C05CE00
This DTC indicates the master cylinder piston position sensor B circuit voltage in the IPB (Intelligent Power Brake) smart integrated braking system falls below the calibrated threshold (typically <0 — Qin Plus
Braking System
This DTC indicates the master cylinder piston position sensor B circuit voltage in the IPB (Intelligent Power Brake) smart integrated braking system falls below the calibrated threshold (typically <0.5V).
The master cylinder position sensor uses a dual-sensor redundant design (sensors A and B) to monitor brake master cylinder piston displacement in real time.
It provides brake pedal travel signals to the IPB ECU to calculate driver braking intent and control electro-hydraulic brake assist.
Low sensor B voltage prevents the IPB system from accurately identifying the master cylinder position.
This triggers the system safety protection mechanism and limits or disables ESP/ABS functions, potentially causing abnormal brake pedal travel, reduced brake assist, or complete loss of brake assist, seriously compromising driving safety.
A short to ground in the sensor power or signal circuit, poor wiring contact, or a damaged sensor typically causes this fault.
Likely Causes — Qin Plus
- 1Poor contact at the sensor wiring harness connector, oxidized pins, backed-out pins, or corrosion from water ingress, causing excessive signal transmission resistance.
- 2Short to ground or open circuit in master cylinder position sensor B power supply circuit (5V reference voltage), causing insufficient operating voltage.
- 3A short to ground in the sensor signal output circuit causes the ECU to detect abnormally low voltage.
- 4Internal short circuit damage to brake master cylinder position sensor B (sensor is integral to the master cylinder assembly and not serviceable separately).
- 5IPB control unit (ECU) internal signal processing circuit fault or software calibration error
What To Do
- 1Use a dedicated diagnostic tool (such as BYD VDS) to read the DTC freeze frame data and confirm the vehicle status and sensor voltage values when the fault occurred.
- 2Disconnect the IPB wiring harness connector and visually inspect the pins for oxidation, recession, corrosion, or deformation. Clean or repair the connector.
- 3Disconnect the master cylinder position sensor B connector and measure the power supply pin voltage (expected: 5V±0.25V). If abnormal, check the wiring harness for a short to ground or open circuit.
- 4Measure the sensor signal wire voltage (approximately 0.5-4.5V at normal idle, varying with pedal travel). If continuously below 0.5V, check the signal wire for a short to ground.
- 5Measure the sensor resistance and compare it to the workshop manual standard value (usually several thousand ohms). If the resistance is abnormal, the sensor is faulty.
- 6Check wiring harness continuity (between the sensor and the IPB ECU) and insulation to ground. Repair any damaged or shorted wiring.
- 7If the wiring harness is normal but the sensor parameters are abnormal, replace the brake master cylinder assembly with the sensor (the sensor is not available separately).
- 8After replacement, perform the IPB brake system bleeding procedure to remove air from the brake lines.
- 9Use the diagnostic tool to perform the 'Master Cylinder Position Sensor Learning' or 'IPB Calibration' procedure to complete the sensor zero-point calibration.
- 10Clear the fault code, perform a road test to verify braking performance, and confirm the fault does not recur.
Real-World Cases
Oxidized pins caused excessive contact resistance in the Seal 06 DM-i
ESP warning light on. Brake pedal soft, travel increased. Scanned with VDS: IPB DTC C05CE00. Disconnected master cylinder position sensor B connector. Pins showed severe oxidation and green corrosion; contact resistance measured >5Ω (normal <1Ω). Cleaned pins and applied conductive grease. Sensor supply voltage restored to 5V; signal voltage varies 0.5-4.5V with pedal travel. Cleared codes and road tested; fault eliminated. Recommend checking for water immersion history and installing waterproofing.
Original source ↗Atto 3 wiring harness crushed and damaged, causing short to ground
Owner reported the brake system warning light illuminates intermittently after starting. Scanner showed alternating codes C05CE00 and C05CD00 (Sensor B voltage too high). Inspection revealed the master cylinder position sensor B harness sheath damaged at the engine compartment firewall; a metal bracket had crushed the internal wires, wearing through the insulation and creating an intermittent short to ground. Repaired the damaged harness and rerouted the wiring to avoid contact. Signal line insulation resistance to ground measured >10MΩ. Replaced the brake master cylinder assembly due to potential sensor damage from the short, then performed the sensor calibration procedure. Fault resolved.
Original source ↗Song PLUS DM-i discharged 12V battery caused false DTCs
Vehicle displayed "Please check brake system" after parking in cold conditions. Scan revealed historical DTC C05CE00; current sensor voltage read normal. Battery voltage was only 11.2V (normal >12V). The IPB system can trigger false diagnostics under low voltage. Charged the battery and checked state of health—SOH only 65%. Replaced the battery and cleared all historical codes with a scan tool. Flashed the IPB control unit to the latest software (optimizes low-voltage threshold judgment). Performed complete brake system calibration and bleeding. Monitored for one week with no recurrence. Confirmed: intermittent false alarm caused by low voltage.
Original source ↗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.