The engine control module (ECM) controls the engine idle speed by adjusting the position of the idle air control (IAC) valve pintle. The IAC valve is a stepper motor driven by two internal coils. The movement of the IAC valve is controlled electrically by four circuits. Drivers within the ECM control the polarity of the two windings inside the IAC valve through these circuits. The ECM, by commanding the correct polarity in sequence, is able to command the motor within the IAC valve to rotate clockwise or counter clockwise in steps. In order for the armature of the stepper motor of the IAC valve to turn one revolution, it needs to move approximately twenty four steps. The IAC valve motor is linked by a gear drive to the IAC valve pintle. The electrical pulses sent to the IAC valve coils, by the ECM, allows the pintle to extend or retract into the passage in the throttle body. By retracting the pintle, air is allowed to bypass the throttle valve, which will increase air flow and raise engine speed. When the pintle is extended, bypass air is decreased which lowers engine speed. IAC valve movement is measured in counts on the scan tool. Each count is equivalent to a step of the IAC valve. When the IAC valve is fully extended, and seated in the throttle body bore, the scan tool displays zero and the engine speed is slow. As the IAC valve pintle retracts the counts will raise along with engine speed.

The IAC valve the following circuits:

When the ignition switch is turned OFF for more than ten seconds an IAC valve reset occurs. At that time, the ECM commands the IAC valve to extend for a certain period which allows the IAC pintle to seat in the throttle body bore. This position is then sensed as zero count position for the IAC valve by the ECM. It must be observed that the IAC valve position is only sensed by the ECM measuring counts or steps of the driver circuit, there is no direct sensing of its exact position. When this extend time period ends, the ECM then commands the IAC valve to retract a predetermined amount. This will allow for a high engine speed on the next ignition cycle. If for any reason the IAC valve pintle moves after this reset, before the next ignition cycle, the ECM will not be able to detect it and will affect the ability to control engine idle. When the IAC valve is removed for any reason the reset must be performed.

P0506

The actual engine speed is less than the desired idle speed by at least 100 RPM for 10 seconds.

P0507

The actual engine speed is more than the desired idle speed by at least 200 RPM for 10 seconds.

DTCs P0506, and P0507 are Type B DTCs.

DTCs P0506, and P0507 are Type B DTCs.

Schematic Reference

Engine Controls Schematics

Connector End View Reference

Electrical Information Reference

DTC Type Reference

Powertrain Diagnostic Trouble Code (DTC) Type Definitions

Scan Tool Reference

Special Tools Required

J 37027-A Idle Air Control Motor Tester

Allow the engine to idle within the conditions for running the DTCs for 1 minute. DTCs P0506 or P0507 should not set.

1. Ignition OFF, disconnect the harness connector of the idle air control (IAC) valve.
2. Connect the J 37027-A to the IAC valve.
3. Engine running, command the IAC valve in until 600 RPM is reached with the J 37027-A , then command the IAC valve out until 1,800 RPM is reached then lower the idle to 800 RPM. The engine speed should steadily increase and decrease as commanded.

⇒	If the idle does not increase or decrease steadily, verify that one of the following conditions is not present:

•	A clogged IAC passage

•	Excessive deposits on the throttle plate or bore

•	Excessive deposits on IAC valve pintle or bore

•	Restricted air intake system

•	The throttle body for damage and/or tampering

•	Vacuum leaks

•	Malfunctioning PCV valve

⇒	If all conditions test normal, test or replace the IAC valve.

Important: The test lamp is used to load the circuit and may not illuminate.

4. Connect a test lamp between the IAC coil A high control circuit of the IAC valve and the negative terminal of the battery .

Important: This test must be performed on all of the IAC control circuits.

5. Engine running, command the IAC valve out until 1,800 RPM is reached then lower the idle to 800 RPM with the J 37027-A . The test lamp should flash.

⇒	If the test lamp does not illuminate, test the applicable IAC control circuit of the IAC valve for a short to ground or an open/high resistance. If the circuit/connections test normal, replace the ECM.

⇒	If the test lamp does illuminate, but does not flash, test the applicable IAC control circuit of the IAC valve for a short to voltage. If the circuit/connections test normal, replace the ECM.

⇒	If test lamp illuminates and flashes for all of the IAC control circuits, test the IAC coil control circuits of the IAC valve for high resistance. If the circuit/connections test normal, replace the ECM.

1. Measure for 40-80 ohms of resistance between the following terminals of the IAC valve.

•

A and B

•

C and D

⇒	If the resistance is not within the specified range, replace the IAC valve.

2. Test for infinite resistance between the following terminals of the IAC valve.

•

A and C

•

B and C

⇒	If less than infinite resistance, replace the IAC valve.

3. Test for infinite resistance between each terminal of the IAC valve, and the housing of the IAC valve.

⇒	If less than infinite resistance, replace the IAC valve.

Perform the Diagnostic Repair Verification after completing the diagnostic procedure.