Rough, Unstable, or Incorrect Idle, Stalling
Checks
| Action
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DEFINITION: The engine runs unevenly at idle. If severe, the engine or vehicle
may shake. The engine idle speed may vary in RPM. Either condition may stall the engine.
The engine idles at an incorrect speed.
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Preliminary Check
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Sensor Checks
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• | Inspect the heated oxygen sensors (HO2S) 1 and HO2S 2 for
a condition that can affect sensor activity and response. Refer to Diagnostic Aids
in
DTC P0130
. |
• | Inspect the throttle position (TP) sensor. A sticking throttle shaft or
a binding throttle linkage will causes a high TP sensor voltage. Under these conditions
the powertrain control module (PCM) may not control the idle. Monitor the TP sensor
angle with the scan tool. The indicated angle should be approximately 9-14 percent
with the throttle closed. |
• | Check the accelerator pedal position (APP) sensor. First observe the APP
sensor 1 voltage with the scan tool. The indicated voltage should be approximately
0.5-1.1 volts with the throttle closed. Next check the APP sensor 2
voltage with the scan tool. The indicated voltage should be approximately 1.2-2 volts
with the throttle closed. |
• | Inspect the engine coolant temperature (ECT) sensor. A fixed or inaccurate
ECT sensor reading can cause the engine idle to surge or race. Using the scan tool,
compare the ECT with the ambient air temperature on a cold engine. If the engine coolant
is 5°C (9°F) more than or 5°C (9°F) less than the ambient air temperature,
inspect the resistance of the coolant sensor. Refer to
Temperature Versus Resistance
. If the ECT is significantly less than the ambient
air temperature, inspect the coolant sensor electrical circuit for high resistance. |
• | Inspect the mass air flow (MAF) sensor operation. Run the engine to normal
operating temperature. Turn OFF all accessories and observe the MAF sensor at idle
with a scan tool. If the MAF sensor reading is more than 3.5 g/s refer to
DTC P0101
. If the MAF sensor reading is less than 1.0 g/s,
inspect for a vacuum leak between the MAF sensor and the engine. |
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Fuel System Checks
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• | Inspect the operation of the fuel system for rich or lean condition. Operate
the vehicle under the conditions that caused the concern. Monitor the Fuel Trim parameter
on a scan tool in order to identify the problem. |
- | Lean--The Long Term Fuel Trim will be more than 20 percent.
Refer to Diagnostic Aids in
DTC P0171
. |
- | Rich--The Long Term Fuel Trim will be less than -20 percent.
Refer to Diagnostic Aids in
DTC P0172
. |
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Ignition System Checks
|
• | Test for the proper secondary voltage output with a
J 26792
Spark Tester. |
• | Inspect the spark plugs for correct operation and good ignition system
performance. Refer to
Spark Plug Inspection
. |
• | Inspect the ignition coil boots for damage. |
• | Observe the IAC Motor Command parameter on the scan tool at idle, while
operating the rear defogger, the A/C system, or the headamps. The IAC Motor Command
parameter should increase 2-7 percent when operating the engine loads.
If the IAC Motor Command parameter remains fixed, check for a short to ground in the
Diagnostic Request circuit from the PCM to terminal 13 of the data link connector
(DLC). |
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Engine Mechanical Check
|
• | Inspect for the following engine mechanical conditions: |
- | Faulty hydraulic lifter assemblies |
- | Broken or weak valve springs |
- | Sticking or leaking valves |
- | Incorrect or worn camshaft |
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Additional Checks
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• | Inspect for vacuum leaks. Vacuum leaks can cause a higher than normal
idle speed. |
• | Inspect the battery cables and the ground straps. They should be clean
and secure. |
• | The engine will run rough and the engine can stall if the camshaft position
(CMP) actuator solenoid is advancing camshaft timing at idle. Inspect for a fully
energized or stuck CMP actuator solenoid. If the operation of the CMP actuator solenoid
is suspect, refer to
DTC P0012
. |
• | Inspect for broken or worn motor and transmission mounts. |
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