Injection regulation, function - GF07.10-P-1004MM
ENGINE 276.9 in MODEL 204, 207, 212 (except 212.095), 218
Function requirements for injection regulation, general points
- Circuit 87M (engine timing ON)
- Engine running
Injection regulation, general points
The ME-SFI [ME] control unit (N3/10) assigns the required fuel quantity to the engine.
Using the characteristic map, the ME-SFI [ME] control unit calculates the injection time and pressure on the basis of the following sensors and signals:
- Hot film MAF sensor (B2/5), engine load (for code (920) Gasoline direct injection with stratified charge)
- Intake air temperature sensor (B2/5b1) (model 204, 207, 212), intake air temperature sensor (B2/5b1) (model 218) (for code (920)) Gasoline direct injection with stratified charge)
- Intake air temperature sensor (B17) (model 204, 207, 212), intake air temperature sensor (B17) (model 218) (for code (920)) Gasoline direct injection with stratified charge)
- Intake manifold intake air temperature sensor (B17/1)
- Fuel pressure and temperature sensor (B4/25)
- Left and right intake camshaft Hall sensors (B6/4, B6/5), intake camshaft positions
- Left and right exhaust camshaft Hall sensors (B6/6, B6/7), exhaust camshaft positions
- Coolant temperature sensor (B11/4) (model 204, 207, 212), coolant temperature sensor (B11/4) (model 218)
- Pressure sensor downstream of throttle valve (B28/7), engine load
- Accelerator pedal sensor (B37), engine load request from the driver
- Accelerator pedal sensor, accelerator pedal operation fast or slow (with acceleration)
- Crankshaft Hall sensor (B70), engine speed
- Left and right oxygen sensors upstream of catalytic converter (G3/3, G3/4)
- Altitude pressure sensor in ME-SFI [ME] control unit, atmospheric pressure for altitude adaptation
- Engaged intake manifold length
- Correction programming with Xentry Diagnostics
The requirements of the torque coordination function are also taken into account.
Function sequence for injection regulation
The ME-SFI [ME] control unit controls the injection time under the following operating conditions:
- Function sequence for partial load and wide open throttle operation
- Function sequence for acceleration
Function sequence for partial load and wide open throttle operation
The actuation time of the fuel injectors (Y76) is calculated in the ME-SFI [ME] control unit dependent on the lambda control, the rail pressure and the requested engine torque.
At the accelerator pedal sensor, about 10 to 90% slewing range is defined as partial load and more than about 90% slewing range is defined as wide open throttle.
Multiple injection
Partitioning the injection quantity into a number of single fuel injections, whereby the last can be selected to be close to ignition.
Areas of application of multiple injections:
- Start
- Heat up catalytic converters
- Combustion stabilization at high loads and speeds <2000 RPM
- Keep catalytic converters warm in idle with long idle phases with engine running
Function sequence for acceleration
When there is rapid variation of the accelerator pedal position, the throttle valve also opens and closes rapidly. This causes the mixture to become briefly leaner or richer.
To prevent this, the ME-SFI [ME] control unit adapts the fuel-air mixture, by shortening or lengthening the actuation time of the fuel injectors according to a characteristic map. This prevents jerking of the engine.
| Electrical function schematic for injection control | MODEL 204 | PE07.10-P-2704-97FAK | |
| MODEL 207 | PE07.10-P-2704-97EAH | ||
| MODEL 212 | PE07.10-P-2704-97DAI | ||
| Model 218 | PE07.10-P-2704-97XAB | ||
| Overview of system components for gasoline injection and ignition system with direct injection | ENGINE 276.9 in MODEL 204, 207, 212 (except 212.095), 218 | GF07.70-P-9998MM |