The Powertrain OBD System Check is an organized approach to identifying a problem created by an electronic engine control system malfunction. The Powertrain OBD System Check is the starting point for any driveability concern diagnosis. The Powertrain OBD System Check directs the service technician to the next logical step in diagnosing a concern. Understanding and using the table correctly will reduce the diagnostic time and prevent the replacement of good parts.
Do not perform this check if no driveability concern exists. A driveability condition includes all powertrain control module (PCM) controlled systems and components.
For automatic transmission DTCs, refer to Diagnostic Trouble Code (DTC) List/Type in Automatic Transmission. The DTCs associated with the automatic transmission are:
• | DTCs P0502 and P0503. |
• | Any 700 (except DTC P0704) and 1800 series DTCs (i.e. DTC P07XX and P18XX). |
For Domestic and Export DTC Types, refer to Diagnostic Trouble Code (DTC) List/Type .
This vehicle is equipped with a powertrain control module (PCM) utilizing an electrically erasable programmable read only memory (EEPROM). Program the new PCM when diagnostics call for replacement of the PCM. When the PCM is replaced, the following must be performed.
• | The PCM must be programmed. Refer to Powertrain Control Module Replacement/Programming . |
• | The CKP System Variation Learn Procedure. Refer to Crankshaft Position System Variation Learn . |
• | The Idle Learn Procedure. Refer to Idle Learn . |
• | The Engine Oil Life Monitor reset procedure. Refer to Engine Oil Life Monitor Reset . |
When the PCM power is interrupted or the PCM is reprogrammed, the Idle Learn must be performed.
• | If an intermittent condition exists, inspect the PCM wiring harnesses for improper installation of electrical components. Inspect for aftermarket theft deterrent devices, lights, and cellular phones. Ensure that no aftermarket equipment is connected to the Class 2 circuit. A cellular phone signal communication may cause an intermittent condition. |
• | The following may cause an intermittent: |
- | Poor connections: Refer to Testing for Intermittent Conditions and Poor Connections in Wiring Systems. |
- | Corrosion |
- | Mis-routed harness |
- | Rubbed through wire insulation |
- | Broken wire inside the insulation |
• | If multiple DTCs are set, inspect the IGN relay for proper operation. The following components are powered by the IGN relay: |
- | Injectors and ignition coils |
- | A/C system |
- | Transmission |
- | EVAP solenoid and EVAP vent valve |
- | MAF sensor |
- | Heated oxygen sensors |
• | For an intermittent, refer to Symptoms . |
The numbers below refer to the step numbers on the diagnostic table.
Use a properly functioning scan tool with the diagnostic tables in this section. DO NOT use the Clear Info function unless instructed by a diagnostic procedure.
An Ignition 1 voltage that is too low may cause the following conditions:
• | A no start |
• | Stalling |
• | High idle |
• | An inoperative scan tool |
This step determines if a DTC is set for the Vehicle Theft Deterrent (VTD) system. A VTD DTC set causes a no start condition.
If multiple DTCs are stored, diagnose in the following order of priority:
1. | PCM failure DTCs (P0601, P0602, P0604) |
2. | System Voltage DTCs |
3. | Component level DTCs (Sensors, Solenoids, Relays etc.). Multiple DTCs within this category should be diagnosed in numerical order starting with the lowest numbered DTC. |
4. | System level DTCs (Misfire, Fuel Trim, etc.) |
For Automatic Transmission DTCs, refer to Diagnostic Trouble Code (DTC) List/Type in Automatic Transmission.
It is beneficial to review the Freeze Frame Data and/or Fail Records. Use the odometer information and the fail counter in order to determine how frequently and how recently the DTC set. This information and the other operating conditions when the DTC set may help diagnose an intermittent condition. Capturing the stored info preserves data that the PCM will lose when instructed to Clear Info at the end of a diagnostic table, or if you disconnect the PCM or replace the PCM during a diagnostic procedure. The scan tool stores the data in the scan tool's memory. Review the captured info at the end of the diagnostic procedure in order to catch the next DTC in the event there are multiple DTCs stored. Follow the order of priority as listed above.
Step | Action | Value(s) | Yes | No | ||||||
---|---|---|---|---|---|---|---|---|---|---|
Important:
Does the scan tool power-up? | -- | Go to Scan Tool Does Not Power Up in Data Link Communications | ||||||||
2 |
Important: Save or capture the Freeze Frame and/or Failure Records information if the PCM displays data. Does the scan tool display PCM data? | -- | Go to Scan Tool Does Not Communicate with Class 2 Data Line in Data Link Communications | |||||||
Important: If the starter does not engage, refer to Diagnostic Starting Point - Engine Electrical in Engine Electrical. Monitor the Ignition 1 voltage using a scan tool while cranking the engine, or while the engine is operating. Is the Ignition 1 voltage near the specified voltage? | B+ | |||||||||
4 | Does the engine start and continue to run? | -- | ||||||||
Is DTC P1626 stored? | -- | |||||||||
Monitor the DTC information using a scan tool. Are any DTCs displayed? | -- | Go to the applicable DTC table | ||||||||
Compare the scan tool data with the values shown in the Scan Tool Data List . Are the values normal or within typical ranges? | -- | Go to Symptoms | Go to Diagnostic Aids and Test Descriptions |