(+12V to Pins 3 and 62).
Ensure your bench supply remains above 11.8V DC throughout reading and writing sequences. Sudden drops in input voltage can disrupt internal EEPROM chip mapping, which can cause permanent software damage.
| Pin | Function | Signal Type | Notes / Voltage | | :--- | :--- | :--- | :--- | | | MAF Signal (G70) | Analog Input | 0-5V (idle ~1.5V) | | 2 | IAT (G42) – Intake Air Temp | Analog Input | NTC sensor (shared ground) | | 4 | Lambda 1 (G39) – Pre-cat O2 | Analog Input | 0-1V (narrowband) or 0-5V (wideband LSU 4.2) | | 5 | Lambda 1 Heater Ground | Power Ground | Heater circuit return | | 10 | ECT (G62) – Coolant Temp | Analog Input | NTC sensor (Shared with gauge) | | 15 | CAN Low (Drive train) | Digital | 2.5V nominal, differential (to cluster/ABS) | | 16 | CAN High (Drive train) | Digital | 2.5V nominal, differential | | 19 | Knock Sensor 1 (G61) | AC Signal | Shielded wire | | 20 | Knock Sensor 2 (G66) | AC Signal | Shielded wire | | 24 | MAP Sensor Signal | Analog Input | Manifold pressure (0-5V) | | 27 | Power Supply (Constant 12V) | Power | Direct from battery (Terminal 30) | | 28 | Power Supply (Constant 12V) | Power | Direct from battery (Terminal 30) | | 29 | Power Supply (Constant 12V) | Power | Direct from battery (Terminal 30) | | 30 | Main Relay Control (Terminal 87) | Output | Switched +12V to relay coil (ground side switched) | | 31 | Injector Cylinder 1 (N30) | Output | Ground-switched peak & hold | | 32 | Injector Cylinder 2 (N31) | Output | Ground-switched | | 33 | Injector Cylinder 3 (N32) | Output | Ground-switched | | 34 | Injector Cylinder 4 (N33) | Output | Ground-switched | | 35 | Ignition Coil Output 1 (N70) | Digital Output | 5V logic to integrated igniter | | 36 | Ignition Coil Output 2 (N127) | Digital Output | 5V logic | | 37 | Ignition Coil Output 3 (N291) | Digital Output | 5V logic | | 38 | Ignition Coil Output 4 (N292) | Digital Output | 5V logic | | 40 | Tachometer (Terminal 1) | Output | Square wave (cluster signal) | | 41 | Sensor Ground (Analog) | Ground | Reference for TPS, MAP, MAF | | 42 | Sensor Ground (Analog) | Ground | Dedicated ground | | 43 | Power Ground (ECU Chassis) | Power Ground | Heavy gauge to engine block | | 44 | Power Ground (ECU Chassis) | Power Ground | Heavy gauge | | 45 | Power Ground (ECU Chassis) | Power Ground | Heavy gauge | | 49 | O2 Heater Control (Lambda 1) | PWM Output | Ground-side switch for heater | | 50 | N80 – EVAP Canister Valve | PWM Output | Solenoid control | | 51 | Brake Light Switch (Signal) | Digital Input | +12V when brake pressed | | 55 | Fuel Pump Relay Control (Terminal 87F) | Output | Ground-switched relay coil | | 57 | Clutch Pedal Switch (For cruise) | Digital Input | +12V when engaged | | 62 | Throttle Position Sensor (G79) – Signal 1 | Analog Input | 0.5V – 4.5V (closed-open) | | 63 | Throttle Position Sensor (G185) – Signal 2 | Analog Input | Inverse of G79 (4.5V – 0.5V) | | 64 | Accelerator Pedal (G79) – Signal 1 | Analog Input | Driver demand (0.5V – 4.5V) | | 65 | Accelerator Pedal (G185) – Signal 2 | Analog Input | Inverse of pedal 1 | | 68 | +5V Sensor Supply | Power | To TPS, MAP, pedal sensors | | 71 | +5V Sensor Supply | Power | To TPS, MAP (secondary rail) | | 73 | Camshaft Position Sensor (G40) | Hall Effect Input | 0-5V square wave | | 76 | Starter Signal (Terminal 50) | Digital Input | +12V during cranking | | 77 | Speed Signal (VSS) | Digital Input | From ABS or cluster (CAN also used) | | 78 | Engine Speed (G28) – Crank Sensor | Variable Reluctance | AC sine wave (2 wires – pin 78 & 79) | | 79 | Engine Speed (G28) – Ground/Shield | Ground | Ground for crank sensor shield | | 80 | Ignition Switch (Terminal 15) | Digital Input | +12V when key on | | 92 | Alternator Excitation (DFM) | Digital Input | Monitors alternator load | | 94 | A/C Compressor Request | Digital Input | From HVAC unit | | 95 | A/C Compressor Control | Output | To compressor relay (ground switch) | | 103 | Secondary Air Injection (SAI) Relay | Output | Ground-switched relay | | 105 | Radiator Fan (Low Speed) | Output | To fan control module | | 106 | Radiator Fan (High Speed) | Output | To fan control module | | 108 | OBD-II Diagnostic K-Line (ISO 9141) | Bi-directional | 0-12V (Legacy diagnostics) | | 121 | Main Power Ground | Power Ground | Final high-current ground return | bosch me711 pinout
Pin 24 (Often used for BDM/OBD flash programming). C. Critical Sensor Inputs
No. There are hardware and software variations. The primary processor can be an Infineon C167CR or an ST10F275, which influences the available pins and communication protocols. Always verify your specific ECU's part number (e.g., 022906032CS, 0261201192) when looking for a pinout. Even the design of the circuit board for the Boot Mode pin can differ as mentioned above. (+12V to Pins 3 and 62)
This comprehensive engineering resource covers the architectural layout, bench pinouts, communication wire configurations, and safe hardware programming protocols for the Bosch ME7.1.1 hardware family. Core Hardware Specifications & Architecture
Without correct power and ground, the ECU will not communicate via OBD or fire injectors. | Pin | Function | Signal Type |
This usually means the ECU is not seeing the ignition signal. Ensure Pin 3 is receiving a clean +12V signal after Pin 62 is powered.
Run the diagnostic line (Pin 43 for K-Line) to your pass-thru OBD interface tool.
: Comprehensive technical PDFs like the Bosch ME7.1.1 Pinout and Connections provide pin assignments for ST10F275 and 29F400 processor variants.