DTC P0122: Throttle Position Sensor #1 Low: Testing
- Turn ignition on, engine not running. With the DRBIII®, read the TP Sensor voltage. Is the voltage below 0.2 volt? If yes, go to next step. If no, go to step 10.
- Turn the ignition off. Disconnect the TP Sensor harness connector. Turn ignition on, engine not running. Measure the voltage of the 5-Volt Supply circuit at the TP Sensor harness connector. Is the voltage between 4.5 and 5.2 volts? If yes, go to next step. If no, go to step 7.
- Turn ignition on, engine not running. With the DRBIII®, monitor the TP Sensor voltage. Is the voltage above 4.5 volts? If yes, replace the TP Sensor. If no, go to next step.
- Turn the ignition off. Disconnect the PCM harness connectors. Measure the resistance between ground and the TP Sensor Signal circuit at the TP Sensor harness connector. Is the resistance below 100 ohms? If yes, repair the short to ground in the TP Sensor Signal circuit. If no, go to next step.
- Measure the resistance between the TP Sensor Signal circuit and the Sensor Ground circuit at the TP Sensor harness connector. Is the resistance below 100 ohms? If yes, repair the short between Sensor Ground circuit and the TP Sensor Signal circuit. If no, go to next step.
- There are no possible causes remaining, replace PCM. Program the new PCM. See PROGRAMMING .
- Turn the ignition off. Ensure TP Sensor is disconnected. Disconnect the PCM harness connectors. Measure the resistance between ground and the 5-Volt Supply circuit in the TP Sensor harness connector. Is the resistance below 100 ohms? If yes, repair the short to ground in the 5-Volt Supply circuit. If no, go to next step.
- Turn the ignition off. Disconnect the PCM harness connectors. Measure the resistance of the TP Sensor Signal circuit from the TP Sensor harness connector to the appropriate terminal of the Miller Special Tool. Measure the resistance in the 5-Volt Supply circuit from the TP Sensor harness connector to the appropriate terminal of the Miller Special Tool. Is the resistance below 5.0 ohms? If yes, go to next step. If no, repair the open in the 5-Volt Supply circuit.
- There are no possible causes remaining, replace PCM. Program the new PCM. See PROGRAMMING .
- Turn ignition on, engine not running. With the DRBIII®, monitor the TP Sensor voltage. Slowly open the throttle from the idle position to the wide open throttle position. Does voltage start at approximately 0.8 volt and go above 3.5 volts with a smooth transition? If yes, go to next step. If no, replace the TP Sensor.
- The conditions that set the DTC are not present at this time. The following may help in identifying the intermittent condition. With the engine running at normal operating temperature, monitor the DRBIII® parameters related to the DTC while wiggling the wiring harness. Look for parameter values to change and/or a DTC to set. Review the DRBIII® Freeze Frame information. If possible, try to duplicate the conditions under which the DTC was set. Refer to any Technical Service Bulletins (TSB) that may apply. Visually inspect the related wiring harness. Look for any chafed, pierced, pinched, or partially broken wires. Visually inspect the related wiring harness connectors. Look for broken, bent, pushed out, or corroded terminals. Look for parameter values to change and/or a DTC to set. Were any of the above conditions present? If yes, repair as necessary. If no, test is complete.
NOTE:
Before continuing, check the PCM harness connectors for corrosion, damage or terminal push out. Repair as necessary.
CAUTION:
Do not probe the PCM harness connectors. Probing the PCM harness connectors will damage the PCM terminals resulting in poor terminal-to-pin connection. Use Miller Special Tool (8815) when performing diagnosis at PCM harness connectors.
NOTE:
Before continuing, check the PCM harness connectors for corrosion, damage or terminal push out. Repair as necessary.
WARNING:
When the engine is operating, do not stand in a direct line with the fan. Do not put your hands near the pulleys, belts or fan. Do not wear loose clothing.