B162B
DTC B162B indicates the SRS (Supplemental Restraint System) control module detects the driver-side side airbag (typically the seat side airbag or side curtain airbag) igniter (squib) resistance is below the system threshold (typically <1 — Seal 6 EV
Safety System
DTC B162B indicates the SRS (Supplemental Restraint System) control module detects the driver-side side airbag (typically the seat side airbag or side curtain airbag) igniter (squib) resistance is below the system threshold (typically <1.0Ω or below the standard range of 2.0-3.0Ω).
This fault indicates a short-circuit risk in the wiring or airbag assembly.
The system enters safety mode to prevent accidental airbag deployment or failure.
Triggering this fault disables the affected airbag circuit.
The airbag may fail to deploy during a side-impact collision, severely compromising occupant protection.
Additionally, a continuously illuminated SRS warning light indicates the entire airbag system may operate in a degraded protection mode.
Likely Causes — Seal 6 EV
- 1Short to ground caused by a worn or pinched airbag wiring harness under the driver's seat: Frequent forward and backward seat movement can wear through the insulation on the yellow airbag wiring harness near the seat rail, causing the wire to directly contact the vehicle body metal.
- 2Internal short circuit in the airbag connector (yellow plug): Water ingress, oxidation, corrosion, or terminal deformation causes abnormal contact between the positive and negative terminals, resulting in abnormally low resistance.
- 3Internal short circuit in driver side airbag assembly: Short circuit in the airbag igniter internal bridge wire or pyrotechnic charge drops resistance well below the standard value (<1.0Ω).
- 4Seat modifications or added equipment causing wiring faults: Installing aftermarket seat heating pads, massage pads, or seat covers pierces or crushes the airbag wiring harness, causing a short circuit between wires.
- 5SRS control module internal detection circuit fault: A faulty A/D converter or monitoring chip in the control module falsely reports low resistance (rare; rule out wiring faults before considering this cause).
What To Do
- 1Safety preparation: Switch the vehicle to OFF, disconnect the 12V battery negative terminal, and wait at least 90 seconds to fully discharge the SRS capacitor and prevent accidental airbag deployment.
- 2Initial check: Use the diagnostic tool to read the complete fault codes and freeze frame data. Confirm B162B is a current fault, not a history fault. Inspect the yellow connector for the driver seat side airbag (located on the outer side of the seat backrest or the side of the seat cushion) for looseness, water ingress, or obvious damage.
- 3Harness insulation test: Disconnect the airbag connector. Use a multimeter to measure the resistance from both terminals on the harness side (ECU side) to body ground. Normal resistance is >1 MΩ (infinite). If the resistance is low, inspect the harness under the seat for wear or damaged insulation, focusing on the seat slide rail mounting points and harness retaining clips.
- 4Component resistance measurement: After disconnecting the airbag connector, directly measure the resistance between the two terminals of the airbag assembly (airbag side). The normal range is 2.0-3.0Ω (1.5-3.0Ω on some models). If the measured resistance is <1.0Ω or close to 0Ω, this indicates an internal short circuit in the airbag inflator. Replace the driver-side side airbag assembly.
- 5Wiring harness repair: If the wiring harness is worn and short-circuited, repair the damaged wiring (use waterproof insulating tape or replace the wiring harness). Ensure the harness has sufficient slack throughout the full seat travel. Re-secure the harness to the seat frame clips to prevent contact with metal edges.
- 6System verification: Reconnect all connectors, reconnect the battery, and use the diagnostic tool to clear the fault codes. Perform an SRS system self-diagnosis and confirm DTC B162B does not return. Finally, move the seat forward and backward, then read the data stream again to confirm the resistance value remains stable within the normal range.
Real-World Cases
Worn seat rails caused a short circuit in the wiring harness on the BYD Song Pro.
A 2020 BYD Song Pro DM with 30,000 km on the odometer showed an airbag warning light on the instrument cluster. Retrieved DTC B162B (driver airbag resistance too low). Inspection found worn insulation on the yellow wiring harness beneath the driver's seat at the front-most position of the slide rail, with the copper wire contacting the seat frame and causing a short to ground. Repaired by wrapping the damaged harness, rerouting the wiring, adding protective sleeving, and installing additional harness retaining clips at the slide rail to prevent recurrence. After clearing the DTC, resistance returned to normal at 2.3 Ω.
Seat modification caused airbag fault in BYD Tang EV
The owner of a 2021 Tang EV reported the airbag warning light illuminated after installing an aftermarket seat ventilation system. The scan tool displayed DTC B162B. Inspection found the installers had not disconnected the battery when removing the seats, and had routed the ventilation hoses over the airbag harness, pressing on it and causing an internal short. After removing the aftermarket components, the airbag module resistance measured normal, but the harness side showed 0.5 Ω to ground. Replaced the seat wiring harness; fault cleared. Always disconnect the negative battery terminal for at least 90 seconds before removing or installing any seat.
BYD Yuan EV airbag connector corroded due to water ingress
My 2019 BYD Yuan EV threw a B162B fault code after I drove through deep water during a heavy rain. I found obvious water stains and verdigris inside the driver’s seat side airbag connector (under the seat), causing a micro-short between the terminals (resistance 0.8Ω). I cleaned the connector terminals with electronic contact cleaner, blow-dried them, applied conductive protectant, and replaced the waterproof seal. I also checked the floor drain holes for blockages. After the repair, the resistance returned to 2.1Ω.
BYD Qin Pro airbag module internal short circuit
2020 BYD Qin Pro petrol variant, no accident history. The instrument cluster suddenly displayed an airbag warning. Retrieved fault code B162B. Measured the seat wiring harness (infinite resistance to ground) as normal, but direct measurement across the airbag unit terminals showed only 0.3Ω. Diagnosed an internal short circuit in the airbag igniter. Replaced the driver's side airbag (seat-integrated type) and cleared the fault. The cause may be a batch quality defect within the airbag or long-term vibration causing the internal bridge wire to fracture and short to ground.
BYD Han EV false alarm: loose connection
The 2022 Han EV intermittently logged DTC B162B, and the warning light sometimes went out while driving. Diagnosis found the driver seat airbag connector was fully seated, but the internal terminal spring clips lacked sufficient tension. This caused contact resistance to momentarily drop below 1.0Ω during vehicle vibration, triggering the fault. Fix: use a dedicated pin removal tool to adjust the spring clip angle and increase contact pressure, or replace the connector terminals. After the repair, one week of continuous monitoring showed no recurrence.
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]