Camaro V8-305 5.0L VIN F FI (1985)
Fig. 040 - WIRING DIAGRAM for Chart C-2C Idle Air Control. VIN F, VIN S
CHART C-2C
IDLE AIR CONTROL, 2.8L & 5.0L "F" SERIES
The ECM will control engine idle speed by moving the IAC valve to control air flow around the throttle plate. It does this by sending voltage pulses to
the proper motor winding for each IAC motor. This will cause the motor shaft and valve to move "IN" or "OUT" of the motor a given distance for each
pulse received. ECM pulses are referred to as "counts".
a.
To increase idle speed - ECM will send enough counts to retract the IAC valve and allow more air to flow through the idle air passage and bypass
the throttle plate until idle speed reaches the proper RPM. This will increase the ECM counts.
b.
To decrease idle speed - ECM will send enough counts to extend the IAC valve and reduce air flow through the idle passage around the throttle
plate. This will reduce the ECM counts.
Each time the engine is started and then the ignition is turned off the ECM will reset the IAC valve. This is done by sending enough counts to seat the
valve. The fully seated valve is the ECM reference Zero. A given number of counts are then issued to open the valve, and normal ECM control of IAC
will begin from this point. The number of counts are then calculated by the ECM. This is how the ECM knows what the motor position is for a given idle
speed.
The ECM uses the following information to control idle speed.
a. Battery voltage
b. Coolant Temperature
c. Mass Air flow (MAF)
d. Throttle Position Sensor
e. Engine Speed
f.
A/C clutch signal
g. Power Steering Pressure Switch (2.8L)
Don't apply battery voltage across the IAC motor terminals. It will permanently damage the IAC motor windings.
1.
Be sure to disconnect the IAC valve prior to this test. The test light will confirm the ECM signals by a steady or flashing light, all circuits.
2.
Before replacing an ECM, be sure to check the resistance at the IAC motor windings. Failure to do so may result in a repeat ECM failure.
3.
Diagnostic Aids
Engine idle speed can be adversely affected by the following:
a. Park/Neutral Switch - If ECM thinks the car is always in neutral, then idle will not be controlled to the specified RPM when in drive range.
b. Leaking injector(s) will cause fuel imbalance and poor idle quality due to excess fuel. See Chart A-7
c. Vacuum or crankcase leaks can affect idle.
d. When the throttle shaft or throttle position sensor is binding or sticking in an open throttle position, the ECM does not know if the vehicle has
stopped and does not control idle.
e. Check Air management system for intermittent air to ports while in closed loop.
f.
In addition to electrical control of EGR, be sure to examine the EGR valve for proper seating.
g. Faulty battery cables can result in voltage variations. The ECM will try to compensate, which results in erratic idle speeds.
h. The ECM will compensate for A/C compressor clutch loads. Loss of this signal would be most apparent in neutral.
i.
Power Steering Pressure Switch - If the ECM thinks the Pressure Switch is closed the idle may be too high.
j.
Contaminated fuel can adversely affect idle.
k. Perform injector balance test CHART C-2A.
