The crankshaft position (CKP) sensor and the camshaft position (CMP) sensor are used in order to detect an engine misfire. The VCM monitors the speed of the crankshaft. The VCM detects a deceleration of the crankshaft that is not associated with a normal engine speed reduction. In order to determine if a misfire occurred, the VCM compares the deceleration information to the engine speed and the engine load. If a misfire event is determined, the VCM compares the crankshaft position to the cam sensor signal in order to determine which cylinder misfired. The VCM stores the information in separate accumulators for each cylinder. Upon completion (or failure) of the test, the VCM evaluates the number of misfires in each accumulator. If the accumulators are somewhat even or if 3 or more cylinders are misfiring, then this determines that a random misfire has occurred. The VCM also utilizes the input from the ABS wheel speed sensor in order to determine if a rough road condition exists which could cause a crankshaft acceleration and deceleration. If a rough road condition exists, the diagnostic will not run. This DTC is a type B DTC.
• | No TP sensor DTCs |
• | No MAF sensor DTCs |
• | No Crankshaft Position sensor DTCs |
• | No Camshaft Position sensor DTCs |
• | The ECT is greater than or equal to -7°C |
• | The engine speed between 600 RPM and 5600 RPM |
• | The system voltage between 9 volts and 14 volts |
• | The positive throttle position change is less than 4.9% for 100 msec. |
• | The negative throttle position change is less than 2.9% for 100 msec. |
If the VCM determines that the engine misfire is significant enough to have a negative impact on emissions, the VCM turns ON the malfunction indicator lamp (MIL) after the misfire has been detected on 2 non-consecutive trips under the same operating conditions. If the misfire is severe enough that catalytic converter damage could result, the MIL flashes while the misfire is present.
The VCM turns OFF the MIL after 3 consecutive driving trips without a fault condition present. A history DTC will clear if no fault conditions have been detected for 40 warm-up cycles (the coolant temperature has risen 22°C (40°F) from the start-up coolant temperature and the engine coolant temperature exceeds 71°C (160°F) during that same ignition cycle) or the scan tool clearing feature has been used.
The Misfire Index counts the number of misfires. The scan tool can monitor the Misfire Index. There is a current and history misfire counter for each cylinder. Use the current misfire counter in order to determine which cylinder is misfiring.
Many different condition could cause an intermittent misfire.
Check for the following conditions:
• | Ensure that the spark plug wires are securely attached to the spark plugs and the distributor cap. |
• | Check the wire routing in order to ensure that crossfiring is not occurring. |
• | If the misfire occurs when the weather is damp, the problem could be due to worn plug wires. |
• | In order to test for this condition, spray the wires with water and with the engine running, watch for spark to jump from the wires. If a spark is visible, replace the wires. |
• | Check the fuel condition and quality. Dirty or contaminated fuel could cause a misfire condition. |
• | If the fuel level is low, contaminants in the bottom of the fuel tank could enter into the fuel metering system. |
For more information, refer to fuel supply system.
The numbers below refer to the step numbers in the diagnostic table.
In order to duplicate the conditions under which the misfire occurred, it may be necessary to drive the vehicle and monitor the scan tool DTC Present This Ignition Cycle variable.
When checking the spark at the spark plug wires, the spark should be consistent. A few sparks then nothing is no spark.
At this point the ignition system is OK and the problem may exist in the fuel system. Perform the Fuel System Diagnosis in order to determine the cause of the problem. This test determines if the poppet nozzles are functioning properly.
At this point, both the ignition system and the fuel system are OK. The problem is caused by a mechanical problem in the engine.
Step | Action | Value(s) | Yes | No |
---|---|---|---|---|
1 |
Important: Before clearing the DTCs use the scan tool to record freeze frame and failure records for reference, as data will be lost when Clear Info function is used. Was the Powertrain On-Board Diagnostic (OBD) System Check performed? | -- | ||
2 | Are there any other DTCs stored? | -- | ||
3 | Refer to the Applicable DTC Table. Is the action complete? | -- | -- | -- |
4 |
Is the MAP sensor voltage greater than the specified value? | 4.0V | Go to DTC P0108 Manifold Absolute Pressure (MAP) Sensor Circuit High Voltage | |
Duplicate the conditions at which the misfire occurred. Is the DTC active at the ignition cycle? | -- | |||
Was the spark adequate on all of the spark plug wires? | -- | |||
7 | Inspect the spark plugs for wear, excessive air gaps, cracks, or fouling. Are the spark plugs OK? | -- | ||
Refer to Injector Circuit Diagnosis . Is the fuel system OK? | -- | |||
Problem is engine mechanical. Refer to Engine Mechanical for details on diagnosis. | -- | -- | -- | |
10 |
The misfire intermittent is currently not active. Refer to the Diagnostic Aids. | -- | -- | -- |
11 | Refer to Enhanced Ignition System Check. | -- | -- | -- |
12 | Replace the spark plugs. Is the action complete? | -- | -- | |
13 | Make repairs as indicated by the Fuel System Pressure Test. Refer to Injector Circuit Diagnosis . Is the action complete? | -- | -- | |
14 |
Does the scan tool indicate that this diagnostic ran and passed? | -- | ||
15 | Using the scan tool, select Capture Info, Review Info. Are any DTCs displayed that have not been diagnosed? | -- | Go to The Applicable DTC Table | System OK |