Adaptive Damping Control Module (SUMB): DTCs
ADAPTIVE DAMPING CONTROL MODULE (SUMB) DTCs
| DTC | Description | Possible Causes | Action |
|---|---|---|---|
| C101D-12 | Left Front Vertical Acceleration Sensor - Circuit short to battery |
|
Refer to the electrical circuit diagrams and check left front vertical acceleration sensor circuit for short to power or another circuit. Repair circuit, clear the DTC and retest the system. |
| C101D-14 | Left Front Vertical Acceleration Sensor - Circuit short to ground or open |
|
Refer to the electrical circuit diagrams and check front vertical acceleration sensor circuit for short to ground, open circuit. If no fault found on wiring suspect sensor. Replace sensor, clear DTC and retest the system. |
| C101D-22 | Left Front Vertical Acceleration Sensor - Signal amplitude > maximum |
|
With vehicle parked on a level surface, read left front vertical accelerometer voltage and check it lies in range 1.9 to 2.1 volts. If not OK then check electrical wiring for shorts, loose connections and repair as required. If wiring OK then suspect faulty sensor/incorrectly installed sensor. Check the sensor is correctly mounted, secure or renew sensor as required. Refer to the new module/component installation note at the top of the DTC Index, clear DTC and retest system. |
| C101D-26 | Left Front Vertical Acceleration Sensor - Signal rate of change below threshold |
|
Refer to the electrical circuit diagrams and check left front vertical accelerometer signal circuit for faults, if circuit is correct suspect faulty sensor, refer to the new module/component installation note at the top of the DTC Index. Replace the sensor, clear the DTC and retest the system. |
| C101D-78 | Left Front Vertical Acceleration Sensor - Alignment or adjustment incorrect |
|
Check left front vertical accelerometer for location and security, if correct suspect faulty Accelerometer, refer to the new module installation note at the top of the DTC Index. Replace the sensor/bracket as required, clear the DTC and retest the system. |
| C101E-12 | Right Front Vertical Acceleration Sensor - Circuit short to battery |
|
Refer to the electrical circuit diagrams and check right front vertical acceleration sensor circuit for short to power or another circuit. Repair circuit, clear the DTC and retest the system. |
| C101E-14 | Right Front Vertical Acceleration Sensor - Circuit short to ground or open |
|
Refer to the electrical circuit diagrams and check right front vertical acceleration sensor circuit for short to ground, open circuit. If no fault found on wiring suspect sensor. Replace sensor, clear DTC and retest the system. |
| C101E-22 | Right Front Vertical Acceleration Sensor - Signal amplitude > maximum |
|
With vehicle parked on a level surface, read right front Vertical Accelerometer voltage and check it lies in range 1.9 to 2.1 volts. If not OK then check electrical wiring for shorts, loose connections and repair as required. If wiring OK then suspect faulty sensor/incorrectly installed sensor. Check the sensor is correctly mounted, secure or renew sensor as required. Clear DTC and retest system. |
| C101E-26 | Right Front Vertical Acceleration Sensor - Signal rate of change below threshold |
|
Refer to the electrical circuit diagrams and check right front Vertical Accelerometer signal circuit for faults, if circuit is correct suspect faulty sensor, refer to the new module/component installation note at the top of the DTC Index. Replace the sensor, clear the DTC and retest the system. |
| C101E-78 | Right Front Vertical Acceleration Sensor - Alignment or adjustment incorrect |
|
Check the right front vertical accelerometer for location and security. If correct, suspect a faulty accelerometer. Replace the sensor/bracket as required, clear the DTC and retest the system. |
| C1024-00 | System Temporarily Disabled Due To Power Interruption During Driving - No sub type information |
|
Refer to the electrical circuit diagrams and check power and ground circuits to dynamic suspension control module for intermittent or poor connection. Repair wiring circuits as required, clear DTC and retest the system. |
| C102C-12 | Right Rear Vertical Acceleration Sensor - Circuit short to battery |
|
Refer to the electrical circuit diagrams and check right rear vertical acceleration sensor circuit for short to power or another circuit. Repair circuit, clear the DTC and retest the system. |
| C102C-14 | Right Rear Vertical Acceleration Sensor - Circuit short to ground or open |
|
Refer to the electrical circuit diagrams and check right rear vertical acceleration sensor circuit for short to ground, open circuit. If no fault found on wiring suspect sensor. Renew sensor, clear DTC and retest the system. |
| C102C-22 | Right Rear Vertical Acceleration Sensor - Signal amplitude > maximum |
|
With vehicle parked on a level surface, read right rear vertical accelerometer voltage and check it lies in range 1.9 to 2.1 volts. If not OK then check electrical wiring for shorts, loose connections and repair as required. If wiring OK then suspect faulty sensor/incorrectly installed sensor. Check the sensor is correctly mounted, secure or renew sensor as required. Clear DTC and retest system. |
| C102C-26 | Right Rear Vertical Acceleration Sensor - Signal rate of change below threshold |
|
Refer to the electrical circuit diagrams and check Right Rear Vertical Accelerometer signal circuit for faults, if circuit is correct suspect faulty sensor, refer to the new module/component installation note at the top of the DTC Index. Replace the sensor, clear the DTC and retest the system. |
| C102C-78 | Right Rear Vertical Acceleration Sensor - Alignment or adjustment incorrect |
|
Check right rear vertical accelerometer for location and security, if correct suspect faulty accelerometer. Replace the sensor/bracket as required, clear the DTC and retest the system. |
| C110C-01 | Left Front Damper Solenoid - General electrical failure |
|
Refer to the electrical circuit diagrams and check front left damper solenoid circuit. If no faults are evident suspect a faulty control module, refer to the new module installation note at the top of the DTC Index |
| C110C-14 | Left Front Damper Solenoid - Circuit short to ground or open |
|
Refer to the electrical circuit diagrams and check front Left damper solenoid circuit for short to ground or open circuit. Check for corrosion, backed out terminals and poor crimping of terminals |
| C110C-18 | Left Front Damper Solenoid - Circuit current below threshold |
|
Refer to the electrical circuit diagrams and check front left damper solenoid circuit resistance (nominal = 2 - 3.5 Ohms). |
| C110C-19 | Left Front Damper Solenoid - Circuit current above threshold |
|
Refer to the electrical circuit diagrams and check front left damper solenoid circuit resistance (nominal = 2 - 3.5 Ohms). |
| C110C-1D | Left Front Damper Solenoid - Circuit current out of range |
|
Refer to the electrical circuit diagrams and check front Left damper solenoid circuit. Check and install a new front left damper as required. |
| C110C-14 | Left Front Damper Solenoid - Circuit short to ground or open |
|
Where available, Where available, carry out any pinpoint tests associated with this DTC using the manufacturer approved diagnostic system. Refer to the electrical circuit diagrams and check left front damper solenoid circuit for short to ground, open circuit. Check and install a new damper as required |
| C110C-1D | Left Front Damper Solenoid - Circuit current out of range |
|
Where available, carry out any pinpoint tests associated with this DTC using the manufacturer approved diagnostic system. Refer to the electrical circuit diagrams and check left front damper solenoid circuit for short to ground, power, open circuit. Check and install a new damper as required |
| C110C-64 | Left Front Damper Solenoid - Signal plausibility failure |
|
Refer to the electrical circuit diagrams and check front left damper solenoid circuit resistance (nominal = 2 - 3.5 Ohms). |
| C110D-01 | Right Front Damper Solenoid - General electrical failure |
|
Refer to the electrical circuit diagrams and check front right damper solenoid circuit. If no faults are evident suspect a faulty control module, refer to the new module installation note at the top of the DTC Index |
| C110D-14 | Right Front Damper Solenoid - Circuit short to ground or open |
|
Refer to the electrical circuit diagrams and check front right damper solenoid circuit for short to ground or open circuit. Check for corrosion, backed out terminals and poor crimping of terminals |
| C110D-18 | Right Front Damper Solenoid - Circuit current below threshold |
|
Refer to the electrical circuit diagrams and check Front Right Damper Solenoid circuit resistance (nominal = 2 - 3.5 Ohms). |
| C110D-19 | Right Front Damper Solenoid - Circuit current above threshold |
|
Refer to the electrical circuit diagrams and check front right damper solenoid circuit resistance (nominal = 2 - 3.5 Ohms). |
| C110D-1D | Right Front Damper Solenoid - Circuit current out of range |
|
Refer to the electrical circuit diagrams and check front right damper solenoid circuit for short to ground, power or open circuit. Check and install a new front right shock actuator as required. |
| C110D-14 | Right Front Damper Solenoid - Circuit short to ground or open |
|
Where available, carry out any pinpoint tests associated with this DTC using the manufacturer approved diagnostic system. Refer to the electrical circuit diagrams and check Right front damper solenoid circuit for short to ground, open circuit. Check and install a new damper as required. |
| C110D-1D | Right Front Damper Solenoid - Circuit current out of range |
|
Where available, carry out any pinpoint tests associated with this DTC using the manufacturer approved diagnostic system. Refer to the electrical circuit diagrams and check Right front damper solenoid circuit for short to ground, power, open circuit. Check and install a new damper as required. |
| C110D-64 | Right Front Damper Solenoid - Signal plausibility failure |
|
Refer to the electrical circuit diagrams and check Front Right Damper Solenoid circuit resistance (nominal = 2 - 3.5 Ohms). |
| C110E-01 | Left Rear Damper Solenoid - General electrical failure |
|
Refer to the electrical circuit diagrams and check rear left damper solenoid circuit. If no faults are evident suspect a faulty control module, refer to the new module installation note at the top of the DTC Index |
| C110E-14 | Left Rear Damper Solenoid - Circuit short to ground or open |
|
Refer to the electrical circuit diagrams and check rear left damper solenoid circuit for short to ground or open circuit. Check for corrosion, backed out terminals and poor crimping of terminals |
| C110E-18 | Left Rear Damper Solenoid - Circuit current below threshold |
|
Refer to the electrical circuit diagrams and check rear left damper solenoid circuit resistance (nominal = 2 - 3.5 Ohms). |
| C110E-19 | Left Rear Damper Solenoid - Circuit current above threshold |
|
Refer to the electrical circuit diagrams and check rear left damper solenoid circuit resistance (nominal = 2 - 3.5 Ohms). |
| C110E-1D | Left Rear Damper Solenoid - Circuit current out of range |
|
Refer to the electrical circuit diagrams and check rear left damper solenoid circuit for short to ground, power or open circuit. Check and install a new damper as required. |
| C110E-14 | Left Rear Damper Solenoid - Circuit short to ground or open |
|
Where available, carry out any pinpoint tests associated with this DTC using the manufacturer approved diagnostic system. Refer to the electrical circuit diagrams and check left rear damper solenoid circuit for short to ground, open circuit. Check and install a new damper as required |
| C110E-1D | Left Rear Damper Solenoid - Circuit current out of range |
|
Where available, carry out any pinpoint tests associated with this DTC using the manufacturer approved diagnostic system. Refer to the electrical circuit diagrams and check left rear damper solenoid circuit for short to ground, power, open circuit. Check and install a new damper as required. |
| C110E-64 | Left Rear Damper Solenoid - Signal plausibility failure |
|
Refer to the electrical circuit diagrams and check rear left damper solenoid circuit resistance (nominal = 2 - 3.5 Ohms). |
| C110F-01 | Right Rear Damper Solenoid - General electrical failure |
|
Refer to the electrical circuit diagrams and check rear right damper solenoid circuit. If no faults are evident suspect a faulty control module, refer to the new module installation note at the top of the DTC Index |
| C110F-14 | Right Rear Damper Solenoid - Circuit short to ground or open |
|
Refer to the electrical circuit diagrams and check rear right damper solenoid circuit. Check for corrosion, backed out terminals and poor crimping of terminals |
| C110F-18 | Right Rear Damper Solenoid - Circuit current below threshold |
|
Refer to the electrical circuit diagrams and check rear right damper solenoid circuit resistance (nominal = 2 - 3.5 Ohms). |
| C110F-19 | Right Rear Damper Solenoid - Circuit current above threshold |
|
Refer to the electrical circuit diagrams and check rear right damper solenoid circuit resistance (nominal = 2 - 3.5 Ohms). |
| C110F-1D | Right Rear Damper Solenoid - Circuit current out of range |
|
Refer to the electrical circuit diagrams and check rear right damper solenoid circuit. Check and install a new right left damper as required. |
| C110F-64 | Right Rear Damper Solenoid - Signal plausibility failure |
|
Refer to the electrical circuit diagrams and check rear right damper solenoid circuit resistance (nominal = 2 - 3.5 Ohms). |
| C1A03-12 | Left Front Height Sensor - Circuit short to battery |
|
Refer to the electrical circuit diagrams and check front left height sensor circuit. If circuit correct suspect sensor internal fault, renew as required. |
| C1A03-14 | Left Front Height Sensor - Circuit short to ground or open |
|
Disconnect electrical connector to height sensor and inspect connector pins & terminals for evidence of corrosion or water ingress. If no corrosion found, disconnect harness at control module. (A) Check for short circuits between any of the three terminals and vehicle ground. (B) Check for electrical continuity between the two connectors for each of the three terminals. Reconnect electrical connector at control module only. C) Check voltages at terminals within height sensor connector (sensor not connected): voltage to sensor ground connection should be ~0V, voltage to sensor signal connection should be ~0V, voltage to sensor supply connection should be ~5V. All voltages should be within ± 0.15V. |
| C1A03-16 | Left Front Height Sensor - Circuit voltage below threshold |
|
Refer to the workshop information and perform the height sensor calibration procedure. Clear the DTC and retest the system. |
| C1A03-17 | Left Front Height Sensor - Circuit voltage above threshold |
|
Refer to the workshop information and perform the height sensor calibration procedure. Clear the DTC and retest the system. |
| C1A03-21 | Left Front Height Sensor - Signal amplitude < minimum |
|
NOTE:
If any height sensor fixings were slackened or found to be loose or if a height sensor was changed, the vehicle ride height MUST be re-calibrated. Inspect for damage or loose fixings. Confirm that the correct height sensor part number is installed, as specified in the service parts database. To check height sensor: Disconnect electrical connector to height sensor and inspect connector pins & terminals for evidence of corrosion or water ingress. If no corrosion is found, disconnect harness at control module then: (A) Check for short circuits between any of the three terminals and vehicle ground. (B) Check for electrical continuity between the two connectors for each of the three terminals. Reconnect electrical connector at control module only. C) Check voltages at terminals within height sensor connector (sensor not connected). Voltage to sensor ground connection should be ~0V, voltage to sensor signal connection should be ~0V, voltage to sensor supply connection should be ~5V All voltages should be within ± 0.15V. To check sensor operation on the vehicle: Check for water ingress around the height sensors, electrical connectors or shaft end. Check for excessive movement in the shaft in all directions. Raise vehicle (ideally on wheels-free ramp) until suspension on corner under investigation is at full extension to gain access to height sensor. Access may be improved by removing road-wheel. Carefully disconnect the height sensor link from the upper suspension arm. Monitor the height sensor signal voltage output for the height sensor under investigation. Position the sensor arm so it is in the mid position and confirm that the voltage is around 2.5 volts. Move the sensor arm over the range ±40° around the mid position and confirm that the voltage changes smoothly between around 0.2 volts and 4.8 volts. If voltages are incorrect or do not change smoothly then renew the sensor. NOTE: For angles of movement beyond ±40°, the sensor signal will remain at a voltage of ~0.15V or ~4.85V, depending on position of sensor lever. This is normal. When investigation is complete, install the height sensor link to the upper arm. If any fixings to the height sensor body or mounting bracket were slackened, found to be loose or if a height sensor was changed, the vehicle ride height MUST be re-calibrated. Refer to the relevant instructions of the workshop information for the calibration procedure. |
| C1A03-22 | Left Front Height Sensor - Signal amplitude > maximum |
|
NOTE:
If any height sensor fixings were slackened or found to be loose or if a height sensor was changed, the vehicle ride height MUST be re-calibrated. Inspect for damage or loose fixings. Confirm that the correct height sensor part number is installed, as specified in the service parts database. To check height sensor: Disconnect electrical connector to height sensor and inspect connector pins & terminals for evidence of corrosion or water ingress. If no corrosion is found, disconnect harness at control module then: (A) Check for short circuits between any of the three terminals and vehicle ground. (B) Check for electrical continuity between the two connectors for each of the three terminals. Reconnect electrical connector at control module only. C) Check voltages at terminals within height sensor connector (sensor not connected). Voltage to sensor ground connection should be ~0V, voltage to sensor signal connection should be ~0V, voltage to sensor supply connection should be ~5V All voltages should be within ± 0.15V. To check sensor operation on the vehicle: Check for water ingress around the height sensors, electrical connectors or shaft end. Check for excessive movement in the shaft in all directions. Raise vehicle (ideally on wheels-free ramp) until suspension on corner under investigation is at full extension to gain access to height sensor. Access may be improved by removing road-wheel. Carefully disconnect the height sensor link from the upper suspension arm. Monitor the height sensor signal voltage output for the height sensor under investigation. Position the sensor arm so it is in the mid position and confirm that the voltage is around 2.5 volts. Move the sensor arm over the range ±40° around the mid position and confirm that the voltage changes smoothly between around 0.2 volts and 4.8 volts. If voltages are incorrect or do not change smoothly then renew the sensor. NOTE: For angles of movement beyond ±40°, the sensor signal will remain at a voltage of ~0.15V or ~4.85V, depending on position of sensor lever. This is normal. When investigation is complete, install the height sensor link to the upper arm. If any fixings to the height sensor body or mounting bracket were slackened, found to be loose or if a height sensor was changed, the vehicle ride height MUST be re-calibrated. Refer to the relevant instructions of the workshop information for the calibration procedure. |
| C1A04-12 | Right Front Height Sensor - Circuit short to battery |
|
Refer to the electrical circuit diagrams and check front right height sensor circuit. If circuit correct suspect a sensor internal fault, renew as required |
| C1A04-14 | Right Front Height Sensor - Circuit short to ground or open |
|
Disconnect electrical connector to height sensor and inspect connector pins & terminals for evidence of corrosion or water ingress. If no corrosion found, disconnect harness at control module. (A) Check for short circuits between any of the three terminals and vehicle ground. (B) Check for electrical continuity between the two connectors for each of the three terminals. Reconnect electrical connector at control module only. C) Check voltages at terminals within height sensor connector (sensor not connected). Voltage to sensor ground connection should be ~0V, voltage to sensor signal connection should be ~0V, voltage to sensor supply connection should be ~5V All voltages should be within ± 0.15V. |
| C1A04-16 | Right Front Height Sensor - Circuit voltage below threshold |
|
Refer to the workshop information and perform the height sensor calibration procedure. Clear the DTC and retest the system. |
| C1A04-17 | Right Front Height Sensor - Circuit voltage above threshold |
|
Refer to the workshop information and perform the height sensor calibration procedure. Clear the DTC and retest the system. |
| C1A04-21 | Right Front Height Sensor - Signal amplitude < minimum |
|
NOTE:
If any height sensor fixings were slackened or found to be loose or if a height sensor was changed, the vehicle ride height MUST be re-calibrated. Inspect for damage or loose fixings. Confirm that the correct height sensor part number is installed, as specified in the service parts database. To check height sensor: Disconnect electrical connector to height sensor and inspect connector pins & terminals for evidence of corrosion or water ingress. If no corrosion is found, disconnect harness at control module then: (A) Check for short circuits between any of the three terminals and vehicle ground. (B) Check for electrical continuity between the two connectors for each of the three terminals. Reconnect electrical connector at control module only. C) Check voltages at terminals within height sensor connector (sensor not connected). Voltage to sensor ground connection should be ~0V, voltage to sensor signal connection should be ~0V, voltage to sensor supply connection should be ~5V All voltages should be within ± 0.15V. To check sensor operation on the vehicle: Check for water ingress around the height sensors, electrical connectors or shaft end. Check for excessive movement in the shaft in all directions. Raise vehicle (ideally on wheels-free ramp) until suspension on corner under investigation is at full extension to gain access to height sensor. Access may be improved by removing road-wheel. Carefully disconnect the height sensor link from the upper suspension arm. Monitor the height sensor signal voltage output for the height sensor under investigation. Position the sensor arm so it is in the mid position and confirm that the voltage is around 2.5 volts. Move the sensor arm over the range ±40° around the mid position and confirm that the voltage changes smoothly between around 0.2 volts and 4.8 volts. If voltages are incorrect or do not change smoothly then renew the sensor. NOTE: For angles of movement beyond ±40°, the sensor signal will remain at a voltage of ~0.15V or ~4.85V, depending on position of sensor lever. This is normal. When investigation is complete, install the height sensor link to the upper arm. If any fixings to the height sensor body or mounting bracket were slackened, found to be loose or if a height sensor was changed, the vehicle ride height MUST be re-calibrated. Refer to the relevant instructions of the workshop information for the calibration procedure. |
| C1A04-22 | Right Front Height Sensor - Signal amplitude > maximum |
|
NOTE:
If any height sensor fixings were slackened or found to be loose or if a height sensor was changed, the vehicle ride height MUST be re-calibrated. Inspect for damage or loose fixings. Confirm that the correct height sensor part number is installed, as specified in the service parts database. To check height sensor: Disconnect electrical connector to height sensor and inspect connector pins & terminals for evidence of corrosion or water ingress. If no corrosion is found, disconnect harness at control module then: (A) Check for short circuits between any of the three terminals and vehicle ground. (B) Check for electrical continuity between the two connectors for each of the three terminals. Reconnect electrical connector at control module only. C) Check voltages at terminals within height sensor connector (sensor not connected). Voltage to sensor ground connection should be ~0V, voltage to sensor signal connection should be ~0V, voltage to sensor supply connection should be ~5V All voltages should be within ± 0.15V. To check sensor operation on the vehicle: Check for water ingress around the height sensors, electrical connectors or shaft end. Check for excessive movement in the shaft in all directions. Raise vehicle (ideally on wheels-free ramp) until suspension on corner under investigation is at full extension to gain access to height sensor. Access may be improved by removing road-wheel. Carefully disconnect the height sensor link from the upper suspension arm. Monitor the height sensor signal voltage output for the height sensor under investigation. Position the sensor arm so it is in the mid position and confirm that the voltage is around 2.5 volts. Move the sensor arm over the range ±40° around the mid position and confirm that the voltage changes smoothly between around 0.2 volts and 4.8 volts. If voltages are incorrect or do not change smoothly then renew the sensor. NOTE: For angles of movement beyond ±40°, the sensor signal will remain at a voltage of ~0.15V or ~4.85V, depending on position of sensor lever. This is normal. When investigation is complete, install the height sensor link to the upper arm. If any fixings to the height sensor body or mounting bracket were slackened, found to be loose or if a height sensor was changed, the vehicle ride height MUST be re-calibrated. Refer to the relevant instructions of the workshop information for the calibration procedure. |
| C1A05-12 | Left Rear Height Sensor - Circuit short to battery |
|
Refer to the electrical circuit diagrams and check rear left height sensor circuit. If circuit correct suspect a sensor internal fault, renew as required |
| C1A05-14 | Left Rear Height Sensor - Circuit short to ground or open |
|
Disconnect electrical connector to height sensor and inspect connector pins and terminals for evidence of corrosion or water ingress. If no corrosion is found, disconnect harness at the control module. (A) Check for short circuits between any of the three terminals and vehicle ground. (B) Check for electrical continuity between the two connectors for each of the three terminals. Reconnect electrical connector at control module only. C) Check voltages at terminals within height sensor connector (sensor not connected). Voltage to sensor ground connection should be ~0V, voltage to sensor signal connection should be ~0V, voltage to sensor supply connection should be ~5V All voltages should be within ± 0.15V. |
| C1A05-16 | Left Rear Height Sensor - Circuit voltage below threshold |
|
Refer to the workshop information and perform the height sensor calibration procedure. Clear the DTC and retest the system. |
| C1A05-17 | Left Rear Height Sensor - Circuit voltage above threshold |
|
Refer to the workshop information and perform the height sensor calibration procedure. Clear the DTC and retest the system. |
| C1A05-21 | Left Rear Height Sensor - Signal amplitude < minimum |
|
NOTE:
If any height sensor fixings were slackened or found to be loose or if a height sensor was changed, the vehicle ride height MUST be re-calibrated. Inspect for damage or loose fixings. Confirm that the correct height sensor part number is installed, as specified in the service parts database. To check height sensor: Disconnect electrical connector to height sensor and inspect connector pins & terminals for evidence of corrosion or water ingress. If no corrosion is found, disconnect harness at control module then: (A) Check for short circuits between any of the three terminals and vehicle ground. (B) Check for electrical continuity between the two connectors for each of the three terminals. Reconnect electrical connector at control module only. C) Check voltages at terminals within height sensor connector (sensor not connected). Voltage to sensor ground connection should be ~0V, voltage to sensor signal connection should be ~0V, voltage to sensor supply connection should be ~5V All voltages should be within ± 0.15V. To check sensor operation on the vehicle: Check for water ingress around the height sensors, electrical connectors or shaft end. Check for excessive movement in the shaft in all directions. Raise vehicle (ideally on wheels-free ramp) until suspension on corner under investigation is at full extension to gain access to height sensor. Access may be improved by removing road-wheel. Carefully disconnect the height sensor link from the upper suspension arm. Monitor the height sensor signal voltage output for the height sensor under investigation. Position the sensor arm so it is in the mid position and confirm that the voltage is around 2.5 volts. Move the sensor arm over the range ±40° around the mid position and confirm that the voltage changes smoothly between around 0.2 volts and 4.8 volts. If voltages are incorrect or do not change smoothly then renew the sensor. NOTE: For angles of movement beyond ±40°, the sensor signal will remain at a voltage of ~0.15V or ~4.85V, depending on position of sensor lever. This is normal. When investigation is complete, install the height sensor link to the upper arm. If any fixings to the height sensor body or mounting bracket were slackened, found to be loose or if a height sensor was changed, the vehicle ride height MUST be re-calibrated. Refer to the relevant instructions of the workshop information for the calibration procedure. |
| C1A05-22 | Left Rear Height Sensor - Signal amplitude > maximum |
|
NOTE:
If any height sensor fixings were slackened or found to be loose or if a height sensor was changed, the vehicle ride height MUST be re-calibrated. Inspect for damage or loose fixings. Confirm that the correct height sensor part number is installed, as specified in the service parts database. To check height sensor: Disconnect electrical connector to height sensor and inspect connector pins & terminals for evidence of corrosion or water ingress. If no corrosion is found, disconnect harness at control module then: (A) Check for short circuits between any of the three terminals and vehicle ground. (B) Check for electrical continuity between the two connectors for each of the three terminals. Reconnect electrical connector at control module only. C) Check voltages at terminals within height sensor connector (sensor not connected). Voltage to sensor ground connection should be ~0V, voltage to sensor signal connection should be ~0V, voltage to sensor supply connection should be ~5V All voltages should be within ± 0.15V. To check sensor operation on the vehicle: Check for water ingress around the height sensors, electrical connectors or shaft end. Check for excessive movement in the shaft in all directions. Raise vehicle (ideally on wheels-free ramp) until suspension on corner under investigation is at full extension to gain access to height sensor. Access may be improved by removing road-wheel. Carefully disconnect the height sensor link from the upper suspension arm. Monitor the height sensor signal voltage output for the height sensor under investigation. Position the sensor arm so it is in the mid position and confirm that the voltage is around 2.5 volts. Move the sensor arm over the range ±40° around the mid position and confirm that the voltage changes smoothly between around 0.2 volts and 4.8 volts. If voltages are incorrect or do not change smoothly then renew the sensor. NOTE: For angles of movement beyond ±40°, the sensor signal will remain at a voltage of ~0.15V or ~4.85V, depending on position of sensor lever. This is normal. When investigation is complete, install the height sensor link to the upper arm. If any fixings to the height sensor body or mounting bracket were slackened, found to be loose or if a height sensor was changed, the vehicle ride height MUST be re-calibrated. Refer to the relevant instructions of the workshop information for the calibration procedure. |
| C1A06-12 | Right Rear Height Sensor - Circuit short to battery |
|
Refer to the electrical circuit diagrams and check the rear right height sensor circuit. If circuit correct suspect a sensor internal fault, renew as required |
| C1A06-14 | Right Rear Height Sensor - Circuit short to ground or open |
|
Disconnect electrical connector to height sensor and inspect connector pins & terminals for evidence of corrosion or water ingress. If no corrosion found, disconnect harness at control module. (A) Check for short circuits between any of the three terminals and vehicle ground. (B) Check for electrical continuity between the two connectors for each of the three terminals. Reconnect electrical connector at control module only. C) Check voltages at terminals within height sensor connector (sensor not connected). Voltage to sensor ground connection should be ~0V, voltage to sensor signal connection should be ~0V, voltage to sensor supply connection should be ~5V All voltages should be within ± 0.15V. |
| C1A06-16 | Right Rear Height Sensor - Circuit voltage below threshold |
|
Refer to the workshop information and perform the height sensor calibration procedure. Clear the DTC and retest the system. |
| C1A06-17 | Right Rear Height Sensor - Circuit voltage above threshold |
|
Refer to the workshop information and perform the height sensor calibration procedure. Clear the DTC and retest the system. |
| C1A06-21 | Right Rear Height Sensor - Signal amplitude < minimum |
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NOTE:
If any height sensor fixings were slackened or found to be loose or if a height sensor was changed, the vehicle ride height MUST be re-calibrated. Inspect for damage or loose fixings. Confirm that the correct height sensor part number is installed, as specified in the service parts database. To check height sensor: Disconnect electrical connector to height sensor and inspect connector pins & terminals for evidence of corrosion or water ingress. If no corrosion is found, disconnect harness at control module then: (A) Check for short circuits between any of the three terminals and vehicle ground. (B) Check for electrical continuity between the two connectors for each of the three terminals. Reconnect electrical connector at control module only. C) Check voltages at terminals within height sensor connector (sensor not connected). Voltage to sensor ground connection should be ~0V, voltage to sensor signal connection should be ~0V, voltage to sensor supply connection should be ~5V All voltages should be within ± 0.15V. To check sensor operation on the vehicle: Check for water ingress around the height sensors, electrical connectors or shaft end. Check for excessive movement in the shaft in all directions. Raise vehicle (ideally on wheels-free ramp) until suspension on corner under investigation is at full extension to gain access to height sensor. Access may be improved by removing road-wheel. Carefully disconnect the height sensor link from the upper suspension arm. Monitor the height sensor signal voltage output for the height sensor under investigation. Position the sensor arm so it is in the mid position and confirm that the voltage is around 2.5 volts. Move the sensor arm over the range ±40° around the mid position and confirm that the voltage changes smoothly between around 0.2 volts and 4.8 volts. If voltages are incorrect or do not change smoothly then renew the sensor. NOTE: For angles of movement beyond ±40°, the sensor signal will remain at a voltage of ~0.15V or ~4.85V, depending on position of sensor lever. This is normal. When investigation is complete, install the height sensor link to the upper arm. If any fixings to the height sensor body or mounting bracket were slackened, found to be loose or if a height sensor was changed, the vehicle ride height MUST be re-calibrated. Refer to the relevant instructions of the workshop information for the calibration procedure. |
| C1A06-22 | Right Rear Height Sensor - Signal amplitude > maximum |
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NOTE:
If any height sensor fixings were slackened or found to be loose or if a height sensor was changed, the vehicle ride height MUST be re-calibrated. Inspect for damage or loose fixings. Confirm that the correct height sensor part number is installed, as specified in the service parts database. To check height sensor: Disconnect electrical connector to height sensor and inspect connector pins & terminals for evidence of corrosion or water ingress. If no corrosion is found, disconnect harness at control module then: (A) Check for short circuits between any of the three terminals and vehicle ground. (B) Check for electrical continuity between the two connectors for each of the three terminals. Reconnect electrical connector at control module only. C) Check voltages at terminals within height sensor connector (sensor not connected). Voltage to sensor ground connection should be ~0V, voltage to sensor signal connection should be ~0V, voltage to sensor supply connection should be ~5V All voltages should be within ± 0.15V. To check sensor operation on the vehicle: Check for water ingress around the height sensors, electrical connectors or shaft end. Check for excessive movement in the shaft in all directions. Raise vehicle (ideally on wheels-free ramp) until suspension on corner under investigation is at full extension to gain access to height sensor. Access may be improved by removing road-wheel. Carefully disconnect the height sensor link from the upper suspension arm. Monitor the height sensor signal voltage output for the height sensor under investigation. Position the sensor arm so it is in the mid position and confirm that the voltage is around 2.5 volts. Move the sensor arm over the range ±40° around the mid position and confirm that the voltage changes smoothly between around 0.2 volts and 4.8 volts. If voltages are incorrect or do not change smoothly then renew the sensor. NOTE: For angles of movement beyond ±40°, the sensor signal will remain at a voltage of ~0.15V or ~4.85V, depending on position of sensor lever. This is normal. When investigation is complete, install the height sensor link to the upper arm. If any fixings to the height sensor body or mounting bracket were slackened, found to be loose or if a height sensor was changed, the vehicle ride height MUST be re-calibrated. Refer to the relevant instructions of the workshop information for the calibration procedure. |
| C1B14-1C | Sensor Supply Voltage A - Circuit voltage out of range |
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Refer to the electrical circuit diagrams and check the sensor supply circuit. Check all height sensors. Check the control module sensor supply output voltage. Measured voltage should be between 4.995 volts and 4.85 volts. Refer to the warranty policy and Procedures information if a module is suspect. |
| C1B15-1C | Sensor Supply Voltage B - Circuit voltage out of range |
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Refer to the electrical circuit diagrams and check sensor supply for circuit fault. Check all vertical acceleration sensors. Check control module sensor supply output voltage. Measured voltage should be between 4.995 volts and 4.85 volts. |
| U0001-88 | High speed CAN Communication Bus - Bus off |
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Refer to the electrical circuit diagrams and check the power and ground connections to the module. Using the manufacturer approved diagnostic system, complete a CAN network integrity test. Refer to the electrical circuit diagrams and check the CAN network. |
| U0100-00 | Lost Communication With ECM/PCM A - No sub type information |
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Refer to the electrical circuit diagrams and check the power and ground connections to the module. Using the manufacturer approved diagnostic system, complete a CAN network integrity test. Refer to the electrical circuit diagrams and check the CAN network between the engine control module and vehicle dynamics control module. |
| U0101-00 | Lost Communication with TCM - No sub type information |
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Refer to the electrical circuit diagrams and check the power and ground connections to the module. Using the manufacturer approved diagnostic system, complete a CAN network integrity test. Refer to the electrical circuit diagrams and check the CAN network between the transmission control module and vehicle dynamics control module. |
| U0103-00 | Lost Communication With Gear Shift Control Module A - No sub type information |
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Refer to the electrical circuit diagrams and check the power and ground connections to the module. Using the manufacturer approved diagnostic system, complete a CAN network integrity test. Refer to the electrical circuit diagrams and check the CAN network between the gear shift control module and vehicle dynamics control module. |
| U0121-00 | Lost Communication With Anti-Lock Brake System (ABS) Control Module - no sub type information - No sub type information |
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Refer to the electrical circuit diagrams and check the power and ground connections to the module. Using the manufacturer approved diagnostic system, complete a CAN network integrity test. Refer to the electrical circuit diagrams and check the CAN network between the ABS module and vehicle dynamics control module. |
| U0126-00 | Lost Communication With Steering Angle Sensor Module - No sub type information |
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Refer to the electrical circuit diagrams and check the power and ground connections to the module. Using the manufacturer approved diagnostic system, complete a CAN network integrity test. Refer to the electrical circuit diagrams and check the CAN network between the steering angle sensor module and vehicle dynamics control module. |
| U0132-00 | Lost Communication With Suspension Control Module A - No sub type information |
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Refer to the electrical circuit diagrams and check the power and ground connections to the module. Using the manufacturer approved diagnostic system, complete a CAN network integrity test. Refer to the electrical circuit diagrams and check the CAN network between the suspension control module and vehicle dynamics control module. |
| U0140-00 | Lost Communication With Body Control Module - No sub type information |
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Refer to the electrical circuit diagrams and check the power and ground connections to the module. Using the manufacturer approved diagnostic system, complete a CAN network integrity test. Refer to the electrical circuit diagrams and check the CAN network between the generic electronic module and vehicle dynamics control module. |
| U0142-00 | Lost Communication With Body Control Module B - No sub type information |
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Refer to the electrical circuit diagrams and check the power and ground connections to the module. Using the manufacturer approved diagnostic system, complete a CAN network integrity test. Refer to the electrical circuit diagrams and check the CAN network between the generic electronic module and vehicle dynamics control module. |
| U0155-00 | Lost Communication With Instrument Panel Cluster (IPC) Control Module - No sub type information |
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Refer to the electrical circuit diagrams and check the power and ground connections to the module. Using the manufacturer approved diagnostic system, complete a CAN network integrity test. Refer to the electrical circuit diagrams and check the CAN network between the instrument panel cluster and vehicle dynamics control module. |
| U0300-00 | Internal Control Module Software Incompatibility - No sub type information |
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Check the Central Junction Box vehicle configuration file. Ensure the part number of adaptive damping control module is correct. |
| U0401-68 | Invalid Data Received from ECM/PCM A - Event information |
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Check the Engine Control Module for related DTCs and refer to the relevant DTC index. |
| U0402-68 | Invalid Data Received from TCM - Event information |
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Check the Transmission Control Module for related DTCs and refer to the relevant DTC index. |
| U0403-68 | Invalid Data Received From Transfer Case Control Module - Event information |
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Check the Transfer Case Control Module for related DTCs and refer to the relevant DTC index. |
| U0404-68 | Invalid Data Received from Gear Shift Control Module A - Event information |
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Check the Transmission Shift Control Module for related DTCs and refer to the relevant DTC index. |
| U0415-68 | Invalid Data Received From Anti-Lock Brake System (ABS) Control Module - Event information |
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Check the ABS module for related DTCs and refer to the relevant DTC index. |
| U0421-68 | Invalid Data Received from Suspension Control Module A - Event information |
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Check the Suspension Module for related DTCs and refer to the relevant DTC index. |
| U0422-68 | Invalid Data Received From Body Control Module - Event information |
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Check the Central Junction Box for related DTCs and refer to the relevant DTC index. |
| U0428-68 | Invalid Data Received From Steering Angle Sensor Module (SASM) - Event information |
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Check the Steering Angle Sensor Module for related DTCs and refer to the relevant DTC index. |
| U0443-68 | Invalid Data Received From Body Control Module B - Event information |
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Check the Central Junction Box for related DTCs and refer to the relevant DTC index. |
| U1A14-00 | CAN Initialization Failure - No sub type information |
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Refer to the electrical circuit diagrams and check the power and ground connections to the module. Using the manufacturer approved diagnostic system, complete a CAN network integrity test. Refer to the electrical circuit diagrams and check the CAN network between the Central Junction Box and the ride leveling module. |
| U2100-00 | Initial Configuration Not Complete - No sub type information |
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Configure the module using the manufacturers approved diagnostic system. Clear DTC and retest. |
| U2101-00 | Control Module Configuration Incompatible - No sub type information |
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Carry out the new module software installation procedure using the manufacturers approved diagnostic system. Clear DTC and retest. |
| U3000-01 | Control module - General electrical failure |
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Check integrity of electrical connectors and pins to the module. Refer to the electrical circuit diagrams and check the power and ground circuits to the module. Check the damper negative circuits for short to ground. Clear the DTC and retest. If the problem persists, renew the module. Refer to the warranty policy and Procedures information if a module is suspect. |
| U3000-04 | Control Module - System internal failures |
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Refer to the electrical circuit diagrams and check the power and ground circuits to the module. Clear the DTC and retest. If the problem persists, renew the module. Refer to the warranty policy and Procedures information if a module is suspect. |
| U3000-43 | Control Module - Special memory failure |
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Refer to the electrical circuit diagrams and check the power and ground circuits to the module. Clear the DTC and retest. If the problem persists, renew the module. Refer to the warranty policy and Procedures information if a module is suspect. |
| U3000-45 | Control Module - Program memory failure |
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Refer to the electrical circuit diagrams and check the power and ground circuits to the module. Clear the DTC and retest. If the problem persists, renew the module. Refer to the warranty policy and Procedures information if a module is suspect. |
| U3000-47 | Control Module - Watchdog/safety microcontroller failure |
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If this DTC is logged contact your local in market support. |
| U3000-52 | Control Module - Not activated |
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Install the latest software via the new module installation procedure using the manufacturers approved diagnostic system. |
| U3000-54 | Control Module - Missing calibration |
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Install the latest software via the new module installation procedure using the manufacturers approved diagnostic system. |
| U3003-1C | Battery Voltage - Circuit voltage out of range |
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Check the battery is in good condition and fully charged, refer to the battery care information. Refer to the starting and charging instructions of the workshop information and check the performance of the charging system. Refer to the electrical circuit diagrams and check power and ground circuit to adaptive damping control module. |
| U3003-62 | Battery Voltage - Signal compare failure |
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Check the battery is in good condition and fully charged, refer to the battery care information. Refer to the starting and charging instructions of the workshop information and check the performance of the charging system. Refer to the electrical circuit diagrams and check power and ground circuit to adaptive damping control module. |