Smooth engine running analysis, function - GF07.61-P-3034M

ENGINE 275.950 in MODEL 215, 220 

ENGINE 275.951 in MODEL 230 

ENGINE 275.953 in MODEL 216, 221 

ENGINE 275.954 in MODEL 230 

ENGINE 275.980 in MODEL 215, 220 

ENGINE 275.981 in MODEL 230 

ENGINE 275.982 in MODEL 216, 221 

ENGINE 285.950 in MODEL 240 

ENGINE 285.980 in MODEL 240 

To protect the catalytic converters from thermal overload through combustion misfirings and in order to keep the exhaust emission values, the engine operation is continuously monitored. If smooth engine running analysis in the ME-SFI [ME] control unit detects combustion misfiring, the fuel injection valves affected are no longer actuated after a certain number of misfiring.

The following combustion misfiring causes are detected:

• Ignition system
• Injection system
• Engine, mechanical aspects (e.g. fresh air, valve seat, valve springs)
• Fuel deficiency

Smooth engine running signal 

For the smooth engine running analysis the signal supplied by the crankshaft position sensor is analyzed exactly in respect of time uniformity between the individual combustions by means of a comprehensive mathematical method.

Each individual combustion must produce a characteristic acceleration at the flywheel.

In case of combustion misfirings, the flywheel mass rotates slightly slower until the next ignition (short variations in torque).

The following factors are taken into account:

• Engine speed, engine load
• Engine temperature
• Recognition of uneven road surface
• Synchronization of fuel injection and firing order
• Fuel reserve signal
• Sensor wheel adaptation

1. Engine speed, engine load 

   A comparative value for the time between two combustions is calculated from these two parameters.

2. Engine temperature 

   If engine is cold, several combustion misfires are allowed temporarily.

3. Recognition of uneven road surface 

   The wheel speed signal is sent via the CAN data bus from the ESP control unit (even running).

   On poor road surfaces (washboard roads), the smooth engine running analysis is set less sensitive. Vibrations transmitted through the drive train may have a negative influence on the smooth operation analysis at certain engine speeds and load states.

4. Synchronization of fuel injection and firing order 

   The cylinder recognition is required for storing and evaluation.

5. Fuel reserve signal 

   If combustion misfires are detected, a fault is stored if the fuel tank level is too low. Combustion misfires due to fuel starvation are detected via this additional information.

   The information about the fuel level is transferred via CAN data bus to the instrument cluster. From there the information passes via the CAN data bus to the ME-SFI [ME] control unit.

6. Sensor wheel adaptation 

   After sensor adaptation is performed, the smooth engine running analysis becomes more sensitive and can be adapted to the specific smooth running properties of the engine.

   During a deceleration phase (uniform smooth running) the smooth running analysis stores the particular smooth running properties of the engine. These are needed as comparative parameter to recognize combustion misfires.

7. ECI ignition system 

   The results from the smooth operation and ionic current evaluation are combined to detect all combustion misfires reliably up to maximum engine speed.

   Combustion misfire counter 

   The following information is entered in the fault memory:

   • Sum of all combustion misfires
   • Combustion misfires "cylinder-specific"
   • Combustion misfires "emission limit"
   • Combustion misfire "catalytic converter damaging"

For 

the fuel reserve warning lamp is flashing, the purge system has a gross leak (e.g. tank lid missing).

If the fuel tank is filled to less than approx. 1/4 or to more than 3/4, the leak test of the fuel system is suppressed. A test for major leakage is still performed.

	ME-SFI [ME] control unit, location/task/design/function		GF07.61-P-5000M
	Crankshaft position sensor, location/task/design/function		GF07.04-P-4116M
	Camshaft Hall sensor, location/task/design/function		GF07.04-P-4117M
	Pressure sensor downstream of throttle valve actuator, location/task/function		GF07.04-P-5049M
	Coolant temperature sensor, location/task/design/function		GF07.04-P-5026M
	Fuel injection valve, location/task/design/function		GF07.03-P-5004M