MoTeC M1 M150 ECU

Key advantages of M1 systems:

• Latest generation high performance processor
• Large logging memory, fast Ethernet downloads
• Compact and lightweight in robust magnesium enclosures
• Supports direct injection and port injection applications
• Supports advanced logging features including Pro Analysis (i2 Pro)
• Advanced security system, incorporating an anti-tampering microprocessor
• Access log-in levels for multiple users
• Suitable for modern engines with DBW, Cam Control and multiple CAN buses
• Advanced logging features, high speed, multiple logs (with access logins)
• I/O expansion using E816, E888 expanders
• Flexible tuning software
• Programmable digital input system for Ref/Sync, wheel speeds etc.
• Programmable trigger levels, diagnostics
• All Low Side and Half Bridge outputs have PWM capability

MOTEC’S DISTINCTIVE RANGE OF M1 ECU SOLUTIONS

• Targeted Solutions – We’ve done the configuration work for you, tailoring the ECU firmware to a specific vehicle or engine. In some cases this includes integration with vehicle control systems beyond the engine, for example, stability control, cruise control. Complete Plug-In kits are available for some applications, including any additional hardware and wiring looms as required. See targeted solutions for Vehicle, Bike, PWC or Snowmobiles
• GP (General Purpose) Solutions – MoTeC’s GP Solutions offer the flexibility to suit numerous port and direct injected gasoline engines. Comprising of:
  – GPA (Advanced)
  – GPR (Race)
  – GPRP (Race with Paddle shift)
  – GPRDI (Race with Direct Injection)
  – GPRPDI (Race with Paddle Shift and Direct Injection)
  These variants that can be configured to suit a wide range of applications.
• Development Solutions – Those who are skilled at coding can now develop fully customised control strategies at the firmware level, creating unique ECU functionality for themselves or other customers. Developers can build custom controls into an existing package, or create a new project from scratch. In either instance, the resulting firmware can be loaded into a single Development ECU or rolled out for customers around the world to purchase.
• Ruggedised – Sometimes an extra level of protection for electronic components is required, such as marine applications or environments subject to dirt or dust. Our Ruggedised M1 hardware ensures maximum longevity under these extreme conditions.

 

M150 ECU

MoTeC’s M1 ECU range begins a new era in engine
control. The M1’s unique technology redefines the CONFIGURATION meaning of customisation, delivering total control
without compromise. Highly advanced security The M1 series ECUs come with three configuration options.
strategies make these ECUs ideal for both category
managed and unrestricted applications. Locked Configuration
A locked configuration is appropriate when an ECU contains
FEATURES specific firmware to suit the application. The user can tune the
engine in the normal way but the ECU cannot be re-configured for
? Small and light in robust magnesium enclosure another application.
? Port injection injector type Standard Configuration
? Large logging memory The standard configuration allows the user to load a selection of

? Latest generation high performance processor
? Suitable for modern engines with DBW, Cam Control and multiple CAN buses
firmware packages available from MoTeC. They incorporate different levels of functionality and the user can choose one to suit their requirements. Additional packages can be loaded into the ECU as and when requirements change.

? access logins)
? Advanced logging features, high speed, multiple logs (with Open Configuration

? I/O expansion using E816, E888 expanders
The open configuration provides a fully flexible ECU solution that can be precisely tailored to individual requirements. Third party

? Flexible tuning software developers can be trained to use MoTeC M1 Build software to

? Robust and comprehensive security features
? Programmable injector drive characteristics
? Programmable digital input system for Ref/Sync, wheel speeds etc.
? Programmable trigger levels, diagnostics
? All Low Side and Half Bridge outputs have PWM capability
develop their own control strategies.
Intellectual property is protected by the M1 ECU’s security system and remains with the ECU owner.

SECURITY SOFTWARE
The M1’s advanced security system is based on public-key • Microsoft Windows™ based software
cryptography, the cornerstone of secure internet transactions, so • PC Tuning software ‘Tune’ – Used to tune fuel and ignition, set it is virtually impossible to change the ECU function without up sensors, outputs and available functions
authorised permission.

Security is enforced by the ECU and protected by a microprocessor with integrated measures to prevent tampering.
? PC Software ‘Build’- Used to create a custom software package with user specific functions

A password feature grants different levels of access for different BASIC SPECIFICATIONS
users e.g. an engine tuner, a drive train tuner, and a data analysis
engineer. Injector
This is also suitable for Control ECUs. Scrutineering teams can • Peak and Hold Injector Outputs: 12 have access to extra information and are able to lock down

selected parts of the ECU, while other team members can access
? Low Side Injector Outputs: 6

selected tuning parameters. Ignition

CATEGORY MANAGEMENT
The combination of an advanced security strategy, configurable firmware and a high performance processor make the M1 ECU an
? Outputs: 12
Auxiliary Outputs
? Half Bridge: 10

ideal choice for categories with restrictions in place for either Inputs
performance parity or cost containment. Firmware can be written
specifically for the category, limiting the functionality to the class • Universal Digital: 12
requirements. • Digital: 4
Multiple data logging sets are available, which can be partitioned • Analogue Voltage: 17 with restricted access to allow generation of both judicial

(scrutineering) and team data from the same device. The M1
? Analogue Temperature: 6

ECU’s security system prevents unauthorised access to data and • Knock: 4 implementation of unspecified functionality.
? Lambda (narrow band): 2
UPGRADES Data

? Various Logging Options are available.
The logging licence determines the number of channels and
? CAN bus: 3
? RS232: 1

the sample rates available, there are 3 levels available: • LIN: 1
? Logging Level 1 Licence • Logging Memory: 250 Mb Comes standard with the product. This diagnostic logging

includes a fixed log set and rate.
? Logging Level 2 Licence
Physical
? Dimensions: 162 x 127.5 x 40.5 mm

Is an optional upgrade which includes one fixed log set, • Weight: 445 g 200 channels (including diagnostics) and a maximum 200 • Connectors:
Hz sample rate.

? Logging Level 3 Licence
Is an optional upgrade which includes eight fixed log sets, 2000 channels and a maximum 1000 Hz sample rate.
? Configuration:
? Locked Configuration
? Standard Configuration
? Open Configuration
? 2 x 34 pin plastic connectors
? 2 x 26 pin plastic connectors

DIMENSIONS AND MOUNTING

M150 Connector A – 34 Way
Mating Connector: Tyco Superseal 34 Position Keying 2 – MoTeC #65067

Pin Number Designation Full Name OE Pin Function Description
A01 AT5 Analogue Temperature Input 5 1k Pull up to SEN_5V_C
A02 AT6 Analogue Temperature Input 6 1k Pull up to SEN_5V_C
A03 AV15 Analogue Voltage Input 15
A04 AV16 Analogue Voltage Input 16
A05 AV17 Analogue Voltage Input 17
A06 IGN_LS9 Low Side Ignition 9
A07 IGN_LS10 Low Side Ignition 10
A08 IGN_LS11 Low Side Ignition 11
A09 IGN_LS12 Low Side Ignition 12
A10 SEN_5V0_C1 Sensor 5.0V C
A11 LA_NB1 Lambda Narrow Input 1
A12 LA_NB2 Lambda Narrow Input 2
A13 KNOCK3 Knock Input 3
A14 KNOCK4 Knock Input 4
A15 DIG2 Digital Input 2
A16 DIG3 Digital Input 3
A17 DIG4 Digital Input 4
A18 SEN_5V0_C2 Sensor 5.0V C
A19 SEN_5V0_B2 Sensor 5.0V B
A20 LIN LIN Bus
A21 RS232_RX RS232 Receive
A22 RS232_TX RS232 Transmit
A23 DIG1 Digital Input 1
A24 BAT_NEG3 Battery Negative
A25 BAT_NEG4 Battery Negative
A26 SEN_0V_C1 Sensor 0V C
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
A31 CAN2_LO CAN Bus 2 Low
A32 BAT_NEG5 Battery Negative
A33 SEN_0V_B1 Sensor 0V B
A34 SEN_0V_A1 Sensor 0V A

M150 Connector B – 26 Way
Mating Connector: Tyco Superseal 26 Position Keying 3 – MoTeC #65068

Pin Number Designation Full Name OE Pin Function Description
B01 OUT_HB9 Half Bridge Output 9
B02 OUT_HB10 Half Bridge Output 10
B03 UDIG8 Universal Digital Input 8
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
B09 INJ_LS3 Low Side Injector 3
B10 AV9 Analogue Voltage Input 9
B11 AV10 Analogue Voltage Input 10
B12 AV11 Analogue Voltage Input 11
B13 BAT_POS Battery Positive
B14 INJ_LS6 Low Side Injector 6
B15 INJ_LS4 Low Side Injector 4
B16 AV12 Analogue Voltage Input 12
B17 AV13 Analogue Voltage Input 13
B18 AV14 Analogue Voltage Input 14
B19 BAT_POS Battery Positive
B20 OUT_HB7 Half Bridge Output 7
B21 OUT_HB8 Half Bridge Output 8
B22 INJ_PH9 Peak Hold Injector 9
B23 INJ_PH10 Peak Hold Injector 10
B24 INJ_PH11 Peak Hold Injector 11
B25 INJ_PH12 Peak Hold Injector 12
B26 SEN_5V0_A Sensor 5.0V A

M150 Connector C – 34 Way
Mating Connector: Tyco Superseal 34 Position Keying 1 – MoTeC #65044

Pin Number Designation Full Name OE Pin Function Description
C01 OUT_HB2 Half Bridge Output 2
C02 SEN_5V0_A Sensor 5.0V A
C03 IGN_LS1 Low Side Ignition 1
C04 IGN_LS2 Low Side Ignition 2
C05 IGN_LS3 Low Side Ignition 3
C06 IGN_LS4 Low Side Ignition 4
C07 IGN_LS5 Low Side Ignition 5
C08 IGN_LS6 Low Side Ignition 6
C09 SEN_5V0_B Sensor 5.0V B
C10 BAT_NEG1 Battery Negative
C11 BAT_NEG2 Battery Negative
C12 IGN_LS7 Low Side Ignition 7
C13 IGN_LS8 Low Side Ignition 8
C14 AV1 Analogue Voltage Input 1
C15 AV2 Analogue Voltage Input 2
C16 AV3 Analogue Voltage Input 3
C17 AV4 Analogue Voltage Input 4
C18 OUT_HB1 Half Bridge Output 1
C19 INJ_PH1 Peak Hold Injector 1
C20 INJ_PH2 Peak Hold Injector 2
C21 INJ_PH3 Peak Hold Injector 3
C22 INJ_PH4 Peak Hold Injector 4
C23 INJ_LS1 Low Side Injector 1
C24 INJ_LS2 Low Side Injector 2
C25 AV5 Analogue Voltage Input 5
C26 BAT_POS Battery Positive
C27 INJ_PH5 Peak Hold Injector 5
C28 INJ_PH6 Peak Hold Injector 6
C29 INJ_PH7 Peak Hold Injector 7
C30 INJ_PH8 Peak Hold Injector 8
C31 OUT_HB3 Half Bridge Output 3
C32 OUT_HB4 Half Bridge Output 4
C33 OUT_HB5 Half Bridge Output 5
C34 OUT_HB6 Half Bridge Output 6

M150 Connector D — 26 way
Mating Connector: Tyco Superseal 26 Position Keying 1 – MoTeC #65045

Pin Number Designation Full Name OE Pin Function Description
D01 UDIG1 Universal Digital Input 1
D02 UDIG2 Universal Digital Input 2
D03 AT1 Analogue Temperature Input 1 1k Pull up to SEN_5V_A
D04 AT2 Analogue Temperature Input 2 1k Pull up to SEN_5V_A
D05 AT3 Analogue Temperature Input 3 1k Pull up to SEN_5V_B
D06 AT4 Analogue Temperature Input 4 1k Pull up to SEN_5V_B
D07 KNOCK1 Knock Input 1
D08 UDIG3 Universal Digital Input 3
D09 UDIG4 Universal Digital Input 4
D10 UDIG5 Universal Digital Input 5
D11 UDIG6 Universal Digital Input 6
D12 BAT_BAK Battery Backup
D13 KNOCK2 Knock Input 2
D14 UDIG7 Universal Digital Input 7
D15 SEN_0V_A Sensor 0V A
D16 SEN_0V_B Sensor 0V B
D17 CAN1_HI CAN Bus 1 High
D18 CAN1_LO CAN Bus 1 Low
D19 SEN_6V3 Sensor 6.3V
D20 AV6 Analogue Voltage Input 6
D21 AV7 Analogue Voltage Input 7
D22 AV8 Analogue Voltage Input 8
D23 ETH_TX+ Ethernet Transmit+ Ethernet Green/White
D24 ETH_TX- Ethernet Transmit- Ethernet Green
D25 ETH_RX+ Ethernet Receive+ Ethernet Orange/White