B1651-00
This DTC indicates the airbag control unit (SRS ECU) detects the front passenger seat belt pretensioner circuit resistance exceeds the calibrated upper limit (typically >3 — Atto 8
Safety System
This DTC indicates the airbag control unit (SRS ECU) detects the front passenger seat belt pretensioner circuit resistance exceeds the calibrated upper limit (typically >3.5Ω, standard value approximately 2.0Ω±0.4Ω).
Electrically, the pretensioner is essentially a squib consisting of a resistance wire and an igniter charge.
High resistance usually indicates high impedance or an open circuit.
Potential causes include a partially blown internal resistance wire in the pretensioner, increased connector contact resistance, or a hidden open circuit in the wiring harness.
This fault causes the SRS system to enter degraded mode: during a frontal collision, the front passenger seat belt fails to pretension automatically, and the system may suppress the front passenger airbag deployment strategy, severely compromising passive safety performance.
Likely Causes — Atto 8
- 1Seat belt pretensioner assembly internal aging: Long-term vibration or thermal cycling oxidizes and thins the pretensioner igniter resistance wire, causing the resistance value to drift beyond the threshold.
- 2Poor wiring harness connector contact: The yellow SRS connector under the seat or at the B-pillar (usually beside the front passenger seat rail or inside the lower B-pillar trim panel) has oxidized or loose terminals, or the interlock shorting bar fails to fully disengage, causing increased contact resistance.
- 3Damaged floor wiring harness: water ingress from driving through water, carpet cleaning, or liquid spills in the front passenger area causes harness corrosion; frequent fore-and-aft seat adjustment causes harness fatigue and breakage (especially repeated bending when the under-seat harness retaining clip detaches).
- 4SRS ECU sampling circuit error: Fault in the control unit's internal A/D conversion circuit or sampling resistor causes resistance reading deviation (rule out via cross-checking).
- 5Improper modification or repair: Replacing the front passenger seat with non-genuine parts or splicing wires during seat heating/ventilation retrofits introduces additional series resistance in the pretensioner circuit or causes poor connections due to damaged insulation.
What To Do
- 1Safety preparation: Turn the vehicle OFF, disconnect the 12V battery negative terminal, and wait at least 90 seconds for the SRS capacitor to fully discharge. Wear an anti-static wrist strap and disable wireless communication devices.
- 2Fault confirmation: Connect the VDS2000 or BYD dedicated diagnostic tool and read the fault code status. Confirm whether B1651-00 is 'Active' or 'History'. If multiple SRS fault codes exist, troubleshoot common power supply and ground issues first.
- 3Physical location: Remove the front passenger seat (4 retaining bolts, torque usually 40-50 N·m) or the lower B-pillar trim panel. Locate the pretensioner wiring harness connector marked in yellow (usually labeled F-P/T or PRETENSIONER FR RH).
- 4Offline measurement: Disconnect the pretensioner connector. Use a digital multimeter (low-resistance range, 0.1 Ω accuracy) to measure the resistance directly across the two terminals on the pretensioner side. Normal value: 1.6–2.4 Ω. If the resistance is >3.0 Ω or infinite, the pretensioner itself has failed. Replace the seat belt assembly (the pretensioner cannot be replaced separately).
- 5Harness inspection: If the pretensioner unit resistance is normal, inspect the connector pins for oxidation or blackening and the female terminals for spreading. Measure harness continuity from the connector to the SRS ECU (located under the centre console or in the front compartment). Resistance must be <1.0 Ω. Inspect the harness under the seat for wear within the seat rail movement range.
- 6Insulation check: Use a megohmmeter to measure the insulation resistance between the pretensioner circuit and body ground. Resistance must be >10MΩ. If the insulation value is low, inspect the wiring harness for chafing and shorts to the body.
- 7System reset: After repairing or replacing the faulty component, reconnect all connectors (listen for the locking 'click') and reinstall the seat. Connect the battery, switch the ignition to ON, use the diagnostic tool to clear the fault code, and perform 'SRS system configuration' (if installing a new part, write the VIN and configuration code).
- 8Function verification: Perform an SRS system self-diagnosis to confirm B1651-00 no longer appears. Verify the instrument cluster airbag warning light turns off after the 6-second self-check. Use an SRS deployment simulation tool (such as a 10Ω resistor) to verify the ECU sampling circuit operates normally before conducting an on-vehicle test.
Real-World Cases
Qin EV450 front passenger pretensioner high resistance fault following water ingress
A 2018 Qin EV450 had water on the passenger floor from a blocked sunroof drain. After the customer dried the carpet, the airbag warning light stayed on. The retrieved DTC was B1651-00. Inspection found water inside the SRS wiring harness connector under the passenger seat, and the pins had green copper corrosion. After cleaning the connector and applying conductive grease, the pretensioner resistance returned to 2.1 ohms, but the continuity resistance from the harness side to the ECU fluctuated between 0.8 and 2.5 ohms. The copper wires inside the floor wiring harness had corroded and broken at the water accumulation point. Replacing the floor wiring harness resolved the fault. Recommend clearing the sunroof drains to prevent recurrence.
Seat modification on Qin 100 caused loose connection in pretensioner circuit
2017 BYD Qin 100. Owner had the front passenger leather electric seat replaced at an outside shop with an aftermarket unit. One week later, DTC B1651-00 set. Inspection found the shop used non-standard crimp terminals when transferring the original seatbelt pretensioner connector, and didn't waterproof them. The pretensioner circuit had about 2.5Ω of contact resistance in series. The shop re-soldered the wiring harness, sealed it with heat shrink tubing, and installed a genuine connector. Resistance returned to normal. Reminder: Seat modifications involving SRS must use genuine wiring harness and terminals. Simple twisting or splicing is strictly prohibited.
Intermittent B1651-00 due to seat rail interference
A Qin EV300. The customer reported the airbag warning light would occasionally illuminate, especially after adjusting the front passenger seat forward or backward. DTC B1651-00 was intermittent. Inspection found the wiring harness retaining clip beneath the seat had detached. The seat rail track repeatedly pinched the harness, causing some internal copper strands to fracture while the insulation remained intact, creating high resistance. Repaired the harness, re-secured the clip, and adjusted the wiring slack to provide enough free play at both full-forward and full-rearward seat positions. The fault did not recur. This case shows the importance of securing wiring harnesses.
Resistance drift due to pretensioner body aging
2017 BYD Qin 80, 120,000 km, no collision history. DTC B1651-00 set suddenly. Measured resistance at the pretensioner connector: 4.8Ω, too high. Disconnected the connector and measured the pretensioner body directly (requires removing the seatbelt retractor), reading 4.9Ω. Determined to be internal resistor wire aging in the pretensioner. Replaced the passenger side seatbelt assembly (with pretensioner), clearing the fault. Analysis: Long-term high temperatures (vehicle parked outdoors long-term) caused oxidation of the igniter's internal resistor wire. For this type of aging fault, replace the complete assembly directly; do not attempt repair.
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]