B176B-00
This DTC indicates the SRS (Supplemental Restraint System) control unit detects the left rear seat belt pretensioner ignition circuit resistance is below the normal system-calibrated threshold (the standard value is typically 2 — Atto 8
Safety System
This DTC indicates the SRS (Supplemental Restraint System) control unit detects the left rear seat belt pretensioner ignition circuit resistance is below the normal system-calibrated threshold (the standard value is typically 2.0Ω±0.3Ω; values below 1.0Ω trigger this code).
The pretensioner uses a pyrotechnic igniter to tighten the seat belt during a collision, removing slack between the webbing and the occupant.
Low resistance indicates a potential short circuit.
Possible causes include a wiring harness short to ground, bridged connector pins, an internal short in the pretensioner igniter, or a faulty internal sampling circuit in the SRS control unit.
This fault forces the airbag system into a degraded mode.
The left rear pretensioner may fail to deploy during a collision or deploy unintentionally without a collision, severely compromising passive safety.
Likely Causes — Atto 8
- 1Water ingress, oxidation, or bent pins in the left rear seat belt pretensioner connector (usually located inside the lower B-pillar trim panel or under the seat) causing a short circuit.
- 2Damaged wiring harness insulation between the pretensioner and the SRS control unit contacts vehicle body metal, causing a short to ground. Chafing is especially common at the seat slide rails or B-pillar routing holes.
- 3Aging or damage to the internal pretensioner squib causes an internal short circuit, resulting in permanently low resistance.
- 4Short circuit caused by foreign objects (such as metal toys or liquids) corroding or deforming the wiring harness under the rear seat.
- 5False alarm triggered by an internal A/D conversion circuit or sampling resistor fault in the SRS control unit (uncommon, but requires inspection)
What To Do
- 1Use a dedicated diagnostic tool (such as BYD ED400 or Launch X431) to read the complete SRS fault codes, confirm whether B176B-00 is a Current or History code, and record the freeze frame data.
- 2Perform the safe power-down procedure: turn off the ignition, disconnect the negative battery terminal, and wait at least 3 minutes to fully discharge the SRS system capacitors and prevent accidental deployment.
- 3Remove the left rear B-pillar lower trim panel (or seat back side panel). Locate the yellow seat belt pretensioner connector and visually inspect for signs of water ingress, green corrosion, deformed pins, or looseness.
- 4Test with the dedicated SRS system dummy load: Disconnect the pretensioner connector and connect the dummy load to the wiring harness side (leading to the SRS control unit). The resistance should read normal. If measuring the wiring harness side directly shows abnormally low resistance (<1Ω), this indicates a short circuit in the wiring harness.
- 5Inspect the pretensioner wiring harness insulation integrity along its routing path (through the lower B-pillar and floor wiring channel to the center tunnel). Specifically check the harness near the seat slide rail for wear or exposed wires caused by repeated seat adjustment.
- 6If the wiring harness tests normal, the pretensioner unit is faulty. Replace the left rear seat belt assembly (including the pretensioner retractor). Never remove the pretensioner module separately.
- 7After installing the new component, restore all connections and reconnect the battery. Use the diagnostic tool to clear the fault code and perform the 'SRS system self-check' or 'igniter resistance learning' procedure.
- 8Perform a road test simulation (including bumpy roads). Confirm the airbag warning light turns off and the system generates no new fault codes. Finally, reinstall the interior trim panel.
Real-World Cases
Water ingress in the B-pillar connector caused a short circuit.
A 2017 Qin EV300 came in with the airbag warning light on after driving in heavy rain. Read DTC B176B-00 (current). Removed the lower left rear B-pillar trim and found standing water inside the yellow pretensioner connector, along with green corrosion between the pins. Multimeter showed 0.6Ω to ground at the harness side, confirming a short caused by water intrusion. Cleaned the connector thoroughly with electronic cleaner, dried it, applied conductive grease for waterproofing, and reconnected. The code cleared and the system returned to normal. Recommend inspecting the B-pillar trim seal for deterioration that may be allowing water ingress.
Wiring harness chafed at seat track, short to earth
Airbag warning light illuminated intermittently after frequent adjustment of the left rear seatback angle. DTC B176B-00 stored as intermittent. Inspection found the pretensioner harness insulation chafed through at the seat hinge-to-slide rail junction, with exposed copper wire contacting the seat frame and causing a short to ground. Repaired by cutting out the damaged harness section, soldering in an extension wire, and protecting with corrugated tubing. Rerouted the harness away from the seat movement path, ensuring sufficient slack without contacting metal components. Fault resolved.
Internal short circuit in pretensioner after accident repair
A Qin 100 persistently set DTC B176B-00 after accident repair and the code would not clear. Inspection found the left rear seat belt had been replaced with a salvage part. After ruling out wiring harness faults using a dedicated load simulator, we measured the pretensioner body resistance directly: 0.4Ω, far below specification. This confirmed an internal short in the igniter. We replaced the left rear seat belt assembly with a new genuine unit (including pretensioner), performed 'Configure New Module' and 'System Calibration' via the diagnostic tool, and cleared the fault code. Never use salvage parts from accident vehicles or measure airbag/pretensioner resistance directly; always use the substitute load method.
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.