B1792
DTC B1792 indicates the driver-side second-stage seat belt pretensioner circuit resistance falls below the normal range calibrated by the SRS ECU (typically 2 — Atto 3
Safety System
DTC B1792 indicates the driver-side second-stage seat belt pretensioner circuit resistance falls below the normal range calibrated by the SRS ECU (typically 2.0-3.0Ω).
The second-stage pretensioner features a seat belt retractor with a dual-stage igniter that deploys in stages based on collision severity.
A low resistance value (<1.5Ω or close to 0Ω) indicates abnormal conduction resulting from an internal short circuit in the pretensioner igniter, a wiring harness short to ground, or connector water ingress and oxidation.
This fault forces the SRS system into fail-safe mode, disabling the pretensioner and associated airbag functions.
In extreme cases, the pretensioner may deploy without a collision or fail to operate during a collision, severely compromising the occupant restraint system's protection performance.
Likely Causes — Atto 3
- 1Seat belt pretensioner internal igniter short circuit: Moisture ingress, aging, or manufacturing defects in the pretensioner cause a short circuit between the internal bridgewire and the housing, resulting in abnormally low resistance.
- 2Wiring harness connector fault: Water ingress, oxidation, deformed pins, or loose connections at connector K71 under the seat (pins 17/18) causing a signal wire short to ground or abnormal contact resistance.
- 3Seat movement interference: Frequent seat adjustment causes the pretensioner wiring harness to chafe at the seat rail, wearing through the insulation and shorting the core wire to body ground.
- 4SRS ECU detection circuit fault: Internal A/D conversion circuit or sampling resistor fault in the airbag control module falsely reports low resistance (rule out via cross-validation).
- 5Improper repair after an accident: Pretensioner deployed during a collision but not replaced, or incorrect use of a multimeter on the high-current range during repair caused a partial short circuit in the igniter.
What To Do
- 1Safe power-down: Turn the power switch to OFF, disconnect the negative battery terminal, and wait at least 90 seconds to fully discharge the SRS capacitor and prevent accidental deployment.
- 2Fault confirmation: Connect VDS or a dedicated diagnostic tool, read SRS system fault codes, confirm B1792 is a current fault, not a history fault, and record freeze frame data.
- 3Visual inspection: Check the exterior of the driver seat belt pretensioner for impact deformation or water marks. Check connector K71 for looseness and the pins for oxidation or deformation.
- 4Resistance measurement: Disconnect connector K71 and use a high-precision multimeter to measure the pretensioner-side resistance (standard value: 2.0-3.0 Ω). If <1.5 Ω, replace the pretensioner assembly. Measure the harness-side resistance to ground (should be >1 MΩ). If abnormal, inspect the wiring harness for a short circuit.
- 5Harness continuity test: Measure continuity of KJ10-1 (Y/L wire) and KJ10-2 (B/Y wire) between the ECU and the pretensioner (<1Ω). Check insulation to body ground and power supply.
- 6Replacement verification: If the pretensioner resistance is normal, test with a known-good pretensioner. If the fault code clears, the original pretensioner has an internal fault.
- 7Repair and verification: After repairing or replacing the faulty component, reconnect all connectors. Turn the power to ON and wait 20 seconds for the system self-check. Verify the fault code clears and the airbag warning light turns off. Move the seat forward and backward to confirm no intermittent faults occur.
Real-World Cases
BYD Qin seatbelt pretensioner internal short circuit
The instrument cluster airbag warning light stayed on. Retrieved DTC B1792-00. Disconnected the K71 connector and measured the driver's pretensioner resistance at only 0.8Ω (standard 2-3Ω), indicating an internal igniter short. Found water stains at the pretensioner mounting bracket from a previous sunroof leak; determined prolonged moisture exposure caused the internal short. Replaced the driver's seatbelt pretensioner assembly, cleared the sunroof drain blockage, and erased the fault codes. System returned to normal.
Original source ↗BYD Surui seat wiring harness poor contact
Airbag warning light intermittent; DTC B1792 intermittent. Found the K71 connector under the driver's seat loose with visible pin oxidation. Measured pretensioner resistance—normal, but shaking the seat caused fluctuations and intermittent shorts. Frequent seat adjustments had dislodged the harness retaining clip, letting the seat rail interfere with the wiring. Cleaned the pin oxidation, applied conductive grease, re-secured the harness routing, and fitted anti-abrasion sleeving. Fault resolved.
BYD G6 pretensioner fault after accident repair
Front collision repairs left the SRS warning light on with stored codes B1792 and crash sensor fault. The driver's seatbelt pretensioner had deployed in the accident but was never replaced; the repairer only reset it. Resistance across the pretensioner measured infinite (open circuit), but the connector pins had deformed during repairs, shorting the signal wire to ground (false short). The ECU flagged the low resistance first. Replaced the pretensioner assembly, repaired the connector pins, and recalibrated the SRS ECU. Fault cleared.
Water wading caused pretensioner short circuit in BYD Song MAX
After 3 years, the airbag warning light suddenly lit up. No collision history. DTC B1792. Measured pretensioner resistance at 0.5Ω, significantly below spec. Found water ingress marks on the driver's side carpet and green corrosion inside the pretensioner connector. Traced the issue to a detached AC drain hose causing condensation buildup. Replaced the pretensioner assembly, cleaned the connector, repaired the AC drain hose, and dried and waterproofed the wiring harness. Fault resolved.
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.