B2AB149
This DTC indicates a phase loss in the internal three-phase permanent magnet synchronous motor of the electric A/C compressor (E-Compressor) — Atto 3
Thermal Management System
This DTC indicates a phase loss in the internal three-phase permanent magnet synchronous motor of the electric A/C compressor (E-Compressor).
When the compressor controller (inverter) supplies power to the motor U/V/W three-phase windings, it detects a loss of at least one phase current or a voltage drop exceeding the threshold.
Open windings, open high-voltage harnesses, or damaged IGBT power modules typically cause this condition.
This fault prevents the compressor from generating effective torque and forces it to stop, which disables the A/C cooling and heating functions and triggers the thermal management system derating protection.
In vehicles like the BYD Qin EV, battery cooling relies on the A/C refrigerant circuit; therefore, this fault may indirectly raise the battery pack temperature and limit charge and discharge power.
Likely Causes — Atto 3
- 1Compressor high-voltage wiring harness connector burnt or loose: Long-term vibration or excessive contact resistance generates high temperatures at the three-phase high-voltage plug (usually located on top of the compressor). This causes the pins to burn and retract, resulting in an open circuit in one phase.
- 2Electric compressor controller (IPM module) fault: Breakdown of the upper and lower bridge arms in single or multiple phases of the built-in IGBT power module, or drive circuit damage, prevents the output of a complete three-phase sine wave voltage.
- 3Compressor motor winding burnt out: Insulation breakdown, over-temperature, or overload causes an open circuit (infinite resistance) in one phase or an inter-turn short circuit in the internal three-phase motor winding.
- 4Blown compressor fuse or stuck relay in the high-voltage power distribution box: One phase of the 500V/20A fast-acting fuse in the high-voltage supply circuit blows, or burned high-voltage contactor contacts cause a three-phase power supply imbalance.
- 5Abnormal low-voltage control signal: CAN communication fault between the Thermal Management System (TMS) controller and the compressor controller, or an abnormal 12V control power supply/enable signal causing the controller to incorrectly detect a phase loss.
What To Do
- 1Diagnostic scan: Use VDS2000/3000 to read all fault codes. Check for accompanying B2AB2-49 (IPM fault), B2AB3-11 (compressor overcurrent), or high-voltage interlock faults. Record freeze frame data from when the fault occurred (bus voltage, three-phase current values).
- 2High-voltage safety check: Disconnect the low-voltage battery negative terminal, wait 5 minutes, wear insulated gloves, remove the compressor high-voltage service disconnect, and verify the high-voltage system has no residual voltage (<60V DC).
- 3High-voltage wiring harness inspection: Check the compressor three-phase high-voltage connector (orange-yellow) for signs of burning, terminal back-out, or water ingress. Use a multimeter to measure continuity of the three-phase wiring at the connector end (U-V, V-W, W-U). Resistance must be <1Ω. Use a 1000V megohmmeter to measure the insulation resistance between each phase and the housing. Resistance must be >500MΩ.
- 4Motor winding inspection: Disconnect the compressor high-voltage connector and directly measure the three-phase DC resistance across the compressor terminals (U-V, V-W, W-U). The normal value is 0.5-2.0Ω with a three-phase imbalance rate <5%. If any phase reads infinite resistance, the motor winding has an open circuit. Replace the compressor assembly.
- 5Controller function check: Restore the low-voltage power supply. Use the diagnostic tool to perform the compressor Active Test. Use an oscilloscope to check the three-phase voltage waveforms at the controller output terminals. The waveforms must be symmetrical three-phase sine waves. If any phase has no waveform output, the controller is faulty. Replace the compressor controller or the complete compressor assembly (BYD usually supplies the complete assembly).
- 6System reset verification: After repair, clear the fault code. Vacuum-fill the thermal management system and charge the refrigerant. Perform a 30-minute A/C operational test. Monitor the three-phase current balance (phase current difference <10%) and verify the fault code does not return.
Real-World Cases
Burnt high-voltage plug on Qin EV compressor causing intermittent phase loss
Intermittent AC cooling failure. Read DTC B2AB149. Inspection found visible burning and blackening on U-phase terminal of compressor high-voltage connector. Measured U-phase contact resistance at 12Ω (normal <0.1Ω). Poor contact caused arcing under high current, gradually burning the terminal. Replaced compressor high-voltage wiring harness assembly (including connector) and applied conductive paste. Issue resolved.
Damaged electric compressor IGBT module triggered phase loss protection
Total AC failure with DTCs B2AB149 and B2AB2-49. Removed and inspected the compressor controller; found the V-phase lower bridge arm IGBT in the IPM module shorted. Compressor windings measured normal. Isolated to controller power device quality defect. BYD does not offer standalone controller repair, so replaced the electric compressor assembly. System restored to normal with balanced three-phase current.
Refrigerant leak caused compressor overheating and phase loss
Owner reported AC cooling gradually weakened until complete failure. DTC B2AB149 stored. Found severe refrigerant leak (pressure <0.1MPa). Compressor ran dry for an extended period without oil or refrigerant, overheating the motor windings and damaging insulation until the V-phase winding opened. Replaced compressor, repaired condenser leak, and charged standard refrigerant (450g R410a) and refrigeration oil. Fault resolved.
High-voltage distribution box relay contacts burned
AC cut in and out. DTC B2AB149 intermittent. Compressor relay contacts inside HV distribution box severely burned, causing W-phase power to drop out. Relay coil tested normal, but contact resistance fluctuated with vibration. Replaced distribution box relay (or complete assembly). Fault code cleared and did not return; three-phase voltage balanced and stable.
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.