C116006

Code

BYD C — Chassis

Faulty status mode of left and right motors

Brand: BYD

Type: C — Chassis

Views: UK: 3 EN: 9 RU: 6

AI status

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Page language: EN

Communication error between motor controllers (CAN/LV-CAN faults).
Faulty motor controller/inverter hardware or firmware bug.
Wiring/connectors damaged, corroded or loose between controllers and vehicle harness.
Incorrect configuration or calibration in vehicle control module (VCM/BCU).
Low/high DC link or motor supply voltage causing controllers to enter safe mode.
Intermittent sensor or encoder faults that change reported motor state.

Read all stored and pending DTCs from all control units (motor controllers, BCU/VCU, ABS/ESC).
Check freeze frame and live data for both left and right motor status/mode values.
Inspect high-voltage interlocks, pre-charge, and DC link voltage for stability.
Visually inspect motor controller connectors, harnesses and ground points for damage/corrosion.
Check CAN bus integrity: termination, continuity, resistance (~60 ohm total), and differential signal.
Confirm software/firmware versions and calibration settings for both motor controllers.

Retrieve complete DTC list and note occurrences, timestamps and freeze frame data from all related modules.
Clear codes and attempt to reproduce the fault while monitoring left/right motor status and CAN messages live.
Compare real-time mode/status values for left and right controllers; note which unit reports unexpected mode.
Inspect and secure all connectors, grounds and junctions for left/right motor harnesses; repair any damage.
Check CAN bus wiring: measure continuity, short to ground/power, and proper termination resistance. Repair faults.
Verify HV battery DC link voltage and pre-charge behavior. Address any HV interlock or sag issues.
Confirm firmware/software versions and calibration are consistent between motor controllers; update if required per manufacturer procedure.
If a specific motor controller reports persistent incorrect mode after wiring and CAN verified, isolate by swapping controllers or modules if supported and observe behavior (only if workshop procedures allow).
If hardware swap reproduces the issue on the other side, replace the suspected faulty motor controller/inverter per manufacturer instructions.
After repair, clear codes and perform a full road/test bench verification to ensure the status modes remain consistent and no related codes return.

Open/shorted CAN high or CAN low between left and right motor controllers.
Faulty or reset motor controller (inverter) on left or right side.
Poor connector pin contact at motor controller, junction block, or battery disconnect.
Battery voltage sag, pre-charge circuit failure, or HV interlock tripped.
Mismatch of software versions or calibration parameters between two motor controllers.
Damaged rotor position sensor (resolver/encoder) causing controller to change mode.

⚠️ Status

Left/right motor controllers reporting inconsistent or invalid operating mode — check motor controller communication and hardware.

🟡 Repair difficulty: Medium

⏱️ Diagnostic time: 1-3 hours

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