B177D
DTC B177D indicates the airbag system (SRS) detects a 0 Ω circuit resistance in the right middle-row (typically second-row right) seat belt pretensioner — Atto 3
Safety System
DTC B177D indicates the airbag system (SRS) detects a 0 Ω circuit resistance in the right middle-row (typically second-row right) seat belt pretensioner.
As a pyrotechnic actuator, the seat belt pretensioner squib normally has a resistance of 1.5-3.0 Ω (typically 2.0 Ω).
A 0 Ω resistance indicates a short circuit.
Potential causes include an internal pretensioner squib short, a wiring harness short to ground, or a short between connector terminals.
This fault causes the SRS ECU to determine the pretensioner is in an unsafe state.
During a collision, the pretensioner may fail to deploy and tension the seat belt, or the short circuit may force the airbag system into a degraded mode, compromising overall passive safety performance.
Likely Causes — Atto 3
- 1Wiring harness wear under the seat: As the right middle-row seat slides forward and backward, the seat belt pretensioner wiring harness rubs against the seat track or body metal edge, damaging the insulation and causing a short to ground.
- 2Connector water ingress or corrosion: Poor sealing of the pretensioner connector located under the seat or lower B-pillar causes internal pins to short circuit after vehicle wading, washing, or A/C condensate leakage.
- 3Pretensioner internal squib short circuit: Manufacturing defects, aging, or severe impact cause the pretensioner internal bridge wire to short circuit, dropping resistance to zero.
- 4Improper repair procedures: directly measuring the pretensioner with a low-impedance multimeter (such as continuity mode), or the seat mechanism crushing a wiring harness improperly secured during previous repairs.
- 5SRS ECU sampling circuit fault: Faulty internal A/D converter or sampling resistor in the control unit causes a false 0 Ω reading (relatively rare).
What To Do
- 1Safety preparation: Disconnect the 12V battery negative terminal and wait at least 90 seconds (to fully discharge the SRS capacitor). Do not work on the airbag system with the ignition switch in the ON position.
- 2Visual inspection: Check the pretensioner wiring harness under the right middle-row seat, inside the seat rail, and below the B-pillar for wear, cuts, or crush marks. Check the connector for looseness, water ingress, or signs of corrosion.
- 3Isolation measurement: Disconnect the pretensioner connector. Use a digital multimeter (set to low-current test mode) or a dedicated SRS tester to measure: ① resistance between the two pretensioner terminals (standard: 1.5-3.0 Ω; if 0 Ω, replace pretensioner); ② resistance to ground on the harness side (standard: infinite; if 0 Ω, harness short circuit).
- 4Wiring harness repair: If the wiring harness has a short circuit, repair the damaged insulation (using heat shrink tubing or electrical tape), reroute the harness to avoid the seat travel path, and replace the wiring harness assembly if necessary.
- 5Component replacement: If the pretensioner body has a short circuit, replace the right middle-row seat belt pretensioner assembly (use genuine parts and verify the new part resistance value matches the old part).
- 6System verification: Restore connections, clear fault codes, perform an ignition cycle, use a diagnostic tool to read the live data stream and confirm resistance is normal (1.5-3.0Ω), and finally perform an SRS system self-diagnosis to confirm no faults are present.
Real-World Cases
Worn right second-row seat wiring harness caused short circuit in Song MAX
A 2019 BYD Song MAX logged DTC B177D. Inspection found that when the right second-row seat was fully forward, the seatbelt pretensioner harness interfered with the metal edge of the seat rail. Prolonged friction wore through the insulation, exposing copper cores that contacted the body and shorted to ground. Repair: Repaired the damaged harness (3 wires, one completely severed), added corrugated tubing for protection, and repositioned the harness clips to eliminate interference throughout the full seat travel. After clearing the code, resistance returned to 2.1Ω.
Tang DM-i pretensioner connector water ingress corrosion
2021 Tang DM-i logged DTC B177D after the rainy season. Removed the right middle row seat and found green corrosion inside the pretensioner connector at the seat base. Moisture between the pins caused a micro-short; resistance measured near 0Ω.
Root cause: Water entered when the vehicle waded through water above the door sill, or through a blocked sunroof drain tube.
Repair: Cleaned the connector terminals, removed corrosion with electronic cleaner, applied conductive grease, and replaced the waterproof seal ring. Recommend checking the other seat connectors on the same side.
Yuan EV Seatbelt Pretensioner Internal Squib Short Circuit Replacement Case
2019 BYD Yuan EV set DTC B177D after collision repairs. The right second-row seatbelt pretensioner took a side impact without deploying. Disassembly revealed the pretensioner squib's bridgewire had deformed and shorted from the impact, measuring 0.2Ω. Pretensioners are single-use safety components; internal damage can cause electrical faults even without deployment. Solution: Replaced the right second-row seatbelt assembly (including pretensioner). New part measured 1.8Ω and the fault cleared. Check resistance on all seatbelt pretensioners when repairing accident-damaged vehicles.
Qin Pro: Human-induced fault after repair
2020 Qin Pro developed DTC B177D following replacement of the right-hand second-row seat trim. Inspection traced the fault to the technician pinching the pretensioner harness in the seat frame gap during seat removal and installation; this went unnoticed during reassembly, crushing the harness and shorting it to the frame. The technician had also used a standard multimeter on the resistance setting to directly measure the pretensioner—while not the direct cause, this presented a safety risk.
Technicians freed the trapped harness, repaired the damaged section, dressed burrs on the seat frame, and fitted protective sleeving to the harness. Staff received training on SRS system operating standards.
Multi-model SRS ECU software false positive fix
Multiple BYD models (2021 Tang, 2019 Song MAX, etc.) have an algorithm defect in specific batches of SRS ECU software. Cold starts below -10°C trigger false B177D codes. Measured pretensioner resistance is 2.0Ω (normal); harness shows no shorts. VDS freeze frame data confirms the fault only occurs at cold start.
Solution: Update SRS control unit software to the latest version (confirm version number for the specific model). Fault clears after upgrade. This is a software false fault; no hardware replacement needed.
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.