B164A-00
This DTC indicates the airbag control unit (SRS ECU) detects an open circuit or abnormal resistance in the front passenger seat belt pretensioner circuit — Seal 6 EV
Safety System
This DTC indicates the airbag control unit (SRS ECU) detects an open circuit or abnormal resistance in the front passenger seat belt pretensioner circuit.
Specifically, the ECU continuously monitors the pretensioner deployment circuit resistance via an internal bridge circuit (standard range: 1.6–3.0 Ω).
The ECU triggers DTC B164A-00 if it detects a resistance >6 Ω (open circuit) or <1 Ω (short circuit), or a communication interruption with the pretensioner.
As an active safety device, the pretensioner uses a pyrotechnic gas generator to generate tension within approximately 15 milliseconds of a collision, instantly retracting the seat belt webbing to eliminate slack against the occupant.
This fault indicates complete failure of this protective function.
Per the BYD SRS safety strategy, the system may enter a degraded mode (e.g., disabling side or curtain airbags), significantly increasing the risk of injury to the front passenger during a collision.
Likely Causes — Seal 6 EV
- 1Loose or poor contact at the dedicated yellow SRS connector under the front passenger seat (most common; frequent forward and backward seat adjustment causes the plug to loosen or partially disconnect).
- 2Long-term fatigue of the pretensioner wiring harness at the seat slide rail bend breaks the internal copper strands (outer insulation intact but core wire broken, creating an intermittent open circuit).
- 3Open circuit in the seat belt pretensioner internal resistance wire (pyrotechnic unit internal open circuit due to aging, moisture ingress, or previous collision impact)
- 4Liquid ingress under the seat during vehicle wading or interior cleaning causes oxidation and corrosion of the SRS connector pins, increasing contact resistance.
- 5Mistakenly disconnecting the SRS wiring during improper retrofitting of seat heating/ventilation or seat cover replacement, causing deformed pins, backed-out terminals, or a pinched and damaged wiring harness.
What To Do
- 1Safety preparation and initial diagnosis: Disconnect the 12V battery negative terminal for 3 minutes to release residual system voltage. Use the BYD dedicated diagnostic tool (VDS or X-431) to read freeze frame data. Record information such as vehicle speed and seat position when the fault occurred. Clear the fault code and test drive the vehicle to confirm if the fault is intermittent.
- 2Visually inspect the connector: Move the front passenger seat to the rearmost position. Inspect the yellow dedicated SRS connector under the seat (usually with a red locking tab). Verify the plug is fully inserted and the locking clip is engaged. Inspect the plug interior for water ingress, oxidation, or foreign matter.
- 3Measure pretensioner resistance: Disconnect the connector and use a multimeter to measure the resistance between the two terminals on the pretensioner side. The standard value is 1.6-3.0Ω (at normal ambient temperature). If the reading shows infinity (OL) or resistance >10Ω, diagnose a pretensioner unit fault and replace the front passenger seat belt assembly (the pretensioner integrates with the seat belt retractor; do not replace it separately).
- 4Harness continuity test: Measure harness continuity between the under-seat connector and the SRS ECU (usually beneath the centre tunnel). Inspect the harness at the seat slide rail bend points. Repair or replace the harness if an open circuit exists. Measure harness insulation to ground and power supply to rule out a short circuit.
- 5Check the ground connection and ECU: Verify the SRS ECU ground point (usually located on the dashboard crossmember or under the center tunnel) is secure. Ground resistance must be <1Ω. If all above checks are normal, suspect an internal SRS ECU fault. Replace the control unit and perform coding and matching.
- 6System reset and verification: Reconnect all components and turn on the power. Use the diagnostic tool to perform 'SRS System Configuration' or 'Seat Position Learning' (if applicable). Clear the fault codes. Perform static and dynamic tests. Confirm the airbag warning light turns off and the system has no fault codes.
Real-World Cases
Seat adjustment dislodged the connector on the Qin EV300.
The airbag warning light was on when the vehicle arrived. The scan tool retrieved DTC B164A-00. Inspection found the front passenger seat adjusted fully forward to accommodate cargo; the yellow SRS connector locking tab under the seat was not fully engaged, leaving the connector partially seated. The connector had worked loose from frequent seat adjustments. Reseated the connector fully and locked the red retaining clip, then cleared the DTC to resolve the fault. Advised the customer not to place items under the seat that could interfere with the wiring harness.
Wiring harness fatigue fracture at Qin 80 seat rail
The vehicle came in with the airbag warning light on. DTC B164A-00 appeared intermittently. Initial inspection showed normal connectors and the pretensioner resistance measured within specification. When repeatedly moving the seat to simulate operating conditions, the fault reappeared. Peeling back the corrugated tube on the outer side of the seat rail revealed two of the four internal wires had completely fractured due to long-term flexing. Replaced the front passenger seat wiring harness assembly (P/N: X60-5813300), rerouted the wiring and added a harness protective sleeve, completely resolving the fault.
Connector corrosion on Qin EV450 after water wading.
Customer reported the airbag warning light illuminated after the vehicle drove through water. Inspection found the front passenger carpet damp, with obvious water staining and green copper corrosion inside the SRS connector beneath the seat. The pretensioner resistance measured normal, but the connector terminal contact resistance exceeded 5Ω. Cleaned the connector with electronic cleaner, blew it dry, and applied conductive grease. The fault temporarily cleared. However, it returned after one week. Eventually replaced the wiring harness connector and pretensioner (as moisture may have entered the pretensioner), and fixed the carpet waterproofing layer. This resolved the fault.
Aftermarket seat heater installation accidentally damaged SRS wiring
Vehicle developed B164A-00 after installation of an aftermarket seat heating pad. Inspection revealed the installer pried open the SRS connector with a screwdriver during seat disassembly, bending the pins, and the heating pad crushed and damaged the wiring harness during seat installation. Straightened the pins and replaced the damaged harness section. Removed the unauthorized modification; it compromised SRS system safety. Restored original wiring layout. Cleared the fault code. The system returned to normal.
Internal resistance wire of pretensioner aged, causing an open circuit
2017 BYD Qin 100, 80,000 km. Airbag warning light on. Inspected seat connectors and wiring harness – all normal. Direct measurement of pretensioner resistance showed infinite resistance. Disassembled seatbelt retractor, found pretensioner gas generator internal resistance wire fractured from long-term vibration fatigue. Replaced front passenger seatbelt assembly (including pretensioner), performed seatbelt pretensioner resistance configuration (some models require writing resistance value with diagnostic tool). 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. Sources: [1]