Ignition Control

IGNITION CONTROL

- The ECM determines operating condition of the engine based on signals from the mass air flow and intake air temperature sensor, manifold absolute pressure sensor, engine coolant temperature sensor, crankshaft position sensor and other sources. The ECM then selects the ignition timing most appropriate for the condition thus determined from those stored in its memory and outputs at that timing a primary current OFF signal to the igniter to initiate ignition.
- This control uses a quick-to-response learning feature by which the data stored in the ECM memory is processed in comparison with information from various sensors and switches.
- Thus, the ECM can always perform optimum ignition timing taking into account the output, fuel efficiency, exhaust gas, and other factors for every engine operating condition.
- Ignition control during start-up




Engine speed fluctuates during start of the engine, so the ECM cannot control the ignition timing. During that period, the ignition timing is fixed at 10 degrees BTDC by using the 10 degrees signal from the crankshaft position sensor.
- On the sensor plate at the rear end of the crankshaft, there are projections placed at 10 degrees and 30 degrees intervals. The ECM receives crankshaft angle pulse signals that are generated when the crankshaft position sensor passes these projections.
Using crankshaft position sensor signals and camshaft position sensor pulse signals, the ECM determines the position of each piston as follows:
The ECM interprets the pulses of range (A) shown as the No.1 and No.2 cylinder pistons being at TDC, the pulses of range (B) as the No.5 and No.6 cylinder pistons being at TDC, and the pulses of range (C) as the No.3 and No.4 cylinder pistons being at TDC.




- The ECM outputs an ignition signal for the No.1, No.3 or No.5 cylinder when it receives a cam angle pulse (RH) before a TDC signal and for the No.2, No.4 or No.6 cylinder when it receives a cam angle pulse (LH) before a TDC signal.