The VCM controls idle RPM with the IAC valve. To increase idle RPM, the VCM retracts the IAC pintle from the seat, allowing more air to bypass the throttle plate. To decrease RPM, it extends the IAC pintle valve in towards the seat, reducing air flow through the IAC valve port in the throttle body. A scan tool will read the VCM commands to the IAC valve in counts. The higher the counts, the more air allowed (higher idle). The lower the counts, the less air allowed (lower idle).

1. Turn ON the ignition, with the engine OFF for 5 seconds.
2. Turn OFF the ignition for 10 seconds.
3. Start the engine and check for proper operation.

1. Turn ON the ignition, with the engine OFF.
2. Install a scan tool.
3. Select F4 Misc. Tests.
4. Select F3 IAC System.
5. Select F1 IAC Reset.
6. Use up arrow to reset IAC.

A slow, unstable, or fast idle may be caused by a non-IAC system problem that cannot be overcome by the IAC valve. The following checks should be made to repair a non-IAC system problem.

Important: If for some reason the air intake to the engine is restricted, the VCM will attempt to compensate by backing out the IAC pintle to maintain desired idle. If the engine has another source of air to the intake, the VCM will compensate by extending the IAC pintle, scan IAC counts may reach zero as the VCM tries to maintain desired idle.

The Diagnostic Tables incorporate diagnosis procedures using a scan tool where possible.

The scan tool saves time in diagnosis. The scan tool also prevents the replacement of good parts. In order to use the scan tool successfully for diagnosis, the technician must understand the system being diagnosed as well as understanding the tool's limitations.

Refer to Vehicle Control Module .

In order to read the DTCs, use a scan tool. The technician cannot flash the DTCs by grounding the DLC.

In order to clear the DTCs from the memory, use the scan tool.

If a diagnostic table indicates that a VCM connection or the VCM is the cause of a problem and the technician replaces the VCM but the problem is not eliminated, one of the following items may be the reason.

1. After replacing the VCM, the EEPROM was not reprogrammed correctly. Refer to EEPROM Programming for V6 applications. Refer to EEPROM Programming for V8 applications.
2. A problem may exist with the VCM terminal connections: In order to check the connections properly, remove the terminals from the connections.

The VCM is not correct for the application: The incorrect components may cause a malfunction and may or may not set a DTC.

3. The problem is an intermittent. Make a careful physical inspection of all portions of the system involved. Refer to Important Preliminary Checks for V6 applications. Refer to Important Preliminary Checks for V8 applications.
4. A shorted solenoid, relay coil or harness may exist: The VCM turns the solenoids and relays on and off by the VCM using an internal electronic switches called drivers. Each driver is a part of a group of 4 called quad-drivers. Failure of 1 driver can damage any other driver in the set.
5. The replacement VCM may be faulty: After replacing the VCM, recheck the system for proper operation. If the diagnostic table again indicates that the VCM is the problem, substitute a known good VCM.

A shorted solenoid, relay coil, or harness will not damage the quad drivers in the VCM. A shorted solenoid, relay coil, or harness will cause the circuit and the controlled component to be inoperative.

When the circuit fault is not present or the technician has repaired the fault, the quad driver will again operate in a normal manner due to its fault protected design.

If the technician has repaired a fault in the a circuit controlled by a quad-driver, reinstall the original VCM. Check the circuit for proper operation.

A VCM replacement is not necessary if the repaired circuit or component operates correctly.

A J 39200 tester provides a fast, accurate means of checking for a shorted coil or a short to battery voltage.