B1785-00
This fault code indicates the circuit resistance of the driver-side dual-stage front airbag second-stage igniter (squib) falls below the threshold set by the SRS control unit (standard value: 2 — Seal 6 EV
Safety System
This fault code indicates the circuit resistance of the driver-side dual-stage front airbag second-stage igniter (squib) falls below the threshold set by the SRS control unit (standard value: 2.0 ± 0.3 Ω; fault triggers at <1.0 Ω or near 0 Ω).
The second-stage airbag deploys with a delay during severe collisions, providing staged protection alongside the first stage.
Low resistance indicates a short circuit risk, which may cause: 1) the second-stage airbag to fail to deploy normally during a collision, reducing protection effectiveness; 2) unintended airbag deployment in extreme cases due to wiring abnormalities.
This is a hard fault.
The SRS system illuminates the warning light and may disable related airbag functions.
Likely Causes — Seal 6 EV
- 1Driver airbag module internal second-stage igniter shorted or damaged (airbag assembly fault)
- 2Internal wiring short circuit or damaged interlayer insulation in the clock spring (spiral cable/clockspring reel).
- 3Water ingress, oxidation, or bent pins in the airbag wiring harness connector causing abnormal continuity.
- 4Fault in the SRS control unit internal sampling resistor or A/D conversion circuit causing a false alarm.
- 5Wiring harness pinched or damaged during steering wheel modification, removal, or installation, causing a short to ground.
What To Do
- 1Use a dedicated diagnostic tool (such as BYD ED400 or Launch X431) to read the fault code, confirm B1785-00 is a current fault rather than a history fault, and record the freeze frame data.
- 2Visually inspect the steering wheel and airbag cover for damage, signs of water ingress, or unauthorized modifications. Check the status of the SRS fault indicator.
- 3Disconnect the battery negative terminal and wait at least 90 seconds (to fully discharge the SRS backup capacitor). Do not omit this step.
- 4Remove the driver airbag module (use the special tool or an Allen wrench; avoid forced removal). Check the clock spring connector for water ingress, oxidation, or deformed pins.
- 5Replace the actual airbag with an airbag simulator (2Ω substitute resistor) and measure the circuit resistance from the clock spring to the SRS ECU. The standard resistance is 2.0-3.0Ω. A resistance of <1.5Ω indicates a short circuit in the wiring.
- 6Step-by-step diagnosis: Disconnect the clock spring. Measure the airbag side and the wiring harness side separately. The airbag side should measure >10 kΩ or infinite; a lower value indicates an internal airbag short circuit. The wiring harness side should measure 2-3 Ω; a lower value indicates a wiring harness short circuit.
- 7Check the SRS ECU connector (usually under the center console or near the gear selector) for water ingress and corrosion, and measure the ECU-side wiring harness insulation resistance to ground (should be >1MΩ).
- 8Replace the faulty component based on the measurement results: if the airbag resistance is abnormal, replace the airbag assembly; if the clock spring is abnormal, replace the clock spring; if the wiring harness is abnormal, repair the wiring harness.
- 9Reinstall all components, connect the battery, clear the fault codes, and perform a system self-check (ignition switch in the ON position; the SRS warning lamp illuminates for 6 seconds and then turns off, indicating normal operation). If necessary, perform a vehicle crash simulation test using special equipment.
Real-World Cases
2018 BYD Qin EV450 clock spring internal short causes low resistance
After driving through water, the SRS warning light stayed on. Retrieved DTC B1785-00. Disassembly revealed water inside the clock spring connector. Airbag assembly resistance measured normal (2.1Ω), but the clock spring output terminal showed only 0.8Ω to ground. Replaced the clock spring; fault cleared. Root cause: water created conductive paths between the clock spring layers, pulling down the secondary airbag circuit resistance.
Aftermarket steering wheel modification damaged wiring harness on 2017 Qin 80, causing short circuit
The owner fitted an aftermarket racing steering wheel but later reverted to the factory unit. DTC B1785-00 appeared shortly after. Inspection revealed the steering wheel frame's sharp edge had cut the airbag wiring harness during removal and refitting, causing copper wires to contact the metal frame and short to ground. Repaired the harness and re-insulated the damaged section, restoring resistance to 2.3Ω. Cleared the fault code and the system returned to normal.
Qin EV300 airbag module internal igniter fault
The SRS warning light suddenly illuminated during normal driving. No water ingress or collision history. Measured second-stage circuit resistance at the airbag connector: only 0.3Ω, significantly below spec. Disconnected the clock spring and measured airbag resistance directly: still 0.3Ω. Diagnosed as internal short in the second-stage igniter. Replaced the driver airbag assembly (including airbag module and igniter). Fault resolved.
SRS ECU sampling circuit fault — false positive
Measured airbag and wiring harness resistance multiple times; readings normal (2.2Ω). ECU still set B1785-00. Oscilloscope check of ECU sampling terminal revealed abnormal pulse interference. Power and ground good. Fault isolated to internal ECU analogue front-end circuit. Replaced SRS control unit, recoded and matched. Fault did not recur.
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. Sources: [1]