GM Service Manual Online
For 1990-2009 cars only

The body control system consists of a BCM and it's associated controls. Battery positive voltage is provided to the BCM from CLSTR fuse in the Fuse Block-left I/P. The module ground is wired to ground G201. The BCM is wired to the Class 2 serial data communication bus as well as discreet input and output terminals to control the functions of the vehicles body .

Serial Data Power Mode

On vehicles that have several control modules connected by serial data circuits, one module is the Power Mode Master, PMM. On this vehicle the PMM is the BCM. The PMM receives 2 signals from the ignition switch.

To determine the correct power mode the PMM uses the following circuits:

    • Accessory voltage
    • Ignition 1 voltage

Fail-safe Operation

Since the operation of the vehicle systems depends on the power mode, there is a fail-safe plan in place should the PMM fail to send a power mode message. The fail-safe plan covers those modules using exclusively serial data control of power mode as well as those modules with discrete ignition signal inputs.

Serial Data Messages

The modules that depend exclusively on serial data messages for power modes stay in the state dictated by the last valid PMM message until they can check for the engine run flag status on the serial data circuits. If the PMM fails, the modules monitor the serial data circuit for the engine run flag serial data. If the engine run flag serial data is True, indicating that the engine is running, the modules fail-safe to RUN. In this state the modules and their subsystems can support all operator requirements. If the engine run flag serial data is False, indicating that the engine is not running, the modules fail-safe to OFF-AWAKE. In this state the modules are constantly checking for a change status message on the serial data circuits and can respond to both local inputs and serial data inputs from other modules on the vehicle.

Discrete Ignition Signals

Those modules that have discrete ignition signal inputs also remain in the state dictated by the last valid PMM message received on the serial data circuits. They then check the state of their discrete ignition input to determine the current valid state. If the discrete ignition input is active, battery positive voltage, the modules will fail-safe to the RUN power mode. If the discrete ignition input is not active, open or 0 voltage, the modules will fail-safe to OFF-AWAKE. In this state the modules are constantly checking for a change status message on the serial data circuits and can respond to both local inputs and serial data inputs from other modules on the vehicle.

BCM Wake-up/Sleep States

The BCM is able to control or perform all of the BCM functions in the wake-up state. The BCM enters the sleep state when active control or monitoring of system functions has stopped, and the BCM has become idle again. The BCM must detect certain wake-up inputs before entering the wake-up state. The BCM monitors for these inputs during the sleep state, where the BCM is able to detect switch transitions that cause the BCM to wake-up when activated or deactivated. Multiple switch inputs are needed in order to sense both the insertion of the ignition key and the power mode requested. This would allow the BCM to enter a sleep state when the key is IN or OUT of the ignition.

The BCM will enter a wake-up state if any of the following wake-up inputs are detected:

    • Activity on the serial data line.
    • Detection of a battery disconnect and reconnect condition.
    • Headlamps are on.
    • Ignition is turned ON.
    • Key-in-ignition switch.
    • Parklamps are on.

The BCM will enter a sleep state when all of the following conditions exist:

    • Ignition switch is OFF.
    • No activity exists on the serial data line.
    • No outputs are commanded.
    • No delay timers are actively counting.
    • No wake-up inputs are present.

If all these conditions are met the BCM will enter a low power or sleep condition. This condition indicates that the BCM, which is the PMM of the vehicle, has sent an OFF-ASLEEP message to the other systems on the serial data line.

Body Control Module

The various BCM input and output circuits are described in the corresponding functional areas indicated on the BCM electrical schematics. The Body Control Module functions include the following.

    • Retained Accessory Power, RAP, Audio System only. Refer to Retained Accessory Power (RAP) Description and Retained Accessory Power (RAP) Operation
    • A/C compressor request. Refer to HVAC Compressor Controls Circuit Description
    • Remote Function Control. Refer to Keyless Entry System Description and Keyless Entry System Operation
    • A/C cooling Fan. Refer to HVAC Blower Controls Circuit Description
    • Exterior and interior lighting control, Refer to Exterior Lights Circuit Description and Lighting System Operation
       - Daytime running lights (DRL)
       - Automatic lighting control
       - Fog lamps
    • Interior lighting. Refer to Interior Lights Circuit Description and Lighting System Operation
    • Battery rundown protection (Inadvertent Power). Refer to Interior Lights Circuit Description and Lighting System Operation
    • Chimes. Refer to Audible Warnings Description , Audible Warnings Circuit Description and Audible Warnings Operation
       - Key In Ignition
       - Head Lamps On
       - Seat Belt Not Fastened
       - Turn Signal On
       - Park Brake Warning
       - Door Ajar Warning
       - Check gauges
    • Gauge control. Refer to Instrument Cluster Circuit Description and Instrument Cluster Operation
    • Instrument cluster indicator control. Refer to Instrument Cluster Circuit Description and Instrument Cluster Operation
    • Theft deterrent. Refer to Vehicle Theft Deterrent (VTD) Description , Content Theft Deterrent (CTD) Circuit Description , Content Theft Deterrent (CTD) Operation and Content Theft Deterrent (CTD) Description
    • Engine coolant level sensing. Refer to Cooling System Description
    • Key-in-ignition sensing. Refer to Audible Warnings Description , Audible Warnings Circuit Description and Audible Warnings Operation
    • Brake fluid level sensing. Refer to Brake Warning System Operation
    • Parking brake state sensing. Refer to Brake Warning System Operation
    • Rear compartment interface. Refer to Power Door Locks Circuit Description and Power Door Locks Operation
    • Horn interface. Refer to Horns Circuit Description
    • Door lock interface. Refer to Power Door Locks Circuit Description and Power Door Locks Operation
    • Bulb Check. Refer to Instrument Cluster Circuit Description and Instrument Cluster Operation
    • ETS -Pontiac Only. Refer to ABS Description and ABS Operation
    • A/T Shift lock control. Refer to Automatic Transmission Shift Lock Control Circuit Description