C006A02
DTC C006A02 indicates a functional failure or abnormal signal from the combined inertial sensor (typically an integrated yaw rate and lateral/longitudinal acceleration sensor) in the IPB (Intelligent Electro-Hydraulic Braking) system — Atto 3
Braking System
DTC C006A02 indicates a functional failure or abnormal signal from the combined inertial sensor (typically an integrated yaw rate and lateral/longitudinal acceleration sensor) in the IPB (Intelligent Electro-Hydraulic Braking) system.
This sensor typically mounts in the vehicle center tunnel (under the armrest) near the center of gravity.
It acts as the core sensing component for the ESC (Electronic Stability Control), ABS (Anti-lock Braking System), TCS (Traction Control System), and AEB (Automatic Emergency Braking) systems.
When this fault triggers, the IPB ECU cannot obtain accurate vehicle attitude, lateral acceleration, and yaw rate data, causing these active safety functions to degrade or fail completely.
This failure risks a loss of vehicle stability control; therefore, the system classifies it as a Level 3 severe fault.
Likely Causes — Atto 3
- 1Damaged MEMS chip or signal processing circuit inside the combination sensor, causing output signal drift or complete loss of signal.
- 2Sensor wiring harness open circuit, short circuit, or short to ground/power, especially wiring harness damage near the centre tunnel from water ingress, abrasion, or audio/seat modifications.
- 3Sensor mounting bracket is loose, deformed, or has an installation angle offset exceeding ±3°, causing an inertial measurement reference error.
- 4Abnormal 5V reference voltage or ground circuit from IPB ECU to sensor (voltage below 4.8V or above 5.2V)
- 5Extreme temperature conditions (typical sensor operating temperature: -40°C to 85°C) or physical sensor damage after a severe vehicle collision.
What To Do
- 1Use the VDS2000/VDS3100 diagnostic tool to access the IPB system and read the freeze frame data. Confirm the vehicle speed, lateral acceleration value, and sensor voltage status at the time of the fault.
- 2Visually inspect the combined sensor installation under the center tunnel (usually at the gear selector base or under the seat). Verify the fixing bolt torque (standard: 8-10 N·m) and confirm the bracket is not deformed.
- 3Disconnect the sensor connector and measure the wiring harness side: Pin 1 (power supply, 5 V ± 0.2 V), Pin 2 (ground, <0.1 Ω), and Pins 3/4 (CAN-H/CAN-L, approx. 2.5 V). Verify the power supply and communication circuits are normal.
- 4Check the sensor connector terminals for oxidation or push-out. Measure the sensor resistance (refer to the workshop manual for the standard value; typical yaw rate sensor resistance is approximately 200-400Ω).
- 5If the wiring is normal but the fault persists, replace the combination sensor (part numbers usually start with SC- or 3A-; verify vehicle model compatibility). After replacement, perform the sensor calibration procedure.
- 6Perform calibration: Park the vehicle on level ground. Use the diagnostic tool to enter the 'Sensor Calibration' function. Follow the prompts to complete the zero-point calibration of the yaw rate sensor and acceleration sensor (takes approximately 30 seconds; keep the vehicle stationary).
- 7Clear the fault code and perform a road test (including straight-line acceleration, braking, and turning). Verify the ESC/ABS warning light turns off and fault code C006A02 does not return.
Real-World Cases
Aftermarket audio modification caused wiring harness crush damage on Song PLUS DMi
A 2021 Song PLUS DMi with 20,000 km had both ABS and ESC warning lights lit. Scanned DTC C006A02.
The owner had recently modified the center console audio. When removing the armrest, they failed to secure the combined sensor wiring harness, leaving it to be pinched and abraded by the audio bracket. The internal copper wires fractured while the insulation remained partially intact, causing an intermittent open circuit.
Re-taped the harness, rerouted it to avoid sharp metal edges, and secured it with cable ties at the factory mounting points. Cleared the fault codes and calibrated the sensor. Fault resolved.
Internal short circuit in sensor after water ingress
The day after driving through water approximately 40 cm deep, the dashboard displayed 'Braking system fault' and the scanner logged DTC C006A02. Inspection found the combination sensor mounted beneath the floor; although fitted with an external plastic shield, seal deterioration had allowed water to penetrate internally. Insulation resistance measured 0.5 MΩ (specification >10 MΩ), confirming an internal short circuit. After replacing the sensor, we performed G-sensor offset learning and yaw rate sensor calibration with the scanner. Road testing confirmed normal ESC function.
Sensor calibration not performed after accident repair
Following front-end collision repair (front subframe replacement), the technician did not calibrate the chassis system. Approximately 50 km after delivery, the instrument cluster displayed brake system fault DTC C006A02. Inspection revealed impact during the accident had shifted the combined sensor mounting position slightly (approximately 5°). Physical connections remained intact, but the inertial reference deviation produced abnormal signals. Solution: Retightened the sensor mounting bolts to 9 N·m and performed 'Longitudinal Acceleration Sensor Calibration' and 'Yaw Rate Sensor Calibration' via VDS. DTC cleared and did not return.
Sensor signal drift in low temperature conditions
Northern winter (-20°C ambient). After cold start, ESC warning light illuminated intermittently after ~5 minutes of driving. Scan tool read C006A02 (intermittent). Fault cleared once warm.
Checked sensor power and ground — normal. Suspected internal MEMS element deterioration at low temperatures.
Replaced sensor (same model, upgraded software version) and retested in climate chamber at -25°C. Fault did not recur.
Root cause: Temperature compensation algorithm defect in early batch sensors. Replaced with improved sensor.
Terminal backed out of connector causing poor contact
Driving on rough roads caused the ESC warning light to illuminate intermittently. The scan tool showed stored fault code C006A02. Inspection of the combined sensor connector revealed terminal No. 3 (CAN-H) had backed out slightly, causing poor contact with the socket and momentary open circuits under vibration. Extracted the terminal with a removal tool, adjusted the locking tab tension, and reinserted it until it clicked. Applied conductive grease to enhance contact. Cleared the codes and tested by driving continuously over speed bumps; the fault did not return.
Data confidence: Official This information is for reference only. Always consult a qualified technician for diagnosis and repair. Do not attempt high-voltage system repairs yourself.