Diagnostic Instructions
DTC Descriptor
DTC C0392 01: Rotational Position Sensor Circuit Short to Battery
DTC C0392 02: Rotational Position Sensor Circuit Short to Ground
DTC C0392 08: Rotational Position Sensor Circuit Signal Invalid
Diagnostic Fault Information
Circuit
| Short to Ground
| Open/High Resistance
| Short to Voltage
| Signal Invalid
|
Rotational Position Sensor Circuit
| DTC C0392 02
| --
| DTC C0392 01
| DTC C0392 08
|
Circuit/System Description
The transfer case shift control module has an input from the transfer case two/four wheel drive actuator position sensor otherwise know as a rotational position sensor (RPS). This sensor sends the transfer case control module a pulse width modulated
signal which will vary constantly indicating the position of the transfer case actuator. This sensor also receives a 5-volt reference signal from the transfer case control module. This sensor works in conjunction with the incremental sensor which is inside
the transfer case actuator. This sensor is more sensitive then the incremental position sensor and indicates the exact position of the transfer case actuator, showing the transfer case control module when the transfer case is between modes or ranges. It can
also show how much clutch activation is being commanded at any time.
Conditions for Running the DTC
• | System voltage is 10.5-18 volts. |
Conditions for Setting the DTC
• | The transfer case control module sees a PWM (RPS) voltage that does not constantly change but remains high 5 volts or above indicating a short to voltage. Or it may remain low indicating a short to ground 05. volts or less. |
• | The module does not receive a 5-volt reference of 4.8-5.2 volts. |
• | The RPS low reference circuits has an open or high resistance causing a low voltage situation. |
Action Taken When the DTC Sets
• | All shifting is disabled until the condition no longer exists. |
• | The SERVICE 4WD indicator remains illuminated for the remainder of the current ignition cycle. |
Conditions for Clearing the DTC
• | The transfer case shift control module clears the DTC if the condition for setting the DTC is not currently present. |
• | A history DTC clears after 40 consecutive warm up cycles without a fault present. |
• | History DTCs can be cleared using a scan tool. |
Reference Information
Schematic Reference
Transfer Case Control Schematics
Connector End View Reference
Transfer Case Control Connector End Views
Electrical Information Reference
DTC Type Reference
DTC Symptom Description
Scan Tool Reference
Diagnostic Aids
A RPS signal voltage that remains low 0.5 or lower indicates a short to ground on the RPS signal voltage circuit. It can also indicate an open or high resistance on the RPS low reference signal circuit.
Circuit/System Testing
The RPS 5-volt reference circuit, RPS low reference circuit, and RPS sensor signal circuits should be checked for shorts to ground, shorts to voltage, and opens or high resistance.
- With the ignition on check the RPS 5-volt reference signal on the RPS connector pin 8 with the connector disconnected using a DMM.
⇒ | The DMM should indicate 4.8-5.2 volts, if the voltage is low check for an open or high resistance or short to ground. If the voltage indicates the voltage is over the specification check for a short to voltage. If the circuit
checks good replace the transfer case control module, program, and complete the motor learn procedure. If the circuit checks good with the RPS disconnected, connect the RPS and see if the DTC still show as current. If it does proceed to the next step. |
- With the transfer case shift control module connector X1 and X2 disconnected and the RPS disconnected check the RPS signal circuit and the RPS low reference circuits for shorts to ground, high resistance, or shorts to voltage.
⇒ | If a shorting condition has been found then repair the circuits as necessary. If nothing is found in circuit testing then replace the RPS, and perform the motor learn procedure. |
Repair Instructions
Perform the
Diagnostic Repair Verification after completing the diagnostic procedure.