Gauges and Indicators
Gauges and IndicatorsHow the Circuit Works
The indicators are controlled by relative conditions in their associated systems
Refer to each associated system to see its entire schematic.
Coolant Temperature Gauge
The coolant temperature gauge is controlled by the power supply circuit/controller area network controller built-into the gauge control module. The power supply circuit/controller area network controller receives coolant temperature information from the PCM. The PCM receives coolant temperature information from the ECT sensor.
Fuel Gauge and Low Fuel Indicator
WARNING: Do not smoke while working on the fuel system. Keep open flame away from the work area. Drain fuel only into an approved container.
The fuel gauge and low fuel indicator are controlled by the power supply circuit/controller area network controller built-into the gauge control module. The power supply circuit/controller area network controller receives fuel level information from the fuel gauge sending unit.
The fuel gauge sending unit's resistance varies from about 11 - 13 ohms at full to about 130 - 132 ohms at empty. The fuel level current changes with the varying resistance, which enables the power supply circuit/controller area network controller to determine the level of the fuel. When the power supply circuit/controller area network controller determines that the fuel level is low, it turns the low fuel indicator on. When the ignition switch is turned to LOCK (0), the gauge returns to the bottom of the gauge dial regardless of the fuel level.
Speedometer
The speedometer is controlled by the power supply circuit/controller area network controller built-into the gauge control module. The power supply circuit/controller area network controller receives pulses from the PCM. The pulse rate increases as the car accelerates. The power supply circuit/controller area network controller measures the frequency and duration of these input pulses and converts the pulses into mph readings.
Tachometer
The tachometer is controlled by the power supply circuit/controller area network controller built-into the gauge control module. The power supply circuit/controller area network controller receives pulses from the PCM. The pulse rate increases as the engine speed increases. The main circuit measures the frequency and duration of these input pulses and converts the pulses into engine rpm readings.