B175D
This fault code indicates the SRS (Supplemental Restraint System) control module detects a resistance of 0 Ω (or below 0 — Seal 6 EV
Safety System
This fault code indicates the SRS (Supplemental Restraint System) control module detects a resistance of 0 Ω (or below 0.5 Ω) in the Left Front Side Curtain Airbag squib circuit.
Under normal conditions, standard airbag squib resistance is 2.0 to 3.0 Ω (typical BYD specification is 1.5 to 4.0 Ω).
A 0 Ω resistance indicates a short circuit in the squib circuit.
Possible causes include a wiring harness short to ground, a wire-to-wire short (power wire shorted to ground wire), or an internal short in the squib bridge wire.
This fault causes the SRS control module to identify the airbag circuit as abnormal, illuminate the airbag warning light, and disable Left Front Side Curtain Airbag deployment.
In a collision, this side curtain airbag will fail to inflate and deploy, severely compromising side impact protection.
Additionally, the short circuit creates a potential risk of unintended airbag deployment.
Likely Causes — Seal 6 EV
- 1Airbag igniter internal short circuit: Manufacturing defects, aging, or impact cause the igniter bridge wire inside the left front side curtain airbag module to melt and fuse. This creates direct continuity between the two terminals, resulting in a resistance of 0.
- 2Wiring harness short to ground: The wiring harness from the SRS control unit to the left front curtain airbag (typically routed along the left A-pillar, B-pillar, and C-pillar roof side rails) has damaged insulation and contacts the metal body frame, causing a short to ground.
- 3Connector terminal short circuit: Water ingress, oxidation, corrosion, bent terminals, or metallic debris in the wiring harness connector (located below the A-pillar or near the B-pillar, usually mating with the body harness) shorts the power terminal to the ground terminal.
- 4SRS control unit internal sampling circuit fault: Damage to the internal A/D converter, sampling resistor, or drive circuit causes the sampled resistance of the left curtain airbag circuit to remain at 0, triggering a false fault.
- 5Vehicle modification or repair damage: During aftermarket dash cam wiring routing, A-pillar trim panel removal, roof rack installation, or glass replacement, screws or rivets pierce the wiring harness, or metal edges pinch the harness, damaging the insulation and causing a short circuit.
What To Do
- 1Safety preparation: Park the vehicle on level ground, apply the parking brake, turn the ignition switch to OFF, disconnect the 12V battery negative cable, and wait at least 90 seconds (to fully discharge the SRS backup power capacitor and prevent accidental airbag deployment).
- 2DTC confirmation: Reconnect the battery, turn the ignition switch to ON, and access the SRS system using a BYD dedicated diagnostic tool (VDS2000 or VDS6000). Read the fault codes to confirm B175D is a current fault (Active), and record the ambient temperature and vehicle status from the freeze frame data.
- 3Visual inspection: Remove the upper interior trim panels on the left A-pillar, B-pillar, and C-pillar. Inspect the side curtain airbag wiring harness along the roof side rail for obvious damage, crushing, cuts, water stains, or burn marks. Focus on the contact points between the wiring harness and the body metal.
- 4Disconnected airbag measurement: Turn off the ignition switch, disconnect the battery negative terminal again, and wait 90 seconds. Disconnect the left front curtain airbag connector (usually located at the lower A-pillar or middle B-pillar; yellow plug with shorting bar). Use a digital multimeter to measure the resistance between the two terminals on the airbag side (not the wiring harness side). Normal resistance is 2.0-3.0 Ω. If the resistance is 0 Ω or close to 0 Ω, the airbag module has an internal short circuit. Replace the left front curtain airbag assembly.
- 5Wiring harness continuity check: If the airbag resistance is normal, test the harness-side connector: ① Measure resistance between the two terminals (must be infinite; continuity indicates a short circuit between wires); ② Measure resistance from each terminal to body ground (must be infinite; continuity indicates a short to ground). Also check continuity between the wiring harness and the SRS control unit.
- 6Shorting bar check: Verify the shorting bar inside the airbag connector returns to its normal position. This device should automatically short the airbag terminals when disconnecting the plug. A stuck shorting bar may cause measurement errors or circuit abnormalities.
- 7Control unit inspection: If the wiring harness and airbag are normal, check the SRS control unit connector terminals for corrosion or push-out. Measure the circuit insulation between the control unit and the airbag. If necessary, use an oscilloscope to check the diagnostic pulse output from the control unit.
- 8Repair and Verification: After repairing or replacing the shorted wiring harness/airbag, reconnect all connectors (listen for the locking tabs to click), connect the battery, and clear the fault code. Perform an SRS system self-check cycle (ignition switch ON; verify the airbag warning light illuminates for 6 seconds and then turns off). Read the data stream with the diagnostic tool to confirm the left front side curtain airbag resistance returns to the normal range. Perform a road test to confirm the fault does not recur.
Real-World Cases
BYD F3 ABS DTC C0032 (wheel speed sensor fault)
Symptoms: At 8600 km, the ABS warning light came on and stayed on while driving (Delphi system).
Diagnosis:
1. Connected diagnostic scan tool and retrieved DTC C0032 (left front wheel speed sensor open or short circuit).
2. Inspected wheel speed sensor wiring harness and found it had chafed through against the left front tire. Replaced the harness; fault remained.
3. Disconnected left front wheel speed sensor connector and measured resistance between terminals 1-A6 and 2-A6: 1750 Ω (specification 1780±150 Ω). Reading normal.
4. Checked driveshaft reluctor ring and found missing teeth.
Solution: Replaced left front driveshaft assembly (including wheel speed sensor reluctor ring). Road tested; fault resolved.
Original source ↗BYD Qin/Tang High Voltage Interlock Loop Fault (BMS-Related)
Symptoms: Vehicle unable to energise high voltage system. High voltage battery management system live data shows 'High Voltage Interlock: Locked', with high voltage contactors open.
Diagnosis:
1. Read high voltage battery management system live data and confirmed abnormal high voltage interlock status.
2. Measured infinite resistance (no continuity) between pins K64-01 and K65-07 at the high voltage battery management system, confirming an open circuit in the interlock loop.
3. Sectional measurement between pins K54-02 and K54-06 at the high voltage distribution box showed normal continuity (resistance <1Ω), ruling out distribution box faults.
4. Service disconnect switch terminals K66-01 and K66-02 showed normal continuity, but inspection found a backed-out pin at the high voltage harness interlock connector between the drive motor controller and DC-DC converter assembly.
Resolution: Reseated the high voltage harness interlock connector, ensuring pins fully inserted and locked. Fault resolved.
Original source ↗BYD EPS Steering System Fault (Multiple Fault Codes Case)
Symptoms: Dashboard displays "Check steering system" or the EPS warning light stays on. Power steering assist suddenly cuts out (heavy steering) or is intermittent. Some vehicles also have steering wheel binding or abnormal noise.
Diagnosis:
1. Read OBD fault codes using a diagnostic tool (e.g., C1B0E00, C106600 and other steering-related codes);
2. Electronic check: Measure EPS control module supply voltage (CAN High + CAN Low standard value should be 5V), and check torque/steering angle sensor signals for distortion;
3. Mechanical check: Turn the steering wheel by hand to check for abnormal noise; raise the vehicle and inspect steering tie rods and ball joints for play;
4. Found: Some vehicles have EPS control module software faults or poor ground connections (loose connectors).
Repair:
1. Recalibrate torque/steering angle sensors using dedicated equipment;
2. Inspect and repair wiring, sand ground points, and replace damaged or misaligned connectors;
3. Update EPS control module software;
4. For mechanical wear (e.g., steering gear wear, seal aging), replace the REPS assembly or worn components.
Original source ↗BYD new energy vehicle air conditioning compressor failure (scroll plate sealing defect)
Symptoms: Poor cooling performance; high low-side pressure, low high-side pressure, ice on the low-pressure line, and no cold air output.
Diagnosis:
1. Verified no incorrect refrigerant had been added; connected manifold gauges and found abnormal pressures.
2. Removed the compressor rear cover. The scroll plate surfaces were abnormally smooth (no visible wear), but the scroll set lacked seal rings (design defect), causing internal leakage.
3. Confirmed abnormal wear—the surfaces should show irregular wear patterns but were mirror-smooth.
Repair:
1. Replaced the scroll plate with the manufacturer-revised version featuring added seal rings.
2. Added EV-specific POE refrigeration oil.
3. Reinstalled the scroll plate to the original position and reassembled. After installation, the AC outlet temperature dropped to 4°C and cooling returned to normal.
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.