System Outline

The engine control system utilizes a microcomputer and maintains overall control of the engine, transmission etc. An outline of the engine control system is given here.

1. Input Signals 
   1. Engine coolant temp. signal circuit

      The engine coolant temp. sensor detects the engine coolant temperature and has a built-in thermistor whose resistance varies according to the engine coolant temperature. The engine coolant temperature is input into TERMINAL THW of the engine control module as a control signal.

   2. Intake air temp. signal circuit

      The intake air temp. sensor is installed in the air flow meter and detects the intake air temperature, which is input as a control signal to TERMINAL THA of the engine control module.

   3. Oxygen sensor signal circuit

      The oxygen density in the exhaust emissions is detected and is input as a control signal from the heated oxygen sensors to TERMINALS OX1B and OX2B of the engine control module.

   4. RPM signal circuit

      The engine RPM is detected by the crankshaft position sensor and the signal is input into TERMINAL NE+ of the engine control module.

   5. Throttle position sensor signal circuit

      The throttle position sensor detects the throttle valve opening angle as a control signal, which is input into TERMINALS VTA1 and VTA2 of the engine control module.

   6. Vehicle speed circuit

      The vehicle speed sensor detects the vehicle speed, and the signal is input from TERMINAL SP1 of the skid control ECU with actuator into TERMINAL SPD of the engine control module via the combination meter. (A/T) The vehicle speed sensor (Combination meter) detects the vehicle speed, and the signal is input into TERMINAL SPD of the engine control module via the combination meter. (M/T)

   7. Battery signal circuit

      Voltage is constantly applied to TERMINAL BATT of the engine control module. When the ignition SW is turned on, the voltage for engine control module start up power supply is applied through the EFI relay, to TERMINALS +B and +B2 of the engine control module. Current from the IGN fuse flows to TERMINAL IGSW of the engine control module, and voltage is constantly applied to TERMINAL +BM.

   8. Intake air volume signal circuit

      The intake air volume is detected by the air flow meter, and is input as a control signal to TERMINAL VG of the engine control module.

   9. Stop lamp SW signal circuit

      The stop lamp SW is used to detect whether the vehicle is braking or not, and the signal is input into TERMINAL STP of the engine control module as a control signal.

   10. Starter signal circuit

       To confirm whether the engine is cranking, the voltage which is being applied to the starter motor when the engine is cranking is detected, and is input into TERMINAL STA of the engine control module as a control signal.

   11. Engine knock signal circuit

       Engine knocking is detected by the knock sensors, and is input into TERMINALS KNK1 and KNK2 of the engine control module as a control signal.

   12. A/C SW signal system

       The operating voltage of the A/C magnetic clutch is detected and input in the form of a control signal to TERMINAL AC1 of the engine control module.

   13. Air fuel ratio signal circuit

       The air fuel ratio is detected and input as a control signal into TERMINALS A1A+ and A2A+ of the engine control module.

2. Control System 

   * SFI system

   The SFI system monitors the engine conditions through the signals received from all of the sensors by the engine control module. Then a control signal is then sent from the engine control module TERMINALS #10, #20, #30, #40, #50 and #60 to operate the injectors (Fuel injection). The SFI system controls the fuel injection via the engine control module in response to the driving conditions.

   * ESA system

   The ESA system monitors the engine condition through the signals received from all of the sensors by the engine control module. The best ignition timing is determined according to this data and the data already stored in the engine control module. Then a control signal is output from TERMINALS IGT1, IGT2, IGT3, IGT4, IGT5 and IGT6, and these signals control the igniters to provide the best ignition timing.

   * Heated oxygen sensor heater control system

   The heated oxygen sensor heater control system turns the heater on when the intake air volume is low (Temperature of exhaust emissions is low), and warms up the heated oxygen sensors to improve their detection performance. The engine control module evaluates the signals from each sensors, and outputs current to TERMINAL HT1B or HT2B to control the heater.

   * Air fuel ratio sensor heater control system

   The air fuel ratio sensor heater control system turns the heater on when the intake air volume is low (Temperature of exhaust emissions low), and warms up the air fuel ratio sensor to improve the detection performance of the sensor.

   The engine control module evaluates the signals from each sensor, and current is output to TERMINALS HA1A and HA2A, controlling the heater.

   * Fuel pump control system

   The engine control module supplies current to TERMINAL FPR, and controls the operation speed of the fuel pump with the FUEL PUMP relay.

   * ACIS

   The ACIS includes a valve in the bulkhead separating the surge tank into two parts. This valve is opened and closed in accordance with the driving conditions to control the intake manifold length in two stages, for increased engine output in all ranges from low to high speeds.

   * ETCS-i

   The ETCS-i optimizes the engine output in accordance with the opening of the accelerator pedal, under all driving conditions.

   * VVT-i

   Optimizes the intake camshaft timing in accordance with the engine condition.

3. Diagnosis System 

   When there is a malfunction in the engine control module signal system, the malfunctioning system is recorded in the memory. The malfunctioning system can be found by reading the code displayed on the check engine indicator lamp.

4. Fail-Safe System 

   When a malfunction has occurred in any system, there is a possibility of causing engine trouble due to continued control based on that system. In that case, the fail-safe system either controls the system using the data (Standard values) recorded in the engine control module memory, or else stops the engine.