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Porsche 991.1 2014 M1 Kit
Porsche 991.1 2014 M1 Kit
Porsche 991.1 2014 M1 Kit
Part No: #11409

OVERVIEW

This Plug-In Kit provides a complete replacement for the factory OE (original equipment) ECU for the Porsche 911 Turbo 2014-2016. Using existing wiring, the original fuel system and sensors, it delivers convenient installation with fully programmable control. Along with fuel, ignition, throttle and camshaft control, this Kit also supports other OE ECU features, including:

  • Selectable Turbo or Turbo S models
  • Selectable Drive Mode including Normal, Sport, Sport Plus, and Individual using OE controls
  • Full integration of 7-Speed PDK transmission
  • Direct injector with high pressure fuel pump control and optional secondary port injector control (saturated high-ohm injectors only)
  • Cruise control
  • Included LTC Dual connects to OE Lambda sensors
  • All OE dash functionality including warnings

VEHICLE COMPATIBILITY

This product includes CAN messaging for full OE vehicle integration. The Package caters for OE vehicle systems such as power steering, ABS, starting systems and dashboards.

The following table shows compatible vehicles.

Vehicles supported Year Comment
Porsche 911 2014 - 2016 Engine MA1.71
Porsche 911 S 2014 - 2016 Engine MA1.71
Vehicles not supported Year Comment
Porsche 911 GT3 2015 - 2017 Engine MA1.75
Porsche 911 GT3 RS 2015 - 2017 Engine MA1.76

KIT CONTENTS

  • 13142M - M142 ECU MARINE
  • 61448 - M142 PORSCHE 991/1 2014 ADAPTOR KIT
    • 61449 - M142 PORSCHE 991/1 2014 ADAPTOR BOX
    • 61451 - M142 PORSCHE 991/1 MOUNTING KIT
    • 61404 - M1 ADAPTOR 250MM 26W KEY 1 STUB LOOM
    • 61405 - M1 ADAPTOR 250MM 26W KEY 3 STUB LOOM
    • 61406 - M1 ADAPTOR 250MM 34W KEY 1 STUB LOOM
    • 61407 - M1 ADAPTOR 250MM 34W KEY 2 STUB LOOM
    • 61450 - PORSCHE 991_1 2015 BREAKOUT LOOM superseded by
    • 61467 - PORSCHE 991_2 2017 BREAKOUT LOOM
    • 61301 - LTCD - DUAL LSU LAMBDA TO CAN
    • 61456 - LAMBDA SENSOR EXTENSION LOOM FOR LSU 0.6 METRES
Licence
  • 23543 - M1 LICENCE - PORSCHE 991/1 2014
This Licence is required to run the M142 PORSCHE 991.1 2014 Package in the M142 ECU.

FEATURES

  • This kit fully integrates with these original systems:
    • Direct fuel injection
    • Starting systems
    • Dashboard
    • Transmission Control for Porsche PDK
    • VDC - Stability Control
    • Drive Mode
  • For ease of integration a number of features are pre-configured to suit compatible vehicles:
    • Sensor calibrations for Original Equipment (OE) sensors and engine triggers.
    • Control of primary (Direct Injector) fuel system.
    • Reference mode for engine synchronisation.
    • Physical settings for engine displacement, fuel density, stoichiometric ratio, fuel pressure, and primary injector linearisation, for simplified engine start-up prior to tuning.
    • CAN messaging for OE systems including dashboard and transmission.
    • Boost control with dual wastegate actuators.
    • Launch control
    • Transient fuelling compensation using physical modelling of fuel film for direct injectors.
    • On-board knock control for each cylinder using the OE knock sensors and selectable centre frequency.
    • Lambda control is supported with included LTCD and OE Bosch LSU4.9 sensors.
    • Idle closed loop control system using ignition and throttle servo actuation.
    • Sensing of OE subsystems
      • Exhaust Temperature (EGT) Bank 1 and 2
      • Engine Oil Temperature and Level
      • Coolant Temperature
      • Boost Pressure
      • Fuel Pressure Direct
      • Brake Vacuum Pressure
      • Engine Compartment, Transmission Temperature
      • Steering Angle
    • Control of OE subsystems:
      • Closed loop control of engine oil pressure
      • Coolant bypass
      • Secondary air pump
      • Run on pump
      • Shutoff valve
      • Exhaust sound valve
      • Fan control
      • Switchable valve lift
    • Engine Load Average channel with tables for engine speed limit, ignition timing trim, fuel mixture aim, boost limit, and throttle limit.
  • Configurable features:
    • Configurable security for multiple users with differing access options.
    • Configurable closed loop alternator system for PWM field winding control.
    • Intercooler temperature and spray control.
  • Included GPR features:
    • Lap distance, time and number via BR2 or switched input, with split and sector options.
    • Vehicle speed limiting (pit speed control).
    • Race time system with tables for ignition timing trim, fuel mixture aim, boost limit, and throttle limit.
    • Configurable anti-lag for single turbo variants with ignition timing limit, fuel volume trim, ignition cut, fuel cut, engine speed limit, boost aim and throttle aim tables.
    • Traction control with tables for aim main, aim compensation, control range
    • Optionally configurable secondary (Port Injector) fuel control with a tuneable balance table. Note - this ECU does not support Peak/Hold port injectors. Only Saturated (high-ohm) port injectors are suitable.
  • Additional optional integrations:
    • Support of MoTeC devices: E8XX, PDM, SLM, Keypad, Rotary Controller.
    • 8 configurable driver switches, 8 rotary switches and MoTeC Keypad and Rotary Controller support, each with 9 positions that can be simultaneously mapped to launch control, pit switch, anti-lag, traction, race time reset, engine speed limit maximum, throttle lever translation, fuel volume trim, ignition timing, fuel mixture aim, boost limit, traction aim, and traction control range.
    • GPS acquisition and logging via CAN or RS232.
    • ECU CAN Receive from a defined ID base address for data reception from MoTeC devices.
    • Coolant pump output with PWM control.
    • Coolant pump after-run functionality, optionally with additional pump output.
    • Switchable inlet manifold runner with position feedback.
    • Engine run time total for engine hour logging.
    • Pulsed tachometer output with configurable output pin and scaling.
    • Transmission pump output with transmission temperature threshold and hysteresis control.
    • Optional channels for additional sensors via input pin and/or CAN message, including:
      • Airbox Mass Flow, Temperature and Pressure
      • Ambient Temperature
      • Brake Pressure
      • Coolant Pressure
      • Engine Crankcase Pressure
      • Exhaust Pressure
      • Fuel Pressure and Temperature
      • Intercooler Temperature
      • Turbocharger Speed
      • G-Force (acceleration) - Longitudinal, Lateral, Vertical

OPERATION

Reference Mode

The M1 Reference Mode in this Package is locked to the Porsche 991.1 pattern.

ECU Power

The M1 ECU will be powered as follows:

  • When the ignition switch is on.
  • When the M1 is connected to the M1 Tune application via Ethernet. Once on, power will remain when the M1 is connected to the M1 Tune application via Ethernet.
Engine Start

This feature operates identically to OE behaviour.

Driver Switches

Various in-car dials and switches are acquired over the CAN bus and assigned to Firmware resources to allow for mode switching in the ECU. See the Help for the main Porsche group in M1 Tune.

Staged Injection (Port Injectors)

A Breakout loom is included that contains 12 V power and outputs to run saturated port injectors. The Fuel Injector Secondary Location setting is set to Not in Use in the provided Package. To enable secondary port injectors, change this setting to reflect the location of the port injectors. Relevant settings will now be exposed so that the port injector characteristics can be configured.

The principle control mechanism is the Fuel Injector Secondary Contribution Main table which determines the balance between primary (direct) and secondary (port) injectors.

Adaptor Box Expansion Outputs

The included Adaptor Box provides additional outputs for some subsystems on the vehicle. These are controlled from the M142 ECU via LIN messaging. If the LIN settings are modified or the LIN wiring to the Adaptor Box is compromised, these outputs will not function, so it is imperative that LIN settings are not changed in the Package.

The Adapter group in the Package provides status information on each of the outputs.

CAN bus 1 on pins 32 and 33 of the Adaptor Box breakout are connected directly to the OE bus which is 500k. Care must be taken not to over-extend this bus nor transmit messages that might conflict with OE communications on this critical vehicle bus. MoTeC suggests all external connects are made to CAN bus 2 on pins 27/28 of the Adaptor Box breakout for additional engine bay CAN connections over and above the currently connected LTCD on CAN bus 2.

Engine Efficiency Model

This product provides two maps for Engine Efficiency to accommodate the Porsche valve lift switching system. The Engine Efficiency Main table is used when the Adaptor Lift Valve State is Enabled. The Engine Efficiency Low Lift table is used when the variable lift system is Disabled.

Fuel Pressure Control - (Lift Pump)

The vehicle uses a PWM controlled low pressure fuel pump (lift pump). The Package is configured without a fuel pressure (lift) sensor, operating the fuel pump controller on the car with the ‘Open Loop’ setting Enabled so it runs directly off the Feed Forward table.

Fuel Pressure Direct Control

The vehicle uses a current controlled continuous high pressure fuel pump (unlike many contemporary engines which use synchronous piston DI pumps). The Fuel Pressure Direct Bank 1 group provides tables to match desired flow with required pump current, and also uses a pump current sensor provided in the Adaptor Box to facilitate closed loop current control. The current control settings for the Package are pre-configured and it is recommended that these settings are not changed. Settings for the pump flow and feed forward may be optimised as required.

Engine Oil Pressure Control

Engine oil pressure is controlled via a closed loop PWM actuator and pressure sensor. Target pressures are set to mimic the behaviour of the OE installation. As insufficient (or excess) oil pressure can cause irreversible damage to an engine, it is recommended that the supplied settings are not changed without extreme caution.

Methanol

This subsystem runs a PWM controlled pump to inject secondary fuel (methanol, water/methanol) with ignition & fuel compensations.

TCM Features

These features aid useful interaction with the OE TCM.

  • Logging: Clutch pressure and shaft speed logging.
  • TCM Clear: Fault code clearing of the TCM
  • Porsche PDK Clutch Re-Learn compatibility with service level OBD port tools. Performing a clutch re-learn allows the transmission to verify the location and thickness of the clutches used to transmit power to the drive wheels. This enables the transmission control computer to make adjustments to clutch engagement as the discs wear over time. A service grade OBD port tool is required to initiate this sequence which will run a correlation routine using the M1 ECU and factory Porsche TCM. This routine requires the PDK transmission is at normal operating temperature (140F / 60C) and will require 10-20 minutes of the operator's time with their foot pressed firmly on the brake throughout the entire procedure.The PDK transmission clutch re-learn function will not operate if the TCM has been flash tuned.
Torque Reduction

This product offers sophisticated torque reduction of the vehicle, by means of various combinations of throttle control, ignition retard, and fuel cut.

Torque reduction is employed via the following subsystems:

  • Gear Up Shift Torque Reduction Main table
  • Engine Oil Level Warning Torque Limit - reduces engine torque when Engine Oil Level is critically low.
  • Porsche Torque Translation - translates calculated torque values to and from the Porsche CAN bus.
  • Porsche TCM Torque Reduction Extend - the ECU can react too quickly to the torque reduction request from the TCM, so this setting can extend the reduction by up to 30 ms.
  • Porsche VDC Torque Limit Gain
  • Torque Demand Bias - allows scaling of torque demand based on throttle pedal.
  • Torque Reduction Limit - limits the maximum torque reduction that can be applied. Can limit excessive ignition retard being applied from high torque reduction requests from the TCM.
  • Torque Reduction Ignition Timing Limit - sets the transition between ignition timing and fuel cut methods of reducing torque.
  • Torque Ideal Generated Scale - used in calculating the generated torque based on Engine Load.
  • Torque Ideal Correction Internal Loss - mapping of torque lost to internal friction and drives.
  • Torque Minimum Feed Forward

INSTALLATION

See below in the "Downloads" section for an "Installation Guide".

PINOUT

M142 Connector A - 34 Way
Mating Connector: Tyco Superseal 34 Position Keying 2 – MoTeC #65067
Pin Designation Full Name OE or Breakout Pin Description
A01 AT5 Analogue Temperature Input 5 T96/44 Engine Oil Temperature Sensor
A02 AT6 Analogue Temperature Input 6 T96/63 Coolant Radiator Temperature Sensor
A03 AV15 Analogue Voltage Input 15 Breakout 15
A04 AV16 Analogue Voltage Input 16
A05 AV17 Analogue Voltage Input 17
A06 INJ_D1A_NEG Direct Injector 1A - T96/49 Fuel Cylinder 1 Primary -
A07 INJ_D1A_POS Direct Injector 1A + T96/03 Fuel Cylinder 1 Primary +
A08 INJ_D1B_POS Direct Injector 1B + T96/27 Fuel Cylinder 4 Primary +
A09 INJ_D1B_NEG Direct Injector 1B - T96/50 Fuel Cylinder 4 Primary -
A10 SEN_5V0_C1 Sensor 5.0V C Breakout 5, 6, 7
A11 LA_NB1 Lambda Narrow Input 1
A12 LA_NB2 Lambda Narrow Input 2
A13 KNOCK3 Knock Input 3 T96/24 Knock Bank 2
A14 KNOCK4 Knock Input 4 T96/48 Knock Bank 2
A15 DIG2 Digital Input 2 T96/82 Exhaust Temperature Bank 1 Sensor
A16 DIG3 Digital Input 3 T96/58 Exhaust Temperature Bank 2 Sensor
A17 DIG4 Digital Input 4
A18 SEN_5V0_C2 Sensor 5.0V C
A19 SEN_5V0_B2 Sensor 5.0V B T96/62 Sensor 5V Supply
A20 LIN LIN Bus LIN Comms - LIN Command to Adaptor Expansion
A21 RS232_RX RS232 Receive Breakout 16 Optional GPS Receive
A22 RS232_TX RS232 Transmit
A23 DIG1 Digital Input 1 T96/67 Engine Oil Level Sensor
A24 BAT_NEG3 Battery Negative T58/01, T58/02, T58/04 Chassis Ground
A25 BAT_NEG4 Battery Negative T58/01, T58/02, T58/04 Chassis Ground
A26 SEN_0V_C1 Sensor 0V C Breakout 20, 21, 22, 31
A27 SEN_0V_C2 Sensor 0V C
A28 CAN3_HI CAN Bus 3 High
A29 CAN3_LO CAN Bus 3 Low
A30 CAN2_HI CAN Bus 2 High MoTeC 1 Mbit/sec CAN
A31 CAN2_LO CAN Bus 2 Low MoTeC 1 Mbit/sec CAN
A32 BAT_NEG5 Battery Negative T58/01, T58/02, T58/04 Chassis Ground
A33 SEN_0V_B1 Sensor 0V B T96/86 Sensor 0V Supply
A34 SEN_0V_A1 Sensor 0V A T58/20, T58/38 Sensor 0V Supply
M142 Connector B - 26 Way
Mating Connector: Tyco Superseal 26 Position Keying 3 – MoTeC #65068
Pin Designation Full Name OE or Breakout Pin Description
B01 OUT_HB9 Half Bridge Output 9 T58/08 Start Relay
B02 OUT_HB10 Half Bridge Output 10 T96/08 Fuel Pressure Direct Bank 1 Pump
B03 UDIG8 Universal Digital Input 8 T58/29 Start Interlock Switch
B04 UDIG9 Universal Digital Input 9
B05 UDIG10 Universal Digital Input 10
B06 UDIG11 Universal Digital Input 11
B07 UDIG12 Universal Digital Input 12
B08 INJ_LS5 Low Side Injector 5 Breakout 26 Optional Port Injector
B09 INJ_LS3 Low Side Injector 3 Breakout 18 Optional Port Injector
B10 AV9 Analogue Voltage Input 9 Boost Pressure Sensor
B11 AV10 Analogue Voltage Input 10 Fuel Pressure Direct Bank 1 Current Sensor
B12 AV11 Analogue Voltage Input 11 Breakout 11
B13 BAT_POS Battery Positive T96/68, T58/03, T58/05, T58/06 Switched Battery Supply
B14 INJ_LS6 Low Side Injector 6 Breakout 34 Optional Port Injector
B15 INJ_LS4 Low Side Injector 4 Breakout 25 Optional Port Injector
B16 AV12 Analogue Voltage Input 12 Breakout 12
B17 AV13 Analogue Voltage Input 13 Breakout 13
B18 AV14 Analogue Voltage Input 14 Breakout 14
B19 BAT_POS Battery Positive T96/68, T58/03, T58/05, T58/06 Switched Battery Supply
B20 OUT_HB7 Half Bridge Output 7 T96/30 Throttle Servo Bank 1 Motor -
B21 OUT_HB8 Half Bridge Output 8 T96/06 Throttle Servo Bank 1 Motor +
B22 INJ_D2A_NEG Direct Injector 2A - T96/52 Fuel Cylinder 6 Primary -
B23 INJ_D2A_POS Direct Injector 2A + T96/04 Fuel Cylinder 6 Primary +
B24 INJ_D2B_POS Direct Injector 2B + T96/28 Fuel Cylinder 3 Primary +
B25 INJ_D2B_NEG Direct Injector 2B - T96/51 Fuel Cylinder 3 Primary -
B26 SEN_5V0_A Sensor 5.0V A T58/40, T58/42 Sensor 5V Supply
M142 Connector C - 34 Way
Mating Connector: Tyco Superseal 34 Position Keying 1 – MoTeC #65044
Pin Designation Full Name OE or Breakout Pin Description
C01 OUT_HB2 Half Bridge Output 2 T58/43, T58/44 Coolant Fan 1 Output
C02 SEN_5V0_A Sensor 5.0V A T96/18 Sensor 5V Supply
C03 IGN_LS1 Low Side Ignition 1 T96/56 Ignition Cylinder 1
C04 IGN_LS2 Low Side Ignition 2 T96/55 Ignition Cylinder 2
C05 IGN_LS3 Low Side Ignition 3 T96/80 Ignition Cylinder 3
C06 IGN_LS4 Low Side Ignition 4 T96/78 Ignition Cylinder 4
C07 IGN_LS5 Low Side Ignition 5 T96/79 Ignition Cylinder 5
C08 IGN_LS6 Low Side Ignition 6 T96/54 Ignition Cylinder 6
C09 SEN_5V0_B Sensor 5.0V B T58/53 Sensor 5V Supply
C10 BAT_NEG1 Battery Negative T58/01, T58/02, T58/04 Chassis Ground
C11 BAT_NEG2 Battery Negative T58/01, T58/02, T58/04 Chassis Ground
C12 IGN_LS7 Low Side Ignition 7 T96/53 Coolant Thermostat Output
C13 IGN_LS8 Low Side Ignition 8 T58/09 Fuel Pressure Control Output
C14 AV1 Analogue Voltage Input 1 T58/15 Brake Vacuum Pressure Sensor
C15 AV2 Analogue Voltage Input 2 T58/39 Throttle Pedal Sensor Main
C16 AV3 Analogue Voltage Input 3 T58/52 Throttle Pedal Sensor Tracking
C17 AV4 Analogue Voltage Input 4 T96/14 Throttle Servo Bank1 Position Tracking
C18 OUT_HB1 Half Bridge Output 1 T96/92 Engine Oil Pressure Control Output
C19 INJ_D3A_POS Direct Injector 3A + T96/01 Fuel Cylinder 2 Primary +
C20 INJ_D3B_POS Direct Injector 3B + T96/25 Fuel Cylinder 5 Primary +
C21 INJ_D4A_POS Direct Injector 4A + Not used - DO NOT CONNECT
C22 INJ_D4B_POS Direct Injector 4B + Not used - DO NOT CONNECT
C23 INJ_LS1 Low Side Injector 1 Breakout 10 Optional Port Injector
C24 INJ_LS2 Low Side Injector 2 Breakout 17 Optional Port Injector
C25 AV5 Analogue Voltage Input 5 T96/38 Throttle Servo Bank1 Position Main
C26 BAT_POS Battery Positive T96/68, T58/03, T58/05, T58/06 Switched Battery Supply
C27 INJ_D3A_NEG Direct Injector 3A - T96/73 Fuel Cylinder 2 Primary -
C28 INJ_D3B_NEG Direct Injector 3B - T96/74 Fuel Cylinder 5 Primary -
C29 INJ_D4A_NEG Direct Injector 4A - Not used - DO NOT CONNECT
C30 INJ_D4B_NEG Direct Injector 4B - Not used - DO NOT CONNECT
C31 OUT_HB3 Half Bridge Output 3 T96/10 Inlet Camshaft Bank 2 Actuator
C32 OUT_HB4 Half Bridge Output 4 T96/34 Inlet Camshaft Bank 1 Actuator
C33 OUT_HB5 Half Bridge Output 5 T96/94 Turbocharger Bypass Actuator
C34 OUT_HB6 Half Bridge Output 6 T96/29, T96/77 Boost Actuator Output
M142 Connector D - 26 Way
Mating Connector: Tyco Superseal 26 Position Keying 1 – MoTeC #65045
Pin Designation Full Name OE or Breakout Pin Description
D01 UDIG1 Universal Digital Input 1 T96/64 Engine Speed (Crank) Sensor
D02 UDIG2 Universal Digital Input 2 T96/84 Inlet Camshaft Bank 1 Position
D03 AT1 Analogue Temperature Input 1 T96/40 Engine Compartment Temperature Sensor
D04 AT2 Analogue Temperature Input 2 T96/41 Inlet Air Temperature Sensor
D05 AT3 Analogue Temperature Input 3 T58/27 Transmission Temperature Sensor
D06 AT4 Analogue Temperature Input 4 T96/43 Coolant Temperature Sensor
D07 KNOCK1 Knock Input 1 T96/22 Knock Bank 1
D08 UDIG3 Universal Digital Input 3 T96/60 Inlet Camshaft Bank 2 Position
D09 UDIG4 Universal Digital Input 4 T96/61 Boost Feedback Bank 2
D10 UDIG5 Universal Digital Input 5 T96/85 Boost Feedback Bank 1
D11 UDIG6 Universal Digital Input 6 T58/34 Ignition Sense
D12 BAT_BAK Battery Backup T58/47 Permanent Power
D13 KNOCK2 Knock Input 2 T96/46 Knock Bank 1
D14 UDIG7 Universal Digital Input 7 T96/33 Brake Switch
D15 SEN_0V_A Sensor 0V A T96/21, T96/42, T96/69, T96/70, T96/71, T96/72 Sensor 0V Supply
D16 SEN_0V_B Sensor 0V B T58/28, T58/51 Sensor 0V Supply
D17 CAN1_HI CAN Bus 1 High T58/54 Vehicle 500 Kbit/sec CAN
D18 CAN1_LO CAN Bus 1 Low T58/41 Vehicle 500 Kbit/sec CAN
D19 SEN_6V3 Sensor 6.3V
D20 AV6 Analogue Voltage Input 6 T96/16 Engine Oil Pressure Sensor
D21 AV7 Analogue Voltage Input 7 T96/17 Inlet Manifold Pressure Sensor
D22 AV8 Analogue Voltage Input 8 T96/19 Fuel Pressure Direct Bank 1 Sensor
D23 ETH_TX+ Ethernet Transmit+
D24 ETH_TX- Ethernet Transmit-
D25 ETH_RX+ Ethernet Receive+
D26 ETH_RX- Ethernet Receive-
Breakout Connector E - 34 Way

Mating Connector: Tyco Superseal 34 Position Keying 1 (MoTeC #65044)

Pin Designation Full Name M142 Pin Function
E01 BAT_POS Battery Positive B13, B19, C26 LTC Power Supply
E02 BAT_POS Battery Positive B13, B19, C26 Port Injector Supply (optional)
E03 LIN_OUT_12 Expansion Spare Output 12
E04 OUT_HB5 Half Bridge Output 5 C33 Reusable Output
E05 SENS_5V0_C1 Sensor 5.0V C A10 Sensor 5V Supply
E06 SENS_5V0_C1 Sensor 5.0V C A10 Sensor 5V Supply
E07 SENS_5V0_C1 Sensor 5.0V C A10 Sensor 5V Supply
E08 BAT_NEG Battery Negative A24, A25, A32, C10, C11
E09 BAT_NEG Battery Negative A24, A25, A32, C10, C11 LTC Power Ground
E10 OUT_LS1 Low Side Injector 1 C23 Port Injector 1
E11 AV11 Analogue Voltage Input 11 B12
E12 AV12 Analogue Voltage Input 12 B16
E13 AV13 Analogue Voltage Input 13 B17
E14 AV14 Analogue Voltage Input 14 B18
E15 AV15 Analogue Voltage Input 15 A03
E16 RS232RX RS232 Receive A21 Usually for GPS.
E17 OUT_LS2 Low Side Injector 2 C24 Port Injector 2
E18 OUT_LS3 Low Side Injector 3 B09 Port Injector 3
E19 UDIG10 Universal Digital Input 10 B05
E20 SENS_0V_C1 Sensor 0V C A26 Sensor 0V Supply
E21 SENS_0V_C1 Sensor 0V C A26 Sensor 0V Supply
E22 SENS_0V_C1 Sensor 0V C A26 Sensor 0V Supply
E23 UDIG11 Universal Digital Input 11 B06 Spare
E24 UDIG12 Universal Digital Input 12 B07 Spare
E25 OUT_LS4 Low Side Injector 4 B15 Port Injector 4
E26 OUT_LS5 Low Side Injector 5 B08 Port Injector 5
E27 CAN2LO CAN Bus 2 Low A31 MoTeC CAN Bus Low (LTC)
E28 CAN2HI CAN Bus 2 High A30 MoTeC CAN Bus High (LTC)
E29 OUT_HB6 Half Bridge Output 6 C34 Reusable Output
E30 IGN_LS8 Low Side Ignition 8 C13
E31 SENS_0V_C1 Sensor 0V C A26 Sensor 0V Supply
E32 CAN1LO CAN Bus 1 Low D18 OE Powertrain CAN Bus Low
E33 CAN1HI CAN Bus 1 High D17 OE Powertrain CAN Bus High
E34 OUT_LS6 Low Side Injector 6 B14 Port Injector 6

PURCHASING

If you are interested in purchasing this product contact an Authorised MoTeC Dealer.

PACKAGE DOWNLOAD

Download this package from MoTeC Online.

DOWNLOADS

User Manuals & Guides
Name
Version / Part
Published
Download
Name, Version / Part, Published
Name
Version / Part
Published
Download
 M1 Flex Fuel User Guide
Mar 2017
M1 Flex Fuel User Guide
Mar 2017
 M1 Flex Fuel User Guide
Mar 2017
 M1 Launch Control User Guide
Mar 2017
M1 Launch Control User Guide
Mar 2017
 M1 Launch Control User Guide
Mar 2017
 M1 To PDM CAN Messaging User Guide
Aug 2017
M1 To PDM CAN Messaging User Guide
Aug 2017
 M1 To PDM CAN Messaging User Guide
Aug 2017
Installation Guides
Name
Version / Part
Published
Download
Name, Version / Part, Published
Name
Version / Part
Published
Download
 Porsche 991.1 2014 M142 Plug-In ECU Kit
11409
Jul 2023
Porsche 991.1 2014 M142 Plug-In ECU Kit
11409
Jul 2023
 Porsche 991.1 2014 M142 Plug-In ECU Kit
11409
Jul 2023
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