DTC C055600 indicates the IPB (Intelligent Integrated Braking System) control module detects the hardware model or electrical characteristics of the right front wheel speed sensor do not match the system calibration parameters — Seal 6 EV
DTC C055600 indicates the IPB (Intelligent Integrated Braking System) control module detects the hardware model or electrical characteristics of the right front wheel speed sensor do not match the system calibration parameters.
This is a configuration/calibration fault, not a simple signal fault.
By monitoring the sensor resistance, signal voltage range, pulse characteristics, or digital communication protocol, the IPB system detects the installed sensor does not match the vehicle configuration code (VIN-corresponding calibration data).
This typically occurs after installing non-genuine parts, installing a sensor from another vehicle model, or if the sensor does not match the wheel hub bearing assembly (some BYD models separate the magnetic encoder bearing from the sensor).
When this fault triggers, the IPB enters degraded mode, disables ABS, ESC, Automatic Emergency Braking (AEB), and energy recovery functions, retaining only basic hydraulic braking.
- 1Installed non-genuine aftermarket wheel speed sensor with resistance or signal characteristics that do not match factory calibration (mistakenly installed an 800-1200Ω passive sensor instead of the original 1200-1600Ω active sensor).
- 2Incorrectly installing a part from another model during right front wheel hub bearing assembly replacement causes a magnetic encoder ring pole count or spacing mismatch (for example, installing a 46-pole Song Pro ring instead of the required 48-pole Song PLUS DMi magnetic ring).
- 3Outdated IPB control module software fails to recognize the communication protocol of the new sensor (commonly seen on 2021 Song PLUS DMi models running early software paired with a later improved replacement sensor).
- 4Incorrect sensor harness connector pin definition or mismatched connector type (e.g., mistakenly connecting an active sensor to a passive harness circuit, causing a supply voltage mismatch)
- 5Failure to perform the IPB system sensor configuration writing (coding) or parameterization process after unauthorized vehicle repairs.
- 1Use the VDS2000/VDS3000 diagnostic tool to access the IPB system and read the freeze frame data. Verify the deviation range of the sensor signal voltage and resistance values from the calibrated values at the time of the fault.
- 2Raise the vehicle and check the right front wheel speed sensor part number (usually stamped on the sensor body). Cross-check the EPC system to verify the part matches the vehicle configuration code (e.g., Song PLUS DMi requires the 5A-36301-XX series active sensor).
- 3Remove the sensor and measure the resistance. Normal values are 1.2-1.6 kΩ for an active sensor (Hall type) and 0.8-1.2 kΩ for a passive sensor (electromagnetic type). If the resistance is out of specification, replace the sensor with a genuine part.
- 4Inspect the wheel hub bearing magnetic encoder ring: Use an oscilloscope to measure the sensor signal, rotate the wheel, and observe the number of waveform cycles (Song PLUS DMi should output 48 pulses per revolution). If the pulse count is incorrect, replace the bearing assembly.
- 5If the hardware is normal, perform the IPB system 'Sensor Parameterization' procedure: Enter Special Functions → Wheel Speed Sensor Configuration → Select the correct sensor model code (Active/Passive and number of poles) → Write to IPB EEPROM.
- 6After completing the configuration, perform 'Steering Angle Sensor Calibration' and 'Yaw Rate Sensor Calibration' (due to IPB system linkage). Clear the fault codes and road test the vehicle to confirm ABS/ESC function restoration and no fault code recurrence.
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Wrong sensor models fitted to left and right sides (DM-i and EV variants mixed)