GM Service Manual Online
For 1990-2009 cars only

The body control system consists of the following 2 modules:

    • The instrument panel module (IPM)
    • The rear integration module (RIM)

IPM Overview

The main features of the instrument panel module (IPM) are:

    • The IPM is the gateway between low speed and high speed GMLAN serial data circuits.
    • The IPM is the power mode master.
    • The IPM controls electrical power management.
    • The IPM controls multiple functions.

Gateway

The instrument panel module (IPM) is the gateway between low speed and high speed GMLAN serial data circuits. The purpose of the gateway is to transfer serial data messages from one subnet to another. The IPM shall unpack the signals from frames received from one bus that are to be transmitted across the gateway and repack the signals into frames to be transmitted on the other bus. The IPM shall be responsible for data passing only. The data passed from one bus to the other shall in no way be modified by the IPM gateway function. The IPM receives 3 distinct types of messages on a given bus:

    • Signals the IPM uses for internal functional applications
    • Signals the IPM uses for internal functional applications and are passed from one bus to the other bus
    • Signals the IPM does not use for internal functional applications but are passed from one bus to the other bus

Power Mode

The IPM is the power mode master (PMM). Refer to Power Mode Description and Operation for more information.

Electrical Power Management (EPM)

Load Management

The power management function is designed to monitor the vehicle electrical load and determine when the battery is potentially in a high discharge condition. This is accomplished by using a high accuracy battery voltage and current reading by a current sensor as an indicator of battery discharge rate. The following 6 levels of load management will execute in the load management control algorithm when there is a high discharge condition:

  1. The first action requests a vehicle idle speed increase to the engine control module (ECM) in order to raise alternator output.
  2. The second action requests a greater vehicle idle speed increase to the ECM in order to raise alternator output.
  3. The third action begins to shed vehicle loads in an attempt to remedy the heavy discharge condition.
  4. The fourth action requests another vehicle idle speed increase to the ECM in order to raise further the alternator output.
  5. The fifth action begins to shed further vehicle loads in an attempt to remedy the heavy discharge condition.
  6. If the above 5 corrective actions fail, the sixth action of power management further sheds loads in a final attempt to remedy the high discharge condition.

Loads subject to reduction include the following:

    • The A/C clutch
    • The heated mirrors
    • The heated seats
    • The rear defog
    • The HVAC blowers
    • The interior lighting

For more information about load shedding, refer to Load Shed System Description and Operation .

Each load management function, either idle boost or load-shed, is discrete. No 2 functions are implemented at the same time. During each load management function, the power mode master (PMM) checks the battery temperature, battery voltage and amp-hour calculations and determines if the PMM should implement a different power management function.

Regulator Voltage Control (RVC)

Regulator voltage control (RVC) will result in the battery being charged at its optimum voltage for improved battery life and state of charge (SOC), fuel economy and lamp life by lowering the system voltage when the SOC is high. The electrical power management (EPM) algorithm in the instrument panel module (IPM) will determine the optimum charging voltage, based on estimates of its SOC and battery electrolyte temperature. Optimum charge voltage is defined as the battery charge voltage that results in maximum battery life, while maintaining energy storage for engine starting, discharge at idle, and parasitic loads. The optimum battery charge voltage will be converted to a percent duty cycle command that will be sent to the ECM via serial data link. The ECM will then place the 128 Hz pulse width modulation (PWM) duty cycle on the L line.

Other IPM Functions

The instrument panel module (IPM) performs multiple body control functions. The IPM can control devices directly connected to its outputs based on input information. The IPM evaluates this information and controls certain body control systems by commanding outputs on or off. The IPM inputs can be:

    • Sensors and switches that are directly connected to the IPM
    • GMLAN serial data messages received from other vehicles systems connected to the low or high speed GMLAN serial data links

The IPM is also capable of controlling other vehicle systems that are not directly wired to the IPM, through serial data messages. Some of the functions that the IPM controls or contributes to, are:

    • Audible warnings--Refer to Indicator/Warning Message Description and Operation .
    • Column lock--Refer to Steering Wheel and Column Description and Operation .
    • Exterior lighting control and BASS--Refer to Exterior Lighting Systems Description and Operation .
    • Interior lighting--Refer to Interior Lighting Systems Description and Operation .
    • Headlamp washer--Refer to Headlamp Washer System Description and Operation .
    • Horn control--Refer to Horns System Description and Operation .
    • Park brake switch--Refer to Park Brake System Description and Operation .
    • Personalization--Refer to Personalization Description and Operation .
    • Retained accessory power--Refer to Power Mode Description and Operation .
    • Remote start--Refer to Starting System Description and Operation .
    • Steering wheel control switches--Refer to Radio/Audio System Description and Operation and Cruise Control Description and Operation .
    • Traction control switch--Refer to ABS Description and Operation .

Rear Integration Module (RIM)

The various rear integration module (RIM) inputs and outputs are described in the corresponding functional areas as indicated on the RIM electrical schematics. The RIM functions include the following:

    • Content theft deterrent--Refer to Content Theft Deterrent (CTD) Description and Operation .
    • Interior lighting--Refer to Interior Lighting Systems Description and Operation .
    • Exterior lighting--Refer to Exterior Lighting Systems Description and Operation .
    • Rear defogger--Refer to Rear Window Defogger Description and Operation .
    • Rear park assist chime control--Refer to Object Detection Description and Operation .
    • Sunroof control--Refer to Sunroof Description and Operation .