C058800
DTC C058800 indicates the signal voltage of the brake booster Motor Position Sensor (MPS) inside the Integrated Power Brake (IPB) electro-hydraulic module falls below the ECU threshold (typically below 0 — Qin Plus
Braking System
DTC C058800 indicates the signal voltage of the brake booster Motor Position Sensor (MPS) inside the Integrated Power Brake (IPB) electro-hydraulic module falls below the ECU threshold (typically below 0.5V or 10% of the reference voltage).
The sensor uses electromagnetic or Hall effect principles to monitor the booster motor rotor position in real time, enabling closed-loop control of the motor torque output and brake assist level.
When the ECU detects the sensor voltage remains continuously below the calibrated value, it sets a circuit undervoltage fault.
This fault prevents the IPB system from accurately determining the motor position, which limits or disables the electric brake assist function.
As a result, the vehicle may enter Limp Home Mode, the brake pedal becomes hard, and the ESC/ABS warning lights illuminate.
Likely Causes — Qin Plus
- 1Motor position sensor internal short circuit or component aging: a shorted internal coil or damaged Hall element pulls the output voltage low.
- 2Wiring harness short to ground or connector fault: Damaged sensor wiring harness insulation causes a short to the vehicle body, or water ingress, oxidation, or loose connector pins cause excessive contact resistance.
- 3Abnormal IPB module internal power supply circuit: Internal 5V reference voltage regulator fault or shorted filter capacitor causes insufficient sensor supply voltage.
- 4Sensor signal wiring interference and chafing: The wiring harness rubs against a metal body edge. Long-term vibration wears through the wire insulation, causing a short to ground.
- 5Extreme low temperatures or electromagnetic interference: Although rare, sensor characteristic drift in extreme environments or strong electromagnetic interference may trigger a transient undervoltage false alarm.
What To Do
- 1Fault confirmation and freeze frame analysis: Use VDS or X-431 to read DTC C058800 and freeze frame data. Record parameters such as vehicle speed, voltage, and temperature at the time of the fault. Confirm whether the fault is current (Current) or historical (History).
- 2Visual and connector inspection: Check the IPB module exterior for impact damage and leaks. Disconnect the IPB wiring harness connector and check the pins for corrosion, backed-out terminals, and signs of water ingress. Test connector sealing.
- 3Sensor supply voltage measurement: In the Key-ON state, measure the voltage to ground at the motor position sensor supply pin on the IPB connector (typically a 5V reference voltage). The standard value is 4.8-5.2V. If the voltage is below 4.5V, check the module internal power supply circuit.
- 4Signal line voltage and continuity check: Measure the voltage at the sensor signal feedback pin. The voltage must vary continuously between 0.5-4.5 V. If the voltage is 0 V, measure the wiring harness continuity from the IPB to the sensor (internal) and the insulation resistance to ground. The insulation resistance must be greater than 10 MΩ.
- 5Dynamic signal monitoring and load testing: Use an oscilloscope to monitor the sensor signal waveform while operating the brake pedal. Check for signal interruptions or voltage drops. Conduct a road test to observe if the fault recurs under specific conditions (such as hard braking or bumpy roads) to rule out intermittent poor contact.
- 6IPB assembly replacement and calibration: If diagnostics confirm an internal sensor fault or internal module circuit fault (the sensor is usually integrated with the IPB and is not serviceable separately), replace the IPB electro-hydraulic module assembly. After completion, perform the bleeding procedure, sensor zero-point calibration, and ESC function test.
Real-World Cases
Song PLUS DM-i brake booster failure after wading
After driving through flood water, the instrument cluster displayed "Braking System Fault". Scanning showed DTC C058800. Found the IPB module in the left front wheel arch. The connector waterproof seal had deteriorated, letting water in to oxidise the pins and create a 0.8kΩ short between the sensor supply pin and ground.
Cleaned and dried the connector, applied conductive grease, and temporarily cleared the fault, but it returned after one week. Replaced the IPB wiring harness connector and sealed it properly to permanently fix the issue.
Wiring harness wear causes intermittent low voltage
When driving on rough roads, the brake pedal intermittently hardened and DTC C058800 appeared. Static voltage measurements normal. Found the IPB-to-body harness loose at the firewall penetration; vibration wore through the insulation, exposing copper wires that shorted to ground. Rewrapped the harness, adjusted the clip positions, and ensured 10 mm or more clearance from the body. The fault has not reoccurred.
Replaced IPB module assembly due to internal sensor failure.
Vehicle started with ABS warning light on; DTC C058800 present. External harness power supply measured 5.02V (normal). Signal wire showed continuity to ground (abnormal). Disconnected external harness and measured IPB internal sensor pins directly: still showed short to ground (<1Ω). Determined IPB internal motor position sensor coil short. Replaced IPB electro-hydraulic module assembly, bled brake system, performed ESC calibration and cleared DTC. Assist function restored.
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.