B174B
This DTC indicates the SRS (Supplemental Restraint System) ECU detects that the igniter circuit resistance for the left rear side airbag (typically located in the left rear seat backrest side or C-pillar trim panel) is below the calibrated threshold (typically < 1 — Atto 3
Safety System
This DTC indicates the SRS (Supplemental Restraint System) ECU detects that the igniter circuit resistance for the left rear side airbag (typically located in the left rear seat backrest side or C-pillar trim panel) is below the calibrated threshold (typically < 1.5Ω; standard value 2.0 ± 0.3Ω).
Electrically, low resistance usually indicates a parallel resistance path in the circuit.
Possible causes include an inter-turn short circuit in the internal igniter coil, damaged wiring harness insulation shorting to body ground, or conductive contamination between connector terminals.
This fault forces the SRS into a degraded mode.
During a collision, the ECU may disable deployment of the affected airbag due to the circuit anomaly (fail-safe).
Furthermore, if the resistance drops near 0Ω, the system risks inadvertent deployment.
This safety-critical fault requires immediate repair.
Likely Causes — Atto 3
- 1Internal short circuit in the left rear side airbag squib: Aging, moisture ingress, or manufacturing defects cause an inter-turn short circuit in the gas generator ignition coil inside the airbag module, reducing total resistance.
- 2Harness chafing short to ground: A damaged wiring harness sleeve at the seat frame, slide rail, or hinge allows the igniter harness (usually yellow) to contact vehicle body metal, creating a parallel resistance to ground.
- 3Connector water ingress or corrosion: An aging left rear door frame seal or driving through water allows moisture to enter the seat side airbag connector. This causes electrolytic corrosion or forms a conductive water film between the terminals, reducing circuit resistance.
- 4Rear seat modification damage: During unprofessional installation of seat covers or heating pads, or seat repairs, retaining screws pierce or pinch the wiring harness, damaging the insulation and causing a short circuit.
- 5SRS ECU sampling circuit fault: Abnormal internal A/D converter or sampling resistor in the control unit causes a false low resistance reading (actual resistance is normal, but the detected value is low).
What To Do
- 1Safety preparation: Set the vehicle to OFF and disconnect the low-voltage battery negative terminal. Wait at least 3 minutes for the SRS ECU capacitor to fully discharge and prevent accidental airbag deployment.
- 2Fault confirmation: Connect the VDS or dedicated diagnostic tool. Read the fault codes and confirm B174B is active. Record the freeze frame data (vehicle speed, temperature, etc. at the time of occurrence).
- 3Physical inspection: Check the airbag label location on the side of the left rear seat (door side) for external damage, water stains, or signs of removal. Inspect the wiring harness connector under the seat for looseness, backed-out pins, or green corrosion.
- 4Circuit isolation test: Disconnect the SRS ECU connector and the airbag module connector. Use a multimeter to measure the resistance to ground of both terminals on the wiring harness side (should be > 1MΩ) and the continuity resistance between the terminals (should be < 1Ω). Verify the wiring harness insulation is good.
- 5Airbag module inspection: Use a dedicated airbag resistance meter (or a digital multimeter set to the low-resistance range; verify equipment safety) to measure the resistance between the two terminals of the airbag module connector. Standard resistance is 2.0±0.3Ω. If the measured value is < 1.5Ω, the module has an internal short circuit.
- 6Fault repair: If the wiring harness has a short circuit, repair the damaged section and protect it with insulating tape and corrugated conduit; if the connector shows corrosion, clean it with electrical contact cleaner and apply conductive grease; if the airbag module is faulty, replace the left rear side airbag module (replace or transfer the wiring harness simultaneously).
- 7System verification: Restore all connections. Reconnect power and use the diagnostic tool to clear the fault code. Perform the SRS system self-check (approximately 20 seconds) and confirm B174B does not return. Perform a road test and verify the airbag warning light turns off and remains off.
Real-World Cases
Poor contact at left rear side airbag connector (BYD Qin)
The airbag warning light on my 2020 BYD Qin stayed on. Using a scan tool, I retrieved DTC B174B-00. I found the left rear seat side airbag connector was not fully seated, with a gap of about 1 mm causing unstable terminal contact resistance that sometimes dropped to 0.8 Ω. I disconnected and reconnected the connector, verified the latch engaged fully, and the resistance returned to normal (2.1 Ω). Clearing the DTC fixed the issue.
Original source ↗BYD Tang seat rail wear causes wiring harness short circuit
A 2021 BYD Tang had an intermittent airbag warning light while driving. Diagnostics showed DTCs B174B (resistance too low) and B174C (resistance too high) alternating. Removing and inspecting the left rear seat revealed the seat rail rubbing against the wiring harness during fore-aft adjustment, damaging the yellow airbag harness insulation. The copper wires contacted the metal rail, causing an intermittent short to ground. Replaced the damaged harness section, rerouted and secured the harness, and fitted a protective sleeve. The fault was eliminated.
BYD Song MAX fault after rear seats removed and refitted
A 2019 Song MAX's airbag warning light came on after the owner removed and refitted the left rear seat cover. Diagnostic testing revealed DTC B174B. Inspection found that during removal, the owner had fully unplugged the side airbag connector on the seat backrest. When reconnecting, they misaligned the pins, which deformed the terminals and caused a short circuit. Replaced the airbag harness connector (with terminals) and restored the connections using a dedicated crimping tool. After clearing the fault code, the system returned to normal.
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.