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Basic quantity, fuel

Basic quantity, fuel


The mass air flow sensor grounds the control module input with a frequency depending on the air mass flow. As the air mass flow increases, the frequency will also increase. The control module converts the frequency to grams air/second (g/s).

Most interesting, however, is the air mass that is drawn in by each cylinder, as it is to this air the petrol is to be added. The control module registers the air mass drawn in during one engine revolution. As the engine is 4-cylinder 4-stroke, two cylinders must have drawn in air simultaneously during this engine revolution. The air mass passing the mass air flow sensor is divided by two so that the control module will be aware how much each cylinder has drawn in. The unit has now changed to milligrams air/combustion (mg/c).

To attain lambda 1, the fuel/air ratio must be 1 kg fuel to 14.7 kg air. Since we know the amount of air being drawn into each cylinder/combustion, the control module can easily calculate how much fuel to inject into the cylinders on each occasion. Milligrams air/combustion is divided by 14.7 and the result is the amount of petrol to be injected in mg/combustion.

In the section Compensation, see , the reason is given to why the basic fuel quantity sometimes must be made leaner or, as is most usual, slightly richer in order for the engine to perform well and keep emissions within limits.