Upload
others
View
3
Download
0
Embed Size (px)
Citation preview
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
ECM196Production Engine Control ModuleP/N: ECM-1793-196-1503
• MATLAB/Simulink Programmable
• Processor• Infineon Tricore TC1793
• 200/260MHz
• Memory• 4MB Flash
• 96KB EEPROM
• 256 KB Internal RAM
• ASIL B Capable
• 50 Inputs• 39 Analog Inputs
• 8 Digital Inputs
• 10 Frequency Inputs
• 1 Emergency Stop
• 84 Outputs• 48 Low Side Drivers
• 3 H-Bridges
• 1 High Side Driver
• 1 Main Power Relay Driver
• 6-16 V Operating Voltage
• Communication• 3 CAN 2.0B
• 1 LIN
• Environmental• -40°C to +105°C Operating Temp
• Mechanical Shock 500m/s2, 6 ms,half-sine wave 10x/axis• CISPR25(2002-08), ISO 11452-2(2004-11), 11452-4 (2005-04), 10605(2001-12), 7637-2 (2004-06), 7637-3(2007-07)
• IP6k9k Compliant
• Required Compiler• Hitech Compiler v3.4.5.11
• Aluminum Construction
As one of the fastest modules in our lineup due to its InfineonTricore processor, the ECM196 is up to an eight-cylinder enginecontrol module with 3 CAN buses and 1 LIN bus, and a large,diverse variety of I/O. A safety ASIC is designed into the modulemaking it capable of safety critical applications.
The ECM196 is one of the Raptor™ rugged production controllersthat use a software development process based uponMATLAB/Simulink and Raptor-Dev which significantly speeds upalgorithm development by using automatic integration and codegeneration. In addition, developers can quickly test applicationsoftware using simulation and automated testing.
ECM-1793-196-1503_DataSheet 1 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
CONTROL SYSTEM SOLUTIONS
What is a Raptor Control Module?
Nearly all complex electr0-mechincal systems—especially those in automotive applications—such as internal combustion engines, hydraulic systems, or hybrid electric powertrains require complex control algorithms. Hand-coding such complicated control logic in traditional programming languages like C, C++, or Java can amount to hundreds of thousands of lines of code. Writing and debugging code in this manner can be time consuming, tedious, and labor intensive.
New Eagle’s line of Raptor-compatible controllers and complimentary Raptor-Dev software offer an alternative approach to the traditional programming languages: These controllers allow developers to leverage the graphical programming environment of MATLAB Simulink to quickly and easily create, edit, and debug application software. But what exactly is Raptor-Dev software and how does it allow developers to create software in Simulink for control modules?
Raptor-Dev is a library of customizable Simulink blocks that allows developers to quickly create custom software for Raptor-compatible controllers. Developers work directly in the Simulink environment with Raptor-Dev blocks as well as native Simulink blocks and features. The Raptor-Dev library blocks facilitate interaction between Simulink and all of the input, outputs,
and communication channels of the control module hardware. For example, the Raptor-Dev library includes blocks to read analog inputs or actuate low side drive outputs. The Raptor-Dev library also contains other useful block-sets for many applications, such as OBD fault management and data logging. Even J1939 or Modbus Raptor library blocks are available. Common to all of the Raptor library blocks is that they are easy and intuitive to use. The Raptor-dev libraries vastly reduce software complexity, speed-up development, and they eliminate the need to understand low-level logic necessary to manage controller hardware.
Once an application is ready for programming, code can be directly compiled from Simulink into an application file which can then be programmed onto the Raptor-compatible module though the windows-based Raptor-Cal software and a USB-to-CAN hardware interface. Raptor-Cal also allows users to calibrate application parameters in real-time.
ECM-1793-196-1503_DataSheet 2 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
HardwareMicroprocessor Infineon Tricore TC1793
Clock Speed 200/260MHzEnvironmental IP6k9k Compliant
Operating Temp -40°C to +105°C
Memory SegmentsMemory Segment Size
FLASH CB 63 KBFLASH APP0 1919 KBFLASH APP1 1535 KBFLASH DATA 495 KB
FIXEDEE 2160 BEEPROM 69 KB
INTERNAL RAM1 128 KBINTERNAL RAM2 128 KB
Communication ChannelsChannel Functions Options
LIN1 LIN 1200240048009600
1040019200
CAN1 CAN 125k250k500k
1000kCAN2 CAN 125k
250k500k
1000kCAN3 CAN 125k
250k500k
1000kNote: CAN 1: 250k Baud Default. CAN 2: 250k Baud Default (internal 120 ohm termination). CAN 3: 250k Baud Default.
ECM-1793-196-1503_DataSheet 3 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
InputsResource Functions Voltage Ranges Pull-Downs/Ups Note
WAKE_INPUT1 digital_in 0 - 5 V 2.9k PD Key Switch, Pin K050
INPUT2 analog_in 0 - 5 V 2.15k PU Pin A016, Pullup to 5V
INPUT3 analog_in 0 - 5 V 2.15k PU Pin A017, Pullup to 5V
INPUT4 analog_in 0 - 5 V 422k PD Pin A018INPUT5 analog_in 0 - 5 V 681k PU Pin A019, Pullup to BATT
INPUT6 analog_in 0 - 5 V 681k PU Pin A037, Pullup to BATT
INPUT7 analog_in 0 - 5 V 681k PU Pin A038, Pullup to BATT
INPUT8 analog_in 0 - 5 V 4.64k PU Pin A040, Pullup to 5V
INPUT9 analog_in 0 - 5 V 681k PU Pin A041, Pullup to BATT
INPUT10 analog_in 0 - 5 V 681k PU Pin A042, Pullup to BATT
INPUT11 analog_in 0 - 5 V 681k PU Pin A055, Pullup to BATT
INPUT12 analog_in 0 - 5 V 422k PD Pin A059INPUT13 analog_in 0 - 5 V 2.15k PU, 31.6k PD Pin A062, Pullup to 5V
INPUT14 analog_in 0 - 5 V 681k PU Pin A082, Pullup to BATT
INPUT15 analog_in 0 - 5 V 2.15k PU, 31.6k PD Pin A084, Pullup to 5V
INPUT16 analog_in 0 - 5 V 4.64k PU Pin A097, Pullup to 5V
INPUT17 analog_in 0 - 5 V 422k PD Pin A102INPUT18 analog_in 0 - 5 V 422k PD Pin A103INPUT19 analog_in 0 - 5 V 2.15k PU Pin A105, Pullup to 5V
INPUT20 analog_in 0 - 5 V 681k PU Pin K011, Pullup to BATT
INPUT21 analog_in 0 - 5 V 2.15k PU Pin K013, Pullup to 5V
INPUT22 analog_in 0 - 5 V 2.15k PU Pin K030, Pullup to 5V
ECM-1793-196-1503_DataSheet 4 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Inputs (continued)Resource Functions Voltage Ranges Pull-Downs/Ups Note
INPUT23 analog_in 0 - 5 V 56.7k PD Pin K034INPUT24 analog_in 0 - 5 V 56.7k PD Pin K035INPUT25 analog_in 0 - 5 V 2.15k PU Pin K042, Pullup to 5V
INPUT26 analog_in 0 - 5 V 681k PU Pin K045, Pullup to BATT
INPUT27 analog_in 0 - 5 V 2.15k PU Pin K051, Pullup to 5V
INPUT28 analog_in 0 - 5 V 2.15k PU Pin K058, Pullup to 5V
INPUT29 analog_in 0 - 5 V 215k PD Pin K065INPUT30 analog_in 0 - 5 V 215k PD Pin K082INPUT31 analog_in 0 - 5 V None Pin K041INPUT32 analog_in 0 - 5 V None Pin K075INPUT33 digital_in 1.3k PD Pin A057INPUT34 digital_in 1.3k PD Pin K047INPUT35 digital_in 1.3k PD Pin K049INPUT36 digital_in 2.6k PU Pin K014, Pullup to 5V
INPUT37 digital_in 1.3k PU Pin K016, Pullup to BATT
INPUT38 digital_in 1.18k PU Pin K017, Pullup to 5V
INPUT39 digital_in 1.3k PU Pin K028, Pullup to BATT
INPUT40 digital_in 1.3k PU Pin K033, Pullup to BATT
INPUT41 freq_in 2.6k PU Pin A035, Max Frequency300 Hz, Pullup to BATT
INPUT42 freq_in 1.47k PU Pin K018, Max Frequency33 kHz, Pullup to 5V
INPUT43 freq_in 1.3k PD Pin K029, Max Frequency300 Hz
INPUT44 freq_in 2.6k PU Pin K048, Max Frequency15 kHz, Pullup to 5V
ECM-1793-196-1503_DataSheet 5 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Inputs (continued)Resource Functions Voltage Ranges Pull-Downs/Ups Note
INPUT45 freq_in 1.47k PU Pin K052, Max Frequency33 kHz, Pullup to 5V
ADC_MONITOR input_status Indicates the results ofLevel 3 ADC Monitoring
Irreversible errors are setIrreversible errors duringthe null load test pulse
Status Check activeIrreversible errors during
the test voltage checkDeactivation of the
no-load test (APP2 is nolonger grounded)
Null load test pulseactivated (APP2 is
grounded)
WDA_MONITOR input_status Indicates the results ofWatchdog Line Activation
ABE and WDA lines notactive
ABE line is active due toovervoltage detection
ABE or WDA line is activeWDA line is active due tofaulty inquiry/response
communicationABE line is active due toundervoltage detection
ECM-1793-196-1503_DataSheet 6 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Inputs (continued)Resource Functions Voltage Ranges Pull-Downs/Ups Note
INPUT46 cam_ininput_status
3.16k PU Pin A013 (Camshaft -Intake 1)
General ErrorMounting ErrorShort to GroundShort to Battery
INPUT47 cam_ininput_status
3.16k PU Pin A034 (Camshaft -Intake 2)
General ErrorMounting ErrorShort to GroundShort to Battery
INPUT48 cam_ininput_status
3.16k PU Pin A053 (Camshaft -Exhaust 2)
General ErrorMounting ErrorShort to GroundShort to Battery
INPUT49 cam_ininput_status
3.16k PU Pin A074 (Camshaft -Exhaust 1)
General ErrorMounting ErrorShort to GroundShort to Battery
INPUT50 crank_ininput_status
1.07k PU Pin A095General Error
No Signal ErrorINPUT51 knock_in
input_statusPin A079, Knock 1A
Short to GroundShort to Battery
INPUT52 knock_ininput_status
Pin A100, Knock 1BShort to GroundShort to Battery
INPUT53 knock_ininput_status
Pin A101, Knock 2AShort to GroundShort to Battery
ECM-1793-196-1503_DataSheet 7 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Inputs (continued)Resource Functions Voltage Ranges Pull-Downs/Ups Note
INPUT54 knock_ininput_status
Pin A080, Knock 2BShort to GroundShort to Battery
INPUT55 knock_ininput_status
Pin A099, Knock 3AShort to GroundShort to Battery
INPUT56 knock_ininput_status
Pin A078, Knock 3BShort to GroundShort to Battery
INPUT57 knock_ininput_status
Pin A098, Knock 4AShort to GroundShort to Battery
INPUT58 knock_ininput_status
Pin A077, Knock 4BShort to GroundShort to Battery
INPUT59 wideband_o2_ininput_status
UEGO1 (Pin K010 [RE], PinK007 [APE], Pin K008 [IPN])
General ErrorGeneral ASIC ErrorGeneral SPI ErrorAPE Open CircuitIPE Open Circuit
MES Open CircuitRE Open CircuitShort to GroundShort to Battery
ECM-1793-196-1503_DataSheet 8 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Inputs (continued)Resource Functions Voltage Ranges Pull-Downs/Ups Note
INPUT60 wideband_o2_ininput_status
UEGO2 (Pin K026 [RE], PinK027 [APE], Pin K025 [IPN])
General ErrorGeneral ASIC ErrorGeneral SPI ErrorAPE Open CircuitIPE Open Circuit
MES Open CircuitRE Open CircuitShort to GroundShort to Battery
Note: All analog inputs are 12 bit.
OutputsResource Functions Driver Types Note
OUTPUT1 digital_outpwm_out
output_status
Low Side Pin A010, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT2 digital_outpwm_out
output_status
Low Side Pin A023, 3A(6A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
ECM-1793-196-1503_DataSheet 9 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Outputs (continued)Resource Functions Driver Types Note
OUTPUT3 digital_outpwm_out
output_status
Low Side Pin A024, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT4 digital_outpwm_out
output_status
Low Side Pin A046, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT5 digital_outpwm_out
output_status
Low Side Pin A054, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT6 digital_outpwm_out
output_status
Low Side Pin A093, 3A(6A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT7 digital_outpwm_out
output_status
Low Side Pin K084, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
ECM-1793-196-1503_DataSheet 10 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Outputs (continued)Resource Functions Driver Types Note
OUTPUT8 digital_outpwm_out
output_status
Low Side Pin K088, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT9 digital_outpwm_out
output_status
Low Side Pin A003, 4A(10A) Max,(O2Heater - WB Sensor 2) Fixed
Frequency @ 100 HzOpen LoadOver Load
Short to Battery OR OvertempOver Temp
Short to GroundShort to Battery
OUTPUT10 digital_outpwm_out
output_status
Low Side Pin A045, 3A(6A) Max (O2 Heater)Open LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT11 digital_outpwm_out
output_status
Low Side Pin K057, 3A(6A) Max (O2 Heater)Open LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
ECM-1793-196-1503_DataSheet 11 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Outputs (continued)Resource Functions Driver Types NoteOUTPUT12 digital_out
pwm_outoutput_status
Low Side Pin A022, 4A(10A) Max, (O2Heater - WB Sensor 1) Fixed
Frequency @ 100 HzOpen LoadOver Load
Short to Battery OR OvertempOver Temp
Short to GroundShort to Battery
OUTPUT13 injector_outoutput_status
Low Side Pin K022, 4A(10A) MaxOpen Load
Short to GroundShort to Battery
OUTPUT14 injector_outoutput_status
Low Side Pin K090, 3A(6A) MaxOpen Load
Short to GroundShort to Battery
OUTPUT15 injector_outoutput_status
Low Side Pin K023, 4A(10A) MaxOpen Load
Short to GroundShort to Battery
OUTPUT16 injector_outoutput_status
Low Side Pin K074, 3A(6A) MaxOpen Load
Short to GroundShort to Battery
OUTPUT17 injector_outoutput_status
Low Side Pin K040, 2.2A(4A) MaxOpen Load
Short to GroundShort to Battery
OUTPUT18 injector_outoutput_status
Low Side Pin K091, 4A(10A) MaxOpen Load
Short to GroundShort to Battery
OUTPUT19 injector_outoutput_status
Low Side Pin A030, 2.2A(4A) MaxOpen Load
Short to GroundShort to Battery
ECM-1793-196-1503_DataSheet 12 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Outputs (continued)Resource Functions Driver Types NoteOUTPUT20 injector_out
output_statusLow Side Pin A032, 2.2A(4A) Max
Open LoadShort to GroundShort to Battery
OUTPUT21 digital_outoutput_status
Low Side Pin A004, 3A(8A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT22 digital_outoutput_status
Low Side Pin A031, 2.2A MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT23 digital_outoutput_status
Low Side Pin K037, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT24 digital_outoutput_status
Low Side Pin K073, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
ECM-1793-196-1503_DataSheet 13 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Outputs (continued)Resource Functions Driver Types NoteOUTPUT25 digital_out
output_statusLow Side Pin A001, 2.2A(4A) Max
Open LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT26 digital_outoutput_status
Low Side Pin A002, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT27 digital_outoutput_status
Low Side Pin A009, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT28 digital_outoutput_status
Low Side Pin A011, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT29 digital_outoutput_status
Low Side Pin A025, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
ECM-1793-196-1503_DataSheet 14 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Outputs (continued)Resource Functions Driver Types NoteOUTPUT30 digital_out
output_statusLow Side Pin A033, 2.2A(4A) Max
Open LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT31 digital_outoutput_status
Low Side Pin A075, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT32 digital_outoutput_status
Low Side Pin A094, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT33 digital_outoutput_status
Low Side Pin K012, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT34 digital_outoutput_status
Low Side Pin K019, 0.6A(1.4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
ECM-1793-196-1503_DataSheet 15 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Outputs (continued)Resource Functions Driver Types NoteOUTPUT35 digital_out
output_statusLow Side Pin K020, 2.2A(4A) Max
Open LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT36 digital_outoutput_status
Low Side Pin K021, 0.5A MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT37 digital_outoutput_status
Low Side Pin K036, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT38 digital_outoutput_status
Low Side Pin K038, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT39 digital_outoutput_status
Low Side Pin K039, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
ECM-1793-196-1503_DataSheet 16 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Outputs (continued)Resource Functions Driver Types NoteOUTPUT40 digital_out
output_statusLow Side Pin K054, 0.6A(1.4A) Max
Open LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT41 digital_outoutput_status
Low Side Pin K055, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT42 digital_outoutput_status
Low Side Pin K056, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT43 digital_outoutput_status
Low Side Pin K059, 0.6A(1.4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT44 digital_outoutput_status
Low Side Pin K069, 0.6A(1.4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
ECM-1793-196-1503_DataSheet 17 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Outputs (continued)Resource Functions Driver Types NoteOUTPUT45 digital_out
output_statusLow Side Pin K070, 0.6A(1.4A) Max
Open LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT46 digital_outoutput_status
Low Side Pin K071, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT47 digital_outoutput_status
Low Side Pin K072, 2.2A(4A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT48 digital_outoutput_status
High Side Pin K089, 0.4A(2A) MaxOpen LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
ECM-1793-196-1503_DataSheet 18 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Outputs (continued)Resource Functions Driver Types NoteOUTPUT49 digital_out
output_statusHigh Side Pin K053, 0.4A(2A) Max, Activated
only w/ INPUT38 (K017) to GND.Open LoadOver Load
Short to Battery OR OvertempOvertemp
Short to GroundShort to Battery
OUTPUT50_51 hbridge_outoutput_status
H-Bridge Pin A066 and A067, 2.5A(6.7A)Max, 300-25kHz
Open LoadShort to Ground (Neg)Short to Battery (Neg)Short to Ground (Pos)Short to Battery (Pos)
OUTPUT52_53 hbridge_outoutput_status
H-Bridge Pin A064 and A065, 2.5A(6.7A)Max, 300-25kHz
Open LoadShort to Ground (Neg)Short to Battery (Neg)Short to Ground (Pos)Short to Battery (Pos)
OUTPUT54_55 hbridge_outoutput_status
H-Bridge Pin A043 and A044, 2.5A(6.7A)Max
Open LoadShort to Ground (Neg)Short to Battery (Neg)Short to Ground (Pos)Short to Battery (Pos)
OUTPUT56 spark_outoutput_status
EST Pin A051, EST1 (TTL)Open Load
Short to GroundShort to Battery
OUTPUT57 spark_outoutput_status
EST Pin A072, EST2 (TTL)Open Load
Short to GroundShort to Battery
ECM-1793-196-1503_DataSheet 19 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Outputs (continued)Resource Functions Driver Types NoteOUTPUT58 spark_out
output_statusEST Pin A052, EST3 (TTL)
Open LoadShort to GroundShort to Battery
OUTPUT59 spark_outoutput_status
EST Pin A073, EST4 (TTL)Open Load
Short to GroundShort to Battery
OUTPUT60 spark_outoutput_status
EST Pin A049, EST5 (TTL)Open Load
Short to GroundShort to Battery
OUTPUT61 spark_outoutput_status
EST Pin A070, EST6 (TTL)Open Load
Short to GroundShort to Battery
OUTPUT62 spark_outoutput_status
EST Pin A050, EST7 (TTL)Open Load
Short to GroundShort to Battery
OUTPUT63 spark_outoutput_status
EST Pin A071, EST8 (TTL)Open Load
Short to GroundShort to Battery
OUTPUT80 rpm_out Low Side Pin A014, 30mA(200mA) Max
MPRD output_status Low Side Pin K087, 0.35A(1.4A) MaxOpen Load
Short to GroundShort to Battery
VSENS_SUPPLY1 output_status +V sensor supply pins - A015,A058, K067, K085
General ErrorOvervoltage
UndervoltageOvertemp
Short to Ground
ECM-1793-196-1503_DataSheet 20 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Outputs (continued)Resource Functions Driver Types Note
VSENS_SUPPLY2 output_status +V sensor supply pins - A020,A021, K066
General ErrorOvervoltage
UndervoltageOvertemp
Short to GroundVSENS_SUPPLY3 output_status +V sensor supply pins - A083,
A104, K083General ErrorOvervoltage
UndervoltageOvertemp
Short to Ground
Internal MeasurementsName Units Note
IGNITION_COUNT Count Ignition countIGNITION_FADEOUTMASK Count Indicates fade out mask of ignition. 255 mean
no ignition.INJECTION_COUNT Count Injection count
ENGINE_SPEED RPM Engine Speed crank synchronousENGINE_SPEED_10ms RPM Engine Speed calculated every 10ms
ENGINE_SPEED_GRADIENT RPM Engine Speed gradient over crankshaftsegment
ENGINE_SPEED_GRADIENT_CYCLE RPM Engine Speed gradient calculated over oneworking cycle
ENCODER_CYLINDER_COUNT Count Software cylinder counterENCODER_STATUS Enum Indicates the status of the Engine Position
Monitoring driver.ENCODER_SYNC_STATE Enum Indicates the sync state of the Engine Position
Monitoring driver.ENCODER_CRANK_ANGLE Deg Current Crank AngleENCODER_CRANK_ERROR bool Indicates if there is a crank sensor error
present (limp home mode).BATTERY_VOLTAGE V Voltage measured at MPR ECU supply pins –
K003,K005,K006
ECM-1793-196-1503_DataSheet 21 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Internal Measurements (continued)Name Units Note
VSENS_SUPPLY V Reference voltage (+V sensor supply pins) -A015, A058, K067, K085, A020, A021, K066,
A083, A104, K083LAST_RESET Enum Value indicating the cause of the last reset,
can be due to normal reasons (Power Off,Programming, etc)
RESET_CNT Enum Value indicating the number of resets sincelast power cycle.
ECM-1793-196-1503_DataSheet 22 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Block Diagram
ECM196Input 2 Analog 2.15k P U
Input 3 Analog 2.15k P U
Input 4 Analog 422k PD (TPSa1)
Input 5 Analog 681k PU
Input 6 Analog 681k PU
Input 7 Analog 681k PU
Input 8 Analog 4.64k P U
Input 9 Analog 681k PU
Input 10 Analog 681k PU
Input 11 Analog 681k PU
Input 12 Analog 422k PD (TPSb2)
Input 13 Analog 2.15k PU 3 1.6k PD
Input 14 Analog 681k PU
Input 15 Analog 2.15k PU 3 1.6k PD
Input 16 Analog 4.64k PU
Input 17 Analog 422k PD
Input 18 Analog 422k PD
Input 19 Analog 2.15k PU
Input 20 Analog 681k PU
Input 21 Analog 2.15k PU
Input 22 Analog 2.15k PU
Input 23 Analog 56.7k PD
Input 24 Analog 56.7k PD
Input 25 Analog 2.15k PU
Input 26 Analog 681k PU
Input 27 Analog 2.15k PU
Input 28 Analog 2.15k PU
Input 29 Analog 215k PD (APP 2)
Input 30 Analog 215k PD (APP 1)
Input 31 Analog
Input 32 Analog
Input 33 Digital 1.3k PD
Input 34 Digital 1.3k PD
Input 35 Digital 1.3k PD
Input 36 Digital 2.6 k PU
Input 37 Digital 1.3 k PU
Input 38 Digital 1.1 8k PU
Input 39 Digital 1.3 k PU
Input 40 Digital 1.3 k PU
Input 41 Freq 2.6k PU
Input 42 Freq 1.47k P U
Input 43 Freq 1.3k PD
Input 44 Freq 2.6k PU
Input 45 Freq 1.47k P U
Input 46 CAM 3.16k P U
Input 47 CAM 3.16k P U
Input 48 CAM 3.16k P U
Input 49 CAM 3.16k P U
Input 50 Crank
Input 51 Knock
Input 52 Knock
Input 53 Knock
Input 54 Knock
Input 55 Knock
Input 56 Knock
Input 57 Knock
Input 58 Knock
Sensor Supply 5V TPS1a
Sensor Supply 5V
Sensor Supply 5V
Sensor Supply 5V
Sensor Supply 5V
Sensor Supply 5V
Sensor Supply 5V APP2
Sensor Supply 5V TPS1b
Sensor Supply 5V
Sensor Supply 5V APP1
Sensor Return
Sensor Return TPSa2
Sensor Return
Sensor Return O2 Sensor Return
Sensor Return O2 Sensor Return
Sensor Return TPSa1
Sensor Return
Sensor Return
Sensor Return
Sensor Return
Sensor Return APP 2
Sensor Return
Sensor Return APP 1
Sensor Ground
Sensor Ground
Sensor Ground
Sensor Ground
Sensor Ground
Sensor Ground
Wake Input 1
MPRD
VBATT_SW1+
VBATT_SW2+
VBATT_SW3+
Ground 1
Ground 2
Ground 3
Output 1 Low Side 2.2/4.0 A
Output 2 Low Side 3.0/6.0 A
Output 3 Low Side 2.2/4.0 A
Output 4 Low Side 2.2/4.0 A
Output 5 Low Side 2.2/4.0 A
Output 6 Low Side 3.0/6.0 A
Output 7 Low Side 2.2/4.0 A
Output 8 Low Side 2.2/4.0 A
Output 9 Low Side 4.0/10 A
Output 10 Low Side 3.0/6.0 A
Output 11 Low Side 3.0/6.0 A
Output 12 Low Side 4.0/10 A
Output 13 (INJ1) Low Side 4.0/10 A
Output 14 (INJ2) Low Side 3.0/6.0 A
Output 15 (INJ3) Low Side 4.0/10 A
Output 16 (INJ4) Low Side 3.0/6.0 A
Output 17 (INJ5) Low Side 2.2/4.0 A
Output 18 (INJ6) Low Side 4.0/10 A
Output 19 (INJ7) Low Side 2.2/4.0 A
Output 20 (INJ8) Low Side 2.2/4.0 A
Output 21 Low Side 3.0/8 .0 A
Output 22 Low Side 2.2/4 .0 A
Output 23 Low Side 2.2/4 .0 A
Output 24 Low Side 2.2/4 .0 A
Output 25 Low Side 2.2/4.0 A
Output 26 Low Side 2.2/4.0 A
Output 27 Low Side 2.2/4.0 A
Output 28 Low Side 2.2/4.0 A
Output 29 Low Side 2.2/4.0 A
Output 30 Low Side 2.2/4.0 A
Output 31 Low Side 2.2/4.0 A
Output 32 Low Side 2.2/4.0 A
Output 33 Low Side 2.2/4.0 A
Output 34 Low Side 0.6/1.4 A
Output 35 Low Side 2.2/4.0 A
Output 36 Low Side 0.5 A
Output 37 Low Side 2.2/4.0 A
Output 38 Low Side 2.2/4.0 A
Output 39 Low Side 2.2/4.0 A
Output 40 Low Side 0.6/1.4 A
Output 41 Low Side 2.2/4.0 A
Output 42 Low Side 2.2/4.0 A
Output 43 Low Side 0.6/1.4 A
Output 44 Low Side 0.6/1.4 A
Output 45 Low Side 0.6/1.4 A
Output 46 Low Side 2.2/4.0 A
Output 47 Low Side 2.2/4.0 A
Output 48 High Side 0.4/2.0 A
Output 49 High Side 0.4/2.0 A
Output 50 H-Bridge 2.5/ 6.7 A
Output 51 H-Bridge 2.5/ 6.7 A
Output 52 H-Bridge 2.5/ 6.7 A
Output 53 H-Bridge 2.5/ 6.7 A
Output 54 H-Bridge 2.5/ 6.7 A
Output 55 H-Bridge 2.5/ 6.7 A
Output 56 (EST1) Ign ition Coil
Output 57 (EST2) Ign ition Coil
Output 58 (EST3) Ign ition Coil
Output 59 (EST4) Ign ition Coil
Output 60 (EST5) Ign ition Coil
Output 61 (EST6) Ign ition Coil
Output 62 (EST7) Ignition Coil
Output 63 (EST8) Ign ition Coil
Output 80 (TACH) Low Side .03/.3 A
CAN1A_HI
CAN1A_LO
CAN1B_HI
CAN1B_LO
CAN2_HI
CAN2_LO
CAN3_HI
CAN3_LO
LIN
O2 Sensor Current Pump 1
O2 Sensor Current Pump 2
O2 Sensor Virtual G round 1
O2 Sensor Virtual G round 2
O2 Sensor Voltage Nernst 1
O2 Sensor Voltage Nernst 2
Module Power K005
K001
K006
K004
K002
A010
A024
A023
A054
A046
K084
A093
A003
K088
K057
A045
K022
A022
K023
K090
K040
K074
A030
K091
A004
A032
K037
A031
K073
A002
A001
A011
A009
A033
A025
A094
A075
K019
K012
K021
K020
K038
K036
K054
K039
K056
K055
K069
K059
K071
K070
K072
K089
K053
A067A066
A064
A043
A065
A044
A051
A072
A052
K087
K003
A073
A070
A049
K050
A050
A071
A014
A019
A016
A038
A037
A041A040
A055
A042
A062
A059
A084
A082
A102
A097
A105
A103
K013
K011
K034
K030
K042
K035
K051
K045
K065
K058
K041
K082
K075
A057
K049
K047
K016
K014
K028
K017
K033
A017
A018
K018A035
K048
K029
K052
A034A013
A074
A053
A100A079
A080
A101
A078
A099
A077
A098
A095
A058A015
K085
K067
A020
K066
A021
A083
K083
A104
A060
K031
A039
K043
A012
K076
A063
A061
A081
K044
A056
K064
K081
K046
K015
A076
A096
K032
A036
K062
K079
K063
K080
K060
K061
K078
K077
Output X Low Side Continuous/Inrush A
K007
K027K008
K025
K010
K026
K068
ECM-1793-196-1503_DataSheet 23 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Programming Note: The ECU must be power cycled after programming to enable CAN 2 and CAN 3.
Note: CAN 1A and CAN 1B are internally connected; either can be used as the CAN 1 connection.
Note: INPUT36 (K014) must NOT be grounded during programming. The module has a boot control which can be
configured to make the ECU a master or a slave in a multi-ECU environment. After configuration, it double
checks with the input at pin K014. If nothing comes on the pin, it treats itself as master. If it is grounded, the
boot control treats it as slave. To flash a slave, the protocol used was KWP2000--which is not supported by our
Raptor tools.
Power Note: The ECU must be connected to Switched Battery Power (typically via a main power relay), Key Switch, and
Power Ground in order to establish communication. The CAN transceiver is powered off of Switched Battery
power, as are the outputs.
Note: The main power relay is not controllable from the application. It is low side and sinks 350 mA.
Note: The ECU is not protected against a load-dump-pulse on the battery lines. The customer has to guarantee
that in case of load dump pulses the voltages at the battery lines will be limited to ≤ 36 V (installation of
protective measures, e.g. compact generator with central load dump diode).
Note: The ECU is protected against reverse polarity supply voltage of U = 13.5 V for 5 min, if UBR (K03, K05, K06)
is connected to battery voltage via main relay and the load contact of the main relay is open. This requirement
ensures immunity to misconnected batteries when reverse voltage occurs on all supply lines simultaneously. No
additional error of any connector is allowed (e.g. shortcut at the main relay).
Switched Battery Power (Pin Name: VBATT_SW1+, VBATT_SW2+, VBATT_SW3+) Switched Battery Power is used for powering internal components, such as the microprocessor, logic circuitry,
CAN, RAM, etc.
Min Nom Max Units
Input Voltage: Normal Operation 6 16 V
Overvoltage Protection 38.5 V
Reverse Battery Protection 13.5 V
Current Draw: Off-State Current 8.42 mA
Key Switch (Pin Name: WAKE_INPUT1) To power up the module, the microprocessor must detect a voltage (on the WAKE_INPUT1 pin) greater than the
Power-on voltage threshold. Likewise, the module will power down once this voltage falls below the Power-
down voltage threshold.
Min Nom Max Units
High Switch Input 4.13 V
Low Switch Input 3.61 V
The Raptor-Dev application software template, which can be generated used the
raptor_create_project('ProjectName') command in the MATLAB Command Window, contains default shutdown
logic that stores non-volatile memory after the key switch signal goes low, but before the module actually
powers itself down. Note that this default shutdown logic can be modified to include the execution of any
additional shutdown routines once key switch goes low.
ECM-1793-196-1503_DataSheet 24 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Typical Circuit Schematic
Wake Input 1 K050
VBATT_SW1+
VBATT_SW2+
VBATT_SW3+
MPRD
Ground 1
Ground 2
Ground 3
K087
K003
K005
K006
K001
K002
K004
ECM
Battery
-+
Key Switch
MPR
Source for
loads driven by
lowside driver
Sensor Power (Pin Name: SENSOR_SUPPLY+) Min Nom Max Units
Output Voltage 4.9 5 5.1 V
Total output current among Sensor Supply1 pins
(A015, A058, K067, K085)
150 mA
Total output current among Sensor Supply2 pins
(A020, A021, K066)
150 mA
Total output current among Sensor Supply2 pins
(A083, A104, K083)
150 mA
Sensor Return Sensor Returns are low current ground paths intended to be used for grounding analog sensors. Using
designated Sensor Returns reduce noise and improve accuracy on the analog measurements.
Sensor Ground Sensor Grounds (digital grounds) are low current ground paths intended to be used for grounding digital sensors
that are connected to digital inputs or frequency inputs.
ECM-1793-196-1503_DataSheet 25 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Analog Inputs All analog inputs have the following properties:
Min Nom Max Units
Input voltage range 0 5 V
Resolution 12 bits
Overvoltage Vbatt V
C_EMI 3.76 5.64 nF
Analog Input Type I (INPUTS 4, 12, 17, 18, 23, 24, 29, 30)
Min Nom Max Units
Cutoff frequency, Input 4, 12, 17, 18, 30
166.41
Hz
Cutoff frequency, Input 23, 24
166.41
Hz
Cutoff frequency, Input 29
166.41
Hz
INPUTS 4, 12, 17, 18
Characteristics Conditions Rem. Minimum Maximum Unit
PD1 417 426 kOhm
RS 0.99 10.1 kOhm
V_OC 0 0.0517*Vs V
V_In 0 V Vs
Vs 4.9 5.1 V
Tau_In 0.788 1.218 ms
F_ADC_lin_U0 V_In = 0V -18.9 20 mV
F_ADC_lin_Ux V_In = V_In.max -20 23.2 mV
F_ADC_qu_U0 V_In = 0V -11.9 12.2 mV
F_ADC_qu_Ux V_In = V_In.max -12.2 12.6 mV
I_In_Leakage -650 650 nA
ECM-1793-196-1503_DataSheet 26 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
INPUTS 23, 24
Characteristics Conditions Rem. Minimum Maximum Unit
PD1 55.63 57.76 kOhm
RS 14.55 14.84 kOhm
V_OC 0 0.00688*Vs V
V_In 0 V Vs
Vs 4.9 5.1 V
Tau_In 544 842 µs
F_ADC_lin_U0 V_In = 0V -21.7 23.8 mV
F_ADC_lin_Ux V_In = V_In.max -24.2 26 mV
F_ADC_qu_U0 V_In = 0V -13.6 14.1 mV
F_ADC_qu_Ux V_In = V_In.max -14.4 14.2 mV
I_In_Leakage -674 650 nA
INPUTS 29, 30
Characteristics Conditions Rem. Minimum Maximum Unit
PD1 212 217 kOhm
RS 45.93 46.86 kOhm
V_OC 0 0.0263*Vs V
V_In 0 V Vs
Vs 4.9 5.1 V
Tau_In 0.804 1.243 ms
F_ADC_lin_U0 V_In = 0V -41 46.2 mV
F_ADC_lin_Ux V_In = V_In.max -46.2 45.3 mV
F_ADC_qu_U0 V_In = 0V -30 32.4 mV
F_ADC_qu_Ux V_In = V_In.max -32.4 30.4 mV
I_In_Leakage -650 650 nA
Analog Input Type II (Inputs 2, 3, 8, 16, 19, 21, 22, 25, 27, 28)
Min Nom Max Units
Cutoff frequency
240.91
Hz
ECM-1793-196-1503_DataSheet 27 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
INPUTS Type II
Characteristics Conditions Rem. Minimum Maximum Unit
PU 2.12 2.17 kOhm
RS 14.55 14.87 kOhm
V_OC 1*Vs 1*Vs V
V_In 0 V Vs
Vs 4.9 5.1 V
Tau_In 544 842 µs
F_ADC_lin_U0 V_In = 0V -21.7 23.8 mV
F_ADC_lin_Ux V_In = V_In.max -24.2 26 mV
F_ADC_qu_U0 V_In = 0V -13.6 14.1 mV
F_ADC_qu_Ux V_In = V_In.max -14.4 14.2 mV
I_In_Leakage -674 650 nA
INPUTS Type 8, 16,
Characteristics Conditions Rem. Minimum Maximum Unit
PU 2.12 2.17 kOhm
RS 14.55 14.87 kOhm
V_OC 0.999*Vs 1*Vs V
V_In 0 V Vs
Vs 4.9 5.1 V
Tau_In 544 842 µs
F_ADC_lin_U0 V_In = 0V -21.7 23.8 mV
F_ADC_lin_Ux V_In = V_In.max -24.2 26 mV
F_ADC_qu_U0 V_In = 0V -13.6 14.1 mV
F_ADC_qu_Ux V_In = V_In.max -14.4 14.2 mV
I_In_Leakage -674 650 nA
INPUTS Type 21, 22
Characteristics Conditions Rem. Minimum Maximum Unit
PU 2.12 2.17 kOhm
RS 14.55 14.87 kOhm
V_OC 1 *Vs 1*Vs V
V_In 0 V Vs
Vs 4.9 5.1 V
Tau_In 544 842 µs
ECM-1793-196-1503_DataSheet 28 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Analog Input Type III (Inputs 13, 15)
Min Nom Max Units
Cutoff frequency
240.91
Hz
INPUTS
Characteristics Conditions Rem. Minimum Maximum Unit
RS
14.55 14.84 kOhm
V_In
0V V_OC
Vs
4.9 5.1 V
Tau_In
544 842 µs
F_ADC_lin_U0 V_In = 0V
-21.7 23.8 mV
F_ADC_lin_Ux V_In = V_In.max
-24.2 26 mV
F_ADC_qu_U0 V_In = 0V
-13.6 14.1 mV
F_ADC_qu_Ux V_In = V_In.max
-14.4 14.2 mV
I_In_Leakage
-674 650 nA
INPUT 13
Characteristics Conditions Rem. Minimum Maximum Unit
PU1
2.12 2.17 kOhm
V_OC
1*Vs 1*Vs V
INPUT 15
Characteristics Conditions Rem. Minimum Maximum Unit
PU1
2.12 2.15 kOhm
PD1
31.28 31.91 kOhm
V_OC
0.934*Vs 0.938*Vs V
ECM-1793-196-1503_DataSheet 29 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Analog Input Type IV (Inputs 5, 6, 7, 9, 10, 11, 14, 20, 26)
Min Nom Max Units
Cutoff frequency
240.91
Hz
Characteristics Conditions Rem. Minimum Maximum Unit
PU
674 687 kOhm
V_OC
1.42*Vs.min 1.43*Vs.max V
V_In
0V Vs
Vs
4.9 5.1 V
Tau_In
544 842 µs
F_ADC_lin_U0 V_In = 0V
-21.7 23.8 mV
F_ADC_lin_Ux V_In = V_In.max
-24.2 26 mV
F_ADC_qu_U0 V_In = 0V
-13.6 14.1 mV
F_ADC_qu_Ux V_In = V_In.max
-14.4 14.2 mV
I_In_Leakage
-674 650 nA
INPUTS 5, 7
Characteristics Conditions Rem. Minimum Maximum Unit
RS
14.55 14.87 kOhm
INPUTS 6, 9, 10, 11, 14, 20, 26
Characteristics Conditions Rem. Minimum Maximum Unit
RS
14.55 14.84 kOhm
ECM-1793-196-1503_DataSheet 30 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Analog Input Type V (Inputs 31, 32)
Min Nom Max Units
Cutoff frequency
504.28
Hz
Open Circuit Voltage (Input 31) 0.18 V
Open Circuit Voltage (Input 32) 2.58 V
Gain 1.239e-3 V/count
Offset 0.007 V
Characteristic Condition Rem. Minimum Maximum Unit
C_EMI 3.76 5.64 nF
C_IO 30.2 45.2 nF
PU1 0.99 1.01 kOhm
PD1 0.47 0.48 kOhm
R1 45.93 46.86 kOhm
RS 9.9 10.1 kOhm
RO 5.56 5.67 kOhm
Tau_In 260 402 μs
V_Out_Low 163 186 mV
V_Out_High 4.53 4.74 V
Use the Raptor Set Input Option block to set the measurement to either “Analog” (0) or “Resistance” (1).
− “Analog” means use the input in its normal fashion for reading the sensor voltage (eg, of a switch-type O2 sensor).
− “Resistance” means engage the RO load for a voltage reading that will aid in a resistance calculation (eg, to measure the resistance of a switch-type O2 sensor for heater control).
ECM-1793-196-1503_DataSheet 31 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Digital Inputs Digital Input Type I (Input 36)
Min Nom Max Units
Low logic threshold 1.76 V
High logic threshold 3.43 V
Cutoff frequency 210 265 kHz
Characteristics Conditions Rem. Minimum Maximum Unit
C_EMI
3.76 5.64 nF
PU1
2.58 2.63 kOhm
RS
14.55 14.84 kOhm
V_OC
4.57 4.79 V
V_In_High
3.43
V
V_In_Low
1.76 V
Tau_In
3.78 4.76 µs
Digital Input Type II (Inputs 34, 35)
Characteristics Conditions Rem. Minimum Maximum Unit
C_EMI
3.76 5.64 nF
PD1
1.29 1.31 kOhm
Rs
45.93 46.86 kOhm
PD2
45.93 46.86 kOhm
V_OC
0 0 V
Tau_In
0.859 1.328 ms
ECM-1793-196-1503_DataSheet 32 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Input 34
Min Nom Max Units
Low logic threshold 2 V
High logic threshold 4.42 V
Cutoff frequency .753 1.164 kHz
Characteristics Conditions Rem. Minimum Maximum Unit
V_In_High
4.42
V
V_In_Low
2 V
Input 35
Min Nom Max Units
Low logic threshold 2.22 V
High logic threshold 4.19 V
Cutoff frequency .753 1.164 kHz
Characteristics Conditions Rem. Minimum Maximum Unit
V_In_High
4.19
V
V_In_Low
2.22 V
Digital Input Type III (Inputs 37, 40)
Min Nom Max Units
Low logic threshold 2.25 V
High logic threshold 4.17 V
Cutoff frequency .753 1.164 kHz
ECM-1793-196-1503_DataSheet 33 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
INPUTS 37 & 40
Characteristics Conditions Rem. Minimum Maximum Unit
C_EMI
3.76 5.64 nF
PU1
1.29 1.31 kOhm
RS
45.9 46.8 kOhm
PD1
45.9 46.8 kOhm
Vpu
9 16 V
V_In_High
4.17
V
V_In_Low
2.25 V
Tau_In
0.859 1.328 ms
INPUT 37
Characteristics Conditions Rem. Minimum Maximum Unit
V_OC
0.97*Vpu +0.0986 0.97*Vpu +0.0983 V
INPUT 40
Characteristics Conditions Rem. Minimum Maximum Unit
V_OC
0.97*Vpu +(-0.873) 0.97*Vpu +0.0983 V
Digital Input Type IV (Inputs 39)
Min Nom Max Units
Low logic threshold 2 V
High logic threshold 4.42 V
Cutoff frequency .753 1.164 kHz
ECM-1793-196-1503_DataSheet 34 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
INPUT 39
Characteristics Conditions Rem. Minimum Maximum Unit
C_EMI
3.76 5.64 nF
PU1
1.29 1.31 kOhm
RS
45.9 46.8 kOhm
PD1
45.9 46.8 kOhm
V_OC
0.97*Vpu +0.0986 0.97*Vpu +0.0983 V
Vpu
9 16 V
V_In_High
4.42
V
V_In_Low
2 V
Tau_In
0.859 1.328 ms
Digital Input Type V (Inputs 33)
Min Nom Max Units
Low logic threshold 2.25 V
High logic threshold 4.17 V
Cutoff frequency .753 1.164 kHz
INPUT 33
Characteristics Conditions Rem. Minimum Maximum Unit
C_EMI
3.76 5.64 nF
PD1
1.29 1.31 kOhm
RS
45.93 46.86 kOhm
PD2
45.93 46.86 kOhm
V_OC
0 0 V
V_In_High
4.17
V
V_In_Low
2.25 V
Tau_In
0.859 1.328 ms
ECM-1793-196-1503_DataSheet 35 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Digital Input Type VI (Inputs 38)
Min Nom Max Units
Low logic threshold 2.25 V
High logic threshold 4.17 V
Cutoff frequency .753 1.164 kHz
INPUT 38
Characteristics Conditions Rem. Minimum Maximum Unit
C_EMI
3.76 5.64 nF
Rpu1
2.58 2.63 kOh
Rpu2
2.12 2.17 kOhm
RS
45.93 46.86 kOhm
Rpd
45.93 46.86 kOhm
CS
37.6 56 nF
V_OC
0.97*Vpu +0.0986 0.97*Vpu +0.0983 V
U
9 16 V
V_In_High
4.17
V
V_In_Low
2.25 V
Tau_In
0.859 1.328 ms
ECM-1793-196-1503_DataSheet 36 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Frequency Inputs Frequency Input Type I (Input 41)
Min Nom Max Units
Low logic threshold 2.25 V
High logic threshold 4.17 V
Cutoff frequency .753 1.164 kHz
PU1 2.58 2.63 kOhm
RS 45.93 46.86 kOhm
PD1 45.96 46.86 kOhm
INPUT 41
Characteristics Conditions Rem. Minimum Maximum Unit
C_EMI
3.76 5.64 nF
PU1
3.12 3.19 kOhm
Rs
14.55 14.84 kOhm
PD1
23.46 23.93 kOhm
V_OC
4.52 4.72 V
V_In_High
3.35
V
V_In_Low
1.84 V
Tau_In
3.78 4.76 µs
Frequency Input Type II (Input 42, 45)
ECM-1793-196-1503_DataSheet 37 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Min Nom Max Units
Low logic threshold 1.15 V
High logic threshold 2.04 V
Cutoff frequency 610 769 kHz
PU1 1.45 1.48 kOhm
RS 14.55 14.84 kOhm
INPUT 42
Characteristics Conditions Rem. Minimum Maximum Unit
C_EMI
3.76 5.64 nF
C_IO
3.76 5.64 nF
I_Out
600 mA
I_Out_SC
1.4 A
I_Leak_Off
5 µA
I_Out_Diag
700 µA
V_Out_Low
1.45 V
R_ON
0.26 2.42 Ohm
E_Clamp
6.5 mJ
V_Out_Clamp
60 V
V_OC
3.13 3.87 V
R_Load_Diag
5.14 kOhm
INPUT 45
Characteristics Conditions Rem. Minimum Maximum Unit
C_IO to case / Vbat- 1.76 2.64 nF
PU1 to Vs
1.45 1.48 kOhm
RS
14.55 14.84 kOhm
R_ON I_Out < 0.05A
2.52 Ohm
V_Out_Low
1.51 V
V_In_Low
1.15 V
V_In_High
2.04
V
Tau_In
1.3 1.64 µs
ECM-1793-196-1503_DataSheet 38 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Frequency Input Type III (Input 44)
Min Nom Max Units
Low logic threshold 1.76 V
High logic threshold 3.43 V
Cutoff frequency 210 265 kHz
PU1 2.58 2.63 kOhm
RS 14.55 14.84 kOhm
PD1 23.46 23.93 kOhm
Characteristics Conditions Rem. Minimum Maximum Unit
C_EMI
3.76 5.64 nF
PU1
2.58 2.63 kOhm
RS
14.55 14.84 kOhm
PD1
23.46 23.93 kOhm
V_OC
4.57 4.79 V
V_In_High
3.43
V
V_In_Low
1.76 V
Tau_In
3.78 4.76 µs
Frequency Input Type IV (Input 43)
Min Nom Max Units
Low logic threshold 2.25 V
High logic threshold 4.17 V
Cutoff frequency .753 1.164 kHz
PD1 1.29 1.31 kOhm
RS 45.9 46.8 kOhm
PD2 45.9 46.8 kOhm
ECM-1793-196-1503_DataSheet 39 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
INPUT 43
Characteristics Conditions Rem. Minimum Maximum Unit
C_EMI
3.76 5.64 nF
PD1
1.29 1.31 kOhm
RS
45.9 46.8 kOhm
PD2
45.9 46.8 kOhm
V_OC
0 0 V
V_In_High
4.17
V
V_In_Low
2.25 V
Tau_In
0.859 1.328 ms
Injectors Injectors 1-8 fire sequentially and cylinder firing order is currently not configurable. Cylinder firing order should
be set through the proper wiring on the engine.
Ignition Coil The ignition coils outputs 1-8 are ESTs and fire sequentially. Cylinder firing order is currently not configurable.
Cylinder firing order should be set through the proper wiring on the engine.
Low Side Drives PWM-capable low side drives have a frequency range of 38Hz to 20kHz.
Low Side Drives (Outputs 1, 2, 3, 4, 5, 6, 9, 10, 11, 12, 21, 22, 24, 25, 26, 27, 28, 29, 30,
32, 35, 38, 39, 42)
OUTPUTS 1, 3, 4, 5, 22, 24, 24, 25, 26, 27, 28, 29, 30, 32, 35, 38, 39, 42
Min Nom Max Units
Output Current 0 2.2 A
Short Circuit Detection Current Threshold 4 A
ECM-1793-196-1503_DataSheet 40 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
OUTPUTS 9, 12, 21
Min Nom Max Units
Output Current 0 4 A
Short Circuit Detection Current Threshold 10 A
OUTPUTS 2, 6, 10, 11
Min Nom Max Units
Output Current 0 3 A
Short Circuit Detection Current Threshold 6 A
OUTPUTS
Characteristics Conditions Rem. Minimum Maximum Unit
C_EMI
3.76 5.64 nF
C_IO
3.76 5.64 nF
V_OC
3.13 3.87 V
V_THR
4.7 5.4 V
I_Out_Diag
700 µA
R_Load_Diag
5.14 kOhm
OUTPUT 1
Characteristics Conditions Rem. Minimum Maximum Unit
I_Out
2.2 A
I_Out_SC
4 A
I_Leak_Off
20 µA
V_Out_Low
1.03 V
R_ON
470 mOhm
V_Out_Clamp
900 mV
OUTPUTS 2,6,10,11
Characteristics Conditions Rem. Minimum Maximum Unit
I_Out
3 A
I_Out_SC
6 A
I_Leak_Off
30 µA
V_Out_Low
1.05 V
R_ON
350 mOhm
V_Out_Clamp
16.9 V
ECM-1793-196-1503_DataSheet 41 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
OUTPUTS 3,42
Characteristics Conditions Rem. Minimum Maximum Unit
I_Out
2.2 A
I_Out_SC
4 A
I_Leak_Off
20 µA
V_Out_Low
1.58 V
R_ON
720 mOhm
V_Out_Clamp
900 mV
OUTPUTS 4,22,24,25,26,27,28,29,30,32,35,39
Characteristics Conditions Rem. Minimum Maximum Unit
I_Out
2.2 A
I_Out_SC
4 A
I_Leak_Off
20 µA
V_Out_Low
1.58 V
R_ON
720 mOhm
V_Out_Clamp
16.9 V
OUTPUTS 5,38
Characteristics Conditions Rem. Minimum Maximum Unit
I_Out
2.2 A
I_Out_SC
4 A
I_Leak_Off
20 µA
V_Out_Low
1.03 V
R_ON
470 mOhm
V_Out_Clamp
16.9 V
OUTPUTS 9,21
Characteristics Conditions Rem. Minimum Maximum Unit
I_Out
4 A
I_Out_SC
10 A
I_Leak_Off
30 µA
V_Out_Low
800 mV
R_ON
200 mOhm
V_Out_Clamp
16.9 V
OUTPUT 12
Characteristics Conditions Rem. Minimum Maximum Unit
I_Out
4 A
I_Out_SC
10 A
I_Leak_Off
30 µA
V_Out_Low
800 mV
R_ON
200 mOhm
V_Out_Clamp
900 mV
ECM-1793-196-1503_DataSheet 42 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Low Side Drive (Output 31)
Min Nom Max Units
Output Current 0 4 A
Short Circuit Detection Current Threshold 20 A
OUTPUT 31
Characteristics Conditions Rem. Minimum Maximum Unit
C_EMI
3.76 5.64 nF
C_IO
3.76 5.64 nF
I_Out
2.2 A
I_Out_SC
4 A
I_Leak_Off
20 µA
I_Out_Diag
700 µA
V_OC
3.13 3.87 V
V_THR
4.7 5.4 V
V_Out_Low
1.6 V
R_ON
725 mOhm
V_Out_Clamp
16.9 V
R_Load_Diag
5.14 kOhm
Low Side Drive (Outputs 7, 8, 13, 14, 15, 16, 17, 18, 19, 20, 23, 33, 34, 37, 40, 41, 43,
44, 45, 46, 47)
ECM-1793-196-1503_DataSheet 43 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
OUTPUTS 7, 8, 17, 19, 20, 23, 33, 34, 37, 41, 46, 47
Min Nom Max Units
Output Current 0 2.2 A
Short Circuit Detection Current Threshold 4 A
OUTPUTS 40, 43, 44, 45
Min Nom Max Units
Output Current 0 600 mA
Short Circuit Detection Current Threshold 1.4 A
OUTPUTS 13, 15, 18
Min Nom Max Units
Output Current 0 4 A
Short Circuit Detection Current Threshold 10 A
OUTPUT 14, 16
Min Nom Max Units
Output Current 0 3 A
Short Circuit Detection Current Threshold 6 A
OUTPUTS
Characteristics Conditions Rem. Minimum Maximum Unit
C_EMI
3.76 5.64 nF
C_IO
3.76 5.64 nF
V_OC
3.13 3.87 V
R_Load_Diag
5.14 kOhm
V_Out_Clamp
60 V
OUTPUTS 7,8,23,33,46
Characteristics Conditions Rem. Minimum Maximum Unit
I_Out
2.2 A
I_Out_SC
4 A
I_Leak_Off
20 µA
I_Out_Diag
700 µA
V_THR
4.7 5.4 V
V_Out_Low
1.58 V
R_ON
720 mOhm
E_Clamp
9 mJ
ECM-1793-196-1503_DataSheet 44 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
OUTPUTS 13,15,18
Characteristics Conditions Rem. Minimum Maximum Unit
I_Out
4 A
I_Out_SC
10 A
I_Leak_Off
30 µA
I_Out_Diag
700 µA
V_THR
4.7 5.4 V
V_Out_Low
800 mV
R_ON
200 mOhm
E_Clamp
18 mJ
OUTPUTS 14,16
Characteristics Conditions Rem. Minimum Maximum Unit
I_Out
3 A
I_Out_SC
6 A
I_Leak_Off
30 µA
I_Out_Diag
700 µA
V_THR
4.7 5.4 V
V_Out_Low
1.05 V
R_ON
350 mOhm
E_Clamp
18 mJ
OUTPUTS 17,19,20
Characteristics Conditions Rem. Minimum Maximum Unit
I_Out
2.2 A
I_Out_SC
4 A
I_Leak_Off
20 µA
I_Out_Diag
700 µA
V_THR
4.7 5.4 V
V_Out_Low
1.03 V
R_ON
470 mOhm
E_Clamp
18 mJ
OUTPUT 34
Characteristics Conditions Rem. Minimum Maximum Unit
I_Out
600 mA
I_Out_SC
1.4 A
I_Leak_Off
5 µA
I_Out_Diag
700 µA
V_Out_Low
1.45 V
R_ON
0.26 2.42 Ohm
E_Clamp
6.5 mJ
ECM-1793-196-1503_DataSheet 45 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
OUTPUTS 37,41,47
Characteristics Conditions Rem. Minimum Maximum Unit
I_Out
2.2 A
I_Out_SC
4 A
I_Leak_Off
20 µA
I_Out_Diag
700 µA
V_THR
4.7 5.4 V
V_Out_Low
1.58 V
R_ON
720 mOhm
E_Clamp
4 mJ
OUTPUTS 40,43,44,45
Characteristics Conditions Rem. Minimum Maximum Unit
I_Out
600 mA
I_Out_SC
1.4 A
I_Leak_Off
5 µA
I_Out_Diag
700 µA
V_THR
4.7 5.4 V
V_Out_Low
1.44 V
R_ON
2.4 Ohm
E_Clamp
6.5 mJ
Low Side Drive (Output 36)
Min Nom Max Units
Output Current 0 477 mA
Short Circuit Detection Current Threshold 477 A
ECM-1793-196-1503_DataSheet 46 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
OUTPUT 36
Characteristics Conditions Rem. Minimum Maximum Unit
C_EMI
3.76 5.64 nF
C_IO
3.76 5.64 nF
I_Out
477 mA
I_Out_SC
477 mA
I_Leak_Off
20 µA
I_Out_Diag
700 µA
V_OC
3.12 3.89 V
V_THR
4.7 5.4 V
V_Out_Low
16 V
R_ON
35.2 Ohm
E_Clamp
9 mJ
V_Out_Clamp
60 V
R_Load_Diag
5.11 kOhm
High Side Drives High Side Drive (Outputs 48 & 49)
Min Nom Max Units
Output Current 0 400 mA
Short Circuit Detection Current Threshold 2 A
OUTPUTS 48 & 49
Characteristics Conditions Rem. Minimum Maximum Unit
C_EMI
3.76 5.64 nF
-I_Out
400
mA
-I_Out_SC
2 A
-I_Out_Leakage
12 µA
V_Out_High at -I_Out min , Vbatt=9V
8.7
V
V_Out_High1 at -I_Out min , Vbatt=16V
16 V
V_OC @ Vbat >= 6V, HSD in OFF State
>=3 16 V
E_Clamp Inductive Load Switch-off energy
dissipation, single pulse,
Tj=150°C;Vbb=13.5V;IL=0.3A
800 mJ
V_Clamp
41 63 V
ECM-1793-196-1503_DataSheet 47 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Half Bridges (Outputs 50 & 51, 52 & 53, 54 & 55)
Min Nom Max Units
Output Current (RMS) -2.5 2.5 Arms
Output Current (DC) -7.6 7.6 A
Short Circuit Detection Current Threshold -11.1 11.1 A
Frequency 306 40,000 Hz
OUTPUTS 50,51,52,53,54,55
Characteristics Conditions Rem. Minimum Maximum Unit
C_EMI referenced to GND
3.76 5.64 nF
C_IO
1.) 15.1 22.6 nF
R_Out to case / Vbat-, power
stage active
540 mOhm
I_Out
2.) -2.5 2.5 A
I_Out_Lim
3.) 5.6 7.6 A
I_Out_SC
3.) 6.7 11.1 A
I_Out_Leakage
-200 200 µA
V_Out to case / Vbat-
0 V Vbat+ V
INPUT 50&51
1.) between Pin A066 and Pin A067
2.) I_Out is the rms value
3.) absolute value, current can flow in both directions
INPUT 52&53
1.) between Pin A064 and Pin A065
2.) I_Out is the rms value
3.) absolute value, current can flow in both directions
INPUT 54&55
1.) between Pin A043 and Pin A044
2.) I_Out is the rms value
3.) absolute value, current can flow in both directions
ECM-1793-196-1503_DataSheet 48 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Dimensions
Connections The connector is split into two chambers, 105 pins for connector A and 91 pins for connector K. Contact New
Eagle Distribution (NED) to purchase a connector kit [email protected]
ECM-1793-196-1503_DataSheet 49 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Pinout Connector A
Pin Function Pin Function Pin Function
1 OUTPUT25 36 SENSOR GROUND 71 OUTPUT63 (EST8)
2 OUTPUT26 37 INPUT6 72 OUTPUT57 (EST2)
3 OUTPUT09 38 INPUT7 73 OUTPUT59 (EST4)
4 OUTPUT21 39 SENSOR RETURN 74 INPUT49 (CAM)
5 Not Connected (DI) 40 INPUT8 75 OUTPUT31
6 Not Connected (DI) 41 INPUT9 76 SENSOR GROUND
7 Not Connected (DI) 42 INPUT10 77 INPUT58 (KNOCK)
8 Not Connected (DI) 43 OUTPUT54 78 INPUT56 (KNOCK)
9 OUTPUT27 44 OUTPUT55 79 INPUT51 (KNOCK)
10 OUTPUT1 45 OUTPUT10 80 INPUT54 (KNOCK)
11 OUTPUT28 46 OUTPUT4 81 SENSOR RETURN
12 SENSOR RETURN 47 Not Connected (DI) 82 INPUT14
13 INPUT46 (CAM) 48 Not Connected (DI) 83 SENSOR SUPPLY
14 OUTPUT80 (TACH) 49 OUTPUT60 (EST5) 84 INPUT15
15 SENSOR SUPPLY 50 OUTPUT62 (EST6) 85 Not Connected (DI)
16 INPUT2 51 OUTPUT56 (EST1) 86 Not Connected (DI)
17 INPUT3 52 OUTPUT58 (EST3) 87 Not Connected (DI)
18 INPUT4 53 INPUT48 (CAM) 88 Not Connected (DI)
19 INPUT5 54 OUTPUT5 89 Not Connected (DI)
20 SENSOR SUPPLY 55 INPUT11 90 Not Connected (DI)
21 SENSOR SUPPLY 56 SENSOR RETURN 91 Not Connected (DI)
22 OUTPUT12 57 INPUT33 92 Not Connected (DI)
23 OUTPUT2 58 SENSOR SUPPLY 93 OUTPUT6
24 OUTPUT3 59 INPUT12 94 OUTPUT32
25 OUTPUT29 60 SENSOR RETURN 95 INPUT50 (CRANK)
26 Not Connected (DI) 61 SENSOR RETURN 96 SENSOR GROUND
27 Not Connected (DI) 62 INPUT13 97 INPUT16
28 Not Connected (DI) 63 SENSOR RETURN 98 INPUT57 (KNOCK)
29 Not Connected (DI) 64 OUTPUT52 99 INPUT55 (KNOCK)
30 OUTPUT19 (INJ7) 65 OUTPUT53 100 INPUT52 (KNOCK)
31 OUTPUT22 66 OUTPUT50 101 INPUT53 (KNOCK)
32 OUTPUT20 (INJ8) 67 OUTPUT51 102 INPUT17
33 OUTPUT30 68 Not Connected (DI) 103 INPUT18
34 INPUT47 (CAM) 69 Not Connected (DI) 104 SENSOR SUPPLY
35 INPUT41 70 OUTPUT61 (EST6) 105 INPUT19
ECM-1793-196-1503_DataSheet 50 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Connector K
Pin Function Pin Function Pin Function
1 GND1 36 OUTPUT37 71 OUTPUT46
2 GND2 37 OUTPUT23 72 OUTPUT47
3 VBATT_SW1+ 38 OUTPUT38 73 OUTPUT24
4 GND3 39 OUTPUT39 74 OUTPUT16 (INJ4)
5 VBATT_SW2+ 40 OUTPUT17 75 INPUT32
6 VBATT_SW3+ 41 INPUT31 76 SENSOR RETURN
7 O2 Current Pump 1 42 INPUT25 77 CAN3_HI
8 O2 Virtual Ground 1 43 SENSOR RETURN 78 CAN3_LO
9 Not Connected 44 SENSOR RETURN 79 CAN1B_HI
10 O2 Voltage Nernst 1 45 INPUT26 80 CAN1B_LO
11 INPUT20 46 SENSOR GROUND 81 SENSOR RETURN
12 OUTPUT33 47 INPUT34 82 INPUT30
13 INPUT21 48 INPUT44 83 SENSOR SUPPLY
14 INPUT36 49 INPUT35 84 OUTPUT7
15 SENSOR GROUND 50 WAKE_INPUT1 85 SENSOR SUPPLY
16 INPUT37 51 INPUT27 86 Not Connected
17 INPUT38 52 INPUT45 87 MPRD
18 INPUT42 53 OUTPUT49 88 OUTPUT08
19 OUTPUT34 54 OUTPUT40 89 OUTPUT48
20 OUTPUT35 55 OUTPUT41 90 OUTPUT14 (INJ2)
21 OUTPUT36 56 OUTPUT42 91 OUTPUT18 (INJ6)
22 OUTPUT13 (INJ1) 57 OUTPUT11
23 OUTPUT15 (INJ3) 58 INPUT28
24 Not Connected 59 OUTPUT43
25 O2 Virtual Ground 2 60 CAN2_HI
26 O2 Voltage Nernst 2 61 CAN2_LO
27 O2 Current Pump 2 62 CAN1A_HI
28 INPUT39 63 CAN1A_LO
29 INPUT43 64 SENSOR RETURN
30 INPUT22 65 INPUT29
31 SENSOR RETURN 66 SENSOR SUPPLY
32 SENSOR GROUND 67 SENSOR SUPPLY
33 INPUT40 68 LIN
34 INPUT23 69 OUTPUT44
35 INPUT24 70 OUTPUT45
ECM-1793-196-1503_DataSheet 51 August 30, 2019
© New Eagle Consulting www.neweagle.net PH: 734.929.4557
Minimum Programming Harness The table below shows the minimum harness necessary to power the unit for bench communication and
programming.
Connector K
Pin Function Pin Function Pin Function
1 GND1 62 CAN1A_HI
5 VBATT_SW2+ 63 CAN1A_LO
15 SENSOR_GND
50 WAKE_INPUT1
Recovery Procedure 1. Power down the ECU completely, wait 30 seconds to assure it is fully powered off. 2. Power and keyswitch on the module as normal, wait 30 seconds. 3. Open the Raptor-Cal application. 4. Select CAN 1 and set the baud rate to the baud rate of the last successfully programmed application. If you
don’t know this, then you can attempt recovery multiple times with different baud rates.
5. Click on Flash. The window will say “No Modules Found”. 6. Click on Recover. Select Other. 7. If your module is found, select it and choose an appropriate .RPG file.
If you don’t see your module, double check that it is powered and keyswitched and that your CAN to USB
device is connected properly.
8. Success! Your module has been recovered and will be flashed with the selected .RPG file. If this step fails, the software package may be to blame. Try a different .RPG file.
Related Products Part New Eagle Store Part Number
PIGTAIL HARNESS FOR ECM/GCM 196 HARN-P196-001
196 ECM/GCM MOUNTING BRACKET ASM-MOUN-196
196 ECM/GCM CONNECTOR KIT CON-KIT-196
ECM-1793-196-1503_DataSheet 52 August 30, 2019