Fuel And Emissions System Description - PGM-FI System

Fuel and Emissions System Description - PGM-FI System

PGM-FI System

The programmed fuel injection (PGM-FI) system is a sequential multiport fuel injection system.

Alternator Control

The alternator signals the ECM/PCM during charging. The ECM/PCM then controls the voltage generated at the alternator according to the electrical load determined by the electrical load detector (ELD) and the driving mode. This reduces engine load to improve fuel economy.

Air Conditioning (A/C) Compressor Clutch Relay

When the ECM/PCM receives a demand for cooling from the A/C system, it delays the compressor from being energized, and enriches the mixture to assure a smooth transition to the A/C mode.

Air Fuel Ratio (A/F) Sensor

The A/F sensor operates over a wide air/fuel range. The A/F sensor is installed upstream of the warm up three way catalytic converter (WU-TWC), and it sends signals to the ECM/PCM which varies the duration of fuel injection accordingly.






Barometric Pressure (BARO) Sensor

The BARO sensor is inside the ECM/PCM. It converts atmospheric pressure into a voltage signal that is used by the ECM/PCM to modify the basic duration of the fuel injection discharge.

Camshaft Position (CMP) Sensor

The CMP sensor detects the position of the No. 1 cylinder as a reference for sequential fuel injection to each cylinder.






Crankshaft Position (CKP) Sensor

The CKP sensor detects crankshaft speed, and is used by the ECM/PCM to determine ignition timing, timing for the fuel injection of each cylinder, and engine misfire detection.






Engine Coolant Temperature (ECT) Sensors 1 and 2

ECT sensors 1 and 2 are temperature dependent resistors (thermistors). The resistance decreases as the engine coolant temperature increases.






Ignition Timing Control

The ECM/PCM contains the memory for basic ignition timing at various engine speeds and manifold absolute pressures. It also adjusts the timing according to engine coolant temperature and intake air temperature.

Injector Timing and Duration

The ECM/PCM contains the memory for basic discharge duration at various engine speeds and manifold pressures. The basic discharge duration, after being read out from the memory, is further modified by signals sent from various sensors to obtain the final discharge duration.

By monitoring long term fuel trim, the ECM/PCM detects long term malfunctions in the fuel system and sets diagnostic trouble codes (DTCs) if needed.

Input Shaft (Mainshaft) Speed Sensor

This sensor detects input shaft (mainshaft) speed.






Knock Sensor

The knock control system adjusts the ignition timing to minimize knock.






Malfunction Indicator Lamp (MIL) Indication (In relation to Readiness Codes)

The vehicle has certain readiness codes that are part of the on-board diagnostics for the emissions systems. If the vehicle's battery has been disconnected or gone dead, if DTCs have been cleared, or if the ECM/PCM has been reset, these codes are reset. In some states, part of the emissions testing is to make sure these codes are set to complete. If all of them are not set to complete, the vehicle may fail the test, or the test cannot be finished.

To check if the readiness codes are set to complete, turn the ignition switch to ON (II) or press the engine start/stop button to select the ON mode, but do not start the engine. The MIL will come on for 15-20 seconds. If it then goes off, the readiness codes are complete. If it flashes five times, one or more readiness codes are not set to complete. To set each code, drive the vehicle or run the engine as described in the procedures Monitors, Trips, Drive Cycles and Readiness Codes.

Manifold Absolute Pressure (MAP) Sensor

The MAP sensor converts manifold absolute pressure into electrical signals that are sent to the ECM/PCM.






Mass Air Flow (MAF) Sensor/Intake Air Temperature (IAT) Sensor

The mass air flow (MAF) sensor/intake air temperature (IAT) sensor contains a hot wire sensor, a cold wire sensor, and a thermistor. It is located in the intake air passage. The resistance of the hot wire sensor, a cold wire sensor, and the thermistor changes due to intake air temperature and air flow. The control circuit in the MAF sensor controls the current to keep the hot wire at a set temperature. The current is converted to voltage in the control circuit, then output to the ECM/PCM.






Output Shaft (Countershaft) Speed Sensor

This sensor detects countershaft speed.






Secondary Heated Oxygen Sensor (Secondary HO2S)

The secondary HO2S detects the oxygen content in the exhaust gas downstream of the warm up three way catalytic converter (WU-TWC), and sends signals to the ECM/PCM. To stabilize its output, the sensor has an internal heater. The ECM/PCM compares the HO2S output with the A/F sensor output to determine catalyst efficiency. A secondary HO2S is installed in each bank downstream of the WU-TWC.






Starter Control System Diagram

M/T

The starter control system controls the starter motor.

- When the engine start/stop button pressed to select the START mode, the ECM applies current to starter cut relay 1, and starter cut relay 2, and the +B cut relay is turned on. Then battery voltage is applied to the starter solenoid, and starter motor runs.
- Once the engine start/stop button is released, the ECM keeps the starter motor running until the engine starts. If the ECM detects that the engine starts, the ECM stops applying current to the relays, and the starter motor stops.
- If you press the engine start/stop button to select START mode while the engine is running, the starter motor does not operate.
- In the following cases, the ECM stops the starter motor:
- After the starter motor operates for 10 seconds (to prevent the starter motor from overheating).
- If the engine rpm is too high during starter motor operation.

- If there is a problem with the starter control system, a message appears on the gauge display. When the message is on, the engine can only be started by pressing and holding the engine start/stop button until the engine starts.





A/T

The starter control system controls the starter motor.

- When the ignition switch is turned to START (III), or the engine start/stop button pressed to select the START mode, the PCM applies current to starter cut relay 1 and starter cut relay 2, then battery voltage is applied to the starter solenoid, and starter motor runs.
- Once the ignition switch or the engine start/stop button is released, the PCM keeps the starter motor running until the engine starts. If the PCM detects that the engine starts, the PCM stops applying current to the relays, and the starter motor stops.
- If you turn the ignition switch to START (III), or press the engine start/stop button to select START mode while the engine is running, the starter motor does not operate.
- In the following cases, the PCM stops the starter motor:
- After the starter motor operates for 10 seconds (to prevent the starter motor from overheating).
- If the engine rpm is too high during starter motor operation.

- If there is a problem with the starter control system, a message appears on the gauge display. When the message is on, the engine can only be started by turning and holding the ignition switch in the START (III) position until the engine starts, or pressing and holding the engine start/stop button until the engine starts.