’s use a bolt to retain the factory connectors, and it must be removed before the harness can be disconnected. There may be more than one connector, and they must all be removed without damage to work properly with the AEM ECU. Do not cut any of the wires in the factory wiring harness to remove them. d) Remove the fasteners securing the ECU to the car body, and set it aside. Do not destroy or discard the factory ECU, as it can be reinstalled easily for street use and troubleshooting. 2) Install the AEM Engine Management System. a) Plug the factory wiring harness into the AEM ECU, and position it so that the wires are not pulled tight or stressed. Secure it with the provided Velcro fasteners. b) Plug the comms cable into the EMS and into your PC. c) Turn your ignition on but do not attempt to start the engine. d) Upload the base calibration file (.cal) that most closely matches your vehicle’s configuration. (These files can be found in the AEMPro/Base Calibrations/Toyota folder on your computer’s hard drive) e) Set the throttle range: Select the Configure drop down menu, then ECU Setup | Set Throttle Range and then follow the direction given on the screen. f) Verify the ignition timing by selecting the Configure drop down menu, then ECU Setup | Set Ignition. Use a timing light and compare the physical timing numbers to the Parameter Ignition Timing displayed. Use the Advance/Retard buttons to make the timing number match. 3) You are now ready to begin tuning your vehicle. a) Note: This calibration needs to be properly tuned and is not recommended for street use. NEVER TUNE YOUR VEHICLE WHILE DRIVING.

Page 3 of 3 Application Notes for EMS P/N 30-1120 1991-1992 Toyota MR2 Turbo 1990-1993 Toyota Celica All Trac

Make: Toyota Supplied Connectors: C Plug Model: MR2 Turbo / All Trac Spare Injector Drivers: Inj #5 , C8 Years Covered: 1991-1992 / 1990-1993 Spare Injector Drivers: Inj #6 , C9 Engine Displacement: 2.0L Spare Injector Drivers: Inj #7 , C10 : I4 Spare Injector Drivers: Inj #8 , C11 Firing Order: 1-3-4-2 Spare Injector Drivers: Inj #9 , C12 N/A, S/C or T/C: Turbo Spare Injector Drivers: Inj #10 , B7 Load Sensor Type: MAP Spare Coil Drivers: Coil # 2 ,A19 Map Min: 4.89 Spare Coil Drivers: Coil # 3, A18 Map Max: 1.09 Spare Coil Drivers: Coil # 5, A21 # Coils: 1 Spare Coil Drivers: --- Ignition driver type: 0-5v rise Boost Solenoid: PW #2, Pin A6 How to hook up a CDI: Wire after igniter EGT #1 Location: Pin B8 # Injectors: 4 EGT #2 Location: Pin B15 Injector Flow Rate: 450 cc/min EGT #3 Location: Pin D3 Injector Resistance: 2.3 Ω EGT #4 Location: Pin D15 Injection Mode: Sequential Spare 0-5V Channels: ADCR11, Pin C2 Knock Sensors used: 1 Spare 0-5V Channels: ADCR14, Pin D8 Lambda Sensors used: 1 Spare 0-5V Channels: ADCR13, D11 Idle Motor Type: Pulse Spare Low Side Driver: Low Side #5, Pin D16 Main Relay Control: No Spare Low Side Driver: Low Side #6, Pin D17 Crank Pickup Type: Mag Spare Low Side Driver: Low Side #7, Pin D18 Crank Teeth/Cycle: 24 Spare Low Side Driver: Low Side #9 Pin D19 Cam Pickup Type: Mag Spare Low Side Driver: Low Side #12, Pin D20 Cam Teeth/Cycle: 1 Check Engine Light: Low Side #10, Pin A13 Transmissions Offered: M/T Spare Switch Input: Switch #2, Pin D22 Trans Supported: M/T Spare Switch Input: Switch #3, Pin D21 Drive Options: RWD / AWD A/C Switch Input: Switch #6 Notes:

Page 4 of 4 Connection Diagram for EMS P/N 30-1120 1991-92 MR2 Turbo / 1990-93 All Trac

Means the Plug and Play system comes with this configured for proper operation of this PnP device. Is still available for reassignment by the end user. Avail Means the function is not currently allocated and is available for use Dedicated Means the location is fixed and cant be changed

Pin # 1991-1992 MR2 Turbo P/N 30-1120 I/O Availability 1A Crank Crank Input PnP for Crankshaft Sensor 2A TDC Spare Speed Input Avail, switch input, When Coil4 is not used 3A --- Knock #2 Input 4A --- Crank Sensor Input Not Available 5A --- Cam Input Not Available 6A Boost Control PW2 Output PnP for Boost Control 7A --- IDLE #1 Output 8A O2#1 heater LS #4 Output PnP for O2 Heater 9A Idle 1 PW1 Output PnP for Idle Motor 10A Cold start injector LS #8 Output Avail, Inj or switched ground, 1.5A max 11A Injector 2 INJ 2 Output PnP for Injector 2 12A Injector 1 INJ 1 Output PnP for injector 1 13A Chassis ground GND Input Dedicated 14A Chassis ground GND Input Dedicated 15A Cam CAM Input PnP for Sensor 16A Throttle Valve Intake Bypass LS #2 Output PnP for throttle intake bypass 17A Fuel pump circuit LS #11 Output Dedicated 18A --- COIL 3 Output Avail spare coil driver 19A --- COIL 2 Output Avail spare coil driver 20A Coil 1 COIL 1 Output PnP for coil 1 21A --- COIL 5 Output Avail spare coil driver 22A Idle 2 PW1i Output PnP for Idle Motor 23A --- HS #3 Output Available +12v switched, 4.5A max 24A Injector 4 INJ 4 Output PnP for injector 4 25A Injector 3 INJ 3 Output PnP for injector 3 26A Chassis ground GND Input Dedicated

1B 5v ref 5V REF Output Dedicated 2B MASS air sensor MAF Input Avail user 0-5v input 3B Air Temp AIT Input PnP for air temp sensor 4B Coolant Sensor COOL Input PnP for coolant sensor 5B Knock Sensor KNOCK1 Input PnP for Knock sensor 6B Lambda 1 LAMBDA 1 Input PnP for o2#1 7B --- Inj #10 Output Avail, Inj or switched ground, 1.5A max 8B Diagnostics EGT #1 Input Avail RTD type EGT input 9B Sensor Ground SENSOR GROUND Output Dedicated 10B EGR gas temp sensor LS #3 Output Avail, switched ground, 1.5A max 11B TPS sensor TPS Input Dedicated Page 5 of 5 12B Idle Switch SWITCH #5 Input Avail, switch input 13B MAP MAP Input PnP for Map sensor input 14B Lambda 2 LAMBDA 2 Input Avail O2#2 input 15B Diagnostics EGT #2 Input Avail RTD type EGT input 16B Timing Ground TGND Input Dedicated

1C --- HS #1 Output Available +12v switched, 4.5A max 2C --- ADCR 11 Input Avail 0-5v input 3C --- VCC Out Output Available User 5v reference 4C --- Sensor Ground Input Dedicated 5C --- Idle #2 Output Available +12v switched, 4.5A max 6C --- Idle #3 Output Available +12v switched, 4.5A max 7C --- Idle #4 Output Available +12v switched, 4.5A max 8C --- Inj #5 Output Avail, Inj or switched ground, 1.5A max 9C --- Inj #6 Output Avail, Inj or switched ground, 1.5A max 10C --- Inj #7 Output Avail, Inj or switched ground, 1.5A max 11C --- Inj #8 Output Avail, Inj or switched ground, 1.5A max 12C --- Inj #9 Output Avail, Inj or switched ground, 1.5A max

1D Permanent Power PERM Input Dedicated 2D Idle up Diode SWITCH#1 Input Avail, switch input 3D --- EGT #3 Input Avail RTD type EGT input 4D Brake switch input SWITCH#4 Input Avail, switch input 5D Check Engine Light LS#10 Output PnP for check engine light 6D Fuel Pump Res "on" for high LS#1 Output PnP for low pump volume switch 7D --- IDLE #5 Output Avail, switched ground, 1.5A max 8D Input from ABS ADCR14 Input Avail 0-5v input 9D Vehicle Speed input VSS Input PnP for Vehicle Speed 10D A/C in SWITCH#6 Input PnP for A/C Request 11D Starter input ADCR13 Input Avail 0-5v input 12D 12v switched from main relay INJPWR Input Dedicated 13D 12v switched from main relay INJPWR Input Dedicated 14D Power ECU input LS#11 Output Not available 15D ECU input EGT #4 Input Avail RTD type EGT input 16D --- LS 5 Output Avail, switched ground, 1.5A max 17D --- LS 6 Output Avail, switched ground, 1.5A max 18D --- LS 7 Output Avail, switched ground, 1.5A max 19D --- LS 9 Output Avail, switched ground, 1.5A max 20D --- LS 12 Output Avail, switched ground, 1.5A max 21D --- Switch #3 Input Avail, switch input 22D --- Switch #2 Input Avail, switch input

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