B16C6
DTC B16C6 (Left Front Seat Belt Pretensioner Deployment Control Circuit Low) indicates a low voltage or open circuit in the left front (driver side) seat belt pretensioner deployment control circuit — Atto 3
Safety System
DTC B16C6 (Left Front Seat Belt Pretensioner Deployment Control Circuit Low) indicates a low voltage or open circuit in the left front (driver side) seat belt pretensioner deployment control circuit.
This SRS (Supplemental Restraint System) subsystem fault involves the pyrotechnic pretensioner inside the seat belt retractor and its control circuit.
The airbag control unit (ACU) sets this DTC when it detects pretensioner circuit resistance outside the standard range (normally 2.0±0.1Ω), an open circuit, a short to ground, or abnormal voltage.
This fault forces the airbag system into a degraded mode.
During a collision, the left front seat belt pretensioner may fail to deploy and retract, severely compromising driver protection.
The instrument panel SRS warning lamp remains illuminated to indicate system failure.
Likely Causes — Atto 3
- 1Seat belt pretensioner internal open circuit or abnormal resistance: Aging, moisture, or manufacturing defects in the pretensioner igniter or resistance wire cause the resistance value to deviate from the standard range.
- 2Poor connector contact: The yellow dedicated connector between the pretensioner and the wiring harness has backed-out terminals, bent pins, oxidation, corrosion, or a locking tab not fully engaged, causing intermittent or permanent poor contact.
- 3Wiring harness mechanical damage: Frequent fore-and-aft seat adjustment, modification work, or assembly process issues cause internal copper wire breakage or insulation damage in the wiring harness under the seat, A-pillar, or sill area.
- 4Ground circuit fault: Loose bolts, corrosion, or paint residue at SRS system grounding points (usually near the left front door sill, instrument panel crossmember, or seat rails) cause excessive ground resistance.
- 5ACU internal fault: Damaged airbag control unit internal driver circuit or sampling circuit, or abnormal software calibration, causing a false pretensioner circuit fault.
What To Do
- 1Safety preparation and diagnostic confirmation: Use VDS or a dedicated diagnostic tool to read the fault code. Confirm B16C6 is a Current fault, not a History fault. Record the freeze frame data. Turn off the ignition switch, disconnect the battery negative terminal, and wait at least 3 minutes to fully discharge the SRS capacitor.
- 2Visually inspect the connector: Remove the left front B-pillar lower trim panel and check the connection status of the yellow dedicated seat belt pretensioner connector. Confirm the locking tab fully engages, with no looseness, water ingress, or foreign matter. Inspect the pins for bending, oxidation, burning, or backing out. Repair using the dedicated tool if necessary.
- 3Pretensioner resistance measurement: Disconnect the pretensioner connector. Measure the pretensioner unit resistance using a digital multimeter. Standard value: 2.0 ± 0.1 Ω. If the resistance is infinite (open circuit) or near 0 Ω (short circuit), replace the left front seat belt assembly (the pretensioner is not serviceable separately).
- 4Harness continuity and insulation test: Inspect the wiring harnesses under the seat, inside the A-pillar trim panel, and at the door sill. Focus on the area near the seat slide rail and harness pass-through holes. Measure harness continuity between the pretensioner connector and the ACU. Check for open circuits, shorts to ground, or shorts to power. Repair or replace damaged harness sections.
- 5Ground point inspection: Inspect the ground points at the left front door sill, the left side of the instrument panel, and near the seat rail. Verify the ground bolt tightening torque meets the standard (usually 8-10 N·m). Verify the grounding surfaces are clean and free of paint and corrosion. If necessary, sand the surfaces and apply conductive grease.
- 6ACU and system reset: If the pretensioner and wiring harness are normal, check the ACU output terminal signal. Perform coding configuration before replacing the ACU. After completing all repairs, reconnect the battery, clear the fault codes, and perform an SRS system self-check cycle (turn the ignition switch ON for more than 6 seconds). Confirm the fault light turns off and does not recur.
Real-World Cases
BYD Tang DM left front seat belt pretensioner wiring broken
Symptom: SRS warning light came on suddenly while driving. No collision history.
Diagnosis: VDS scan retrieved active fault code B16C6 (Left Front Seat Belt Pretensioner Circuit Low). Removed the left front seat and found the internal copper wire of the under-seat harness had broken from fatigue due to frequent forward/backward seat adjustment. Also noted slight oxidation on the pretensioner connector. Measured normal pretensioner resistance, but harness continuity test showed an open circuit.
Repair: Replaced the left front seat belt assembly (including pretensioner) as a preventive measure. Repaired the broken harness wire under the seat and added protective sleeving. Rerouted and secured the harness routing to avoid interference with the seat rails. Cleared the fault code and the system returned to normal.
Original source ↗BYD Song Pro: Seat modification caused poor pretensioner connector contact.
Symptoms: After starting the vehicle, the dashboard showed 'Check Airbag System' and the warning light stayed on. The owner reported having the seats reupholstered in leather a week before.
Diagnosis: Retrieved DTC B16C6 (Driver Side Seatbelt Pretensioner Circuit Fault). Removed the driver's seat and found the yellow pretensioner connector had been disconnected during the modification and not fully reseated, preventing the locking tab from engaging. The pins were slightly bent. Resistance across the pretensioner measured open circuit.
Repair: Straightened the bent pins using specialized tools, cleaned the connector contacts, and firmly reconnected the plug to ensure the locking tab engaged properly. Cleared the fault codes with a diagnostic tool and ran an airbag system self-test. Fault resolved.
Original source ↗BYD Qin Plus: Poor ground connection causing intermittent fault
Symptoms: After about 20,000 km, the airbag warning light illuminated intermittently, sometimes going out on its own after driving for a while, with no regular pattern.
Diagnosis: With the warning light on, retrieved current fault code B16C6 (Left Front Seatbelt Pretensioner Circuit Voltage Low). Inspection found the pretensioner connector locking tab not fully seated; wiggling the wire harness reproduced the fault. Further inspection revealed a loose ground bolt at the left front sill, causing unstable resistance in the SRS circuit.
Resolution: Tightened the ground bolt to the specified torque, sanded the mating surface to remove oxidation, and applied conductive paste to prevent further oxidation. Replaced the pretensioner connector lock (the retaining clip had fatigued). Re-routed and secured the wiring harness properly. Cleared the fault code and monitored the vehicle for one week; the fault did not recur.
Original source ↗BYD Han EV: New vehicle assembly defect caused pinched wiring harness
Symptoms: One week after taking delivery, the SRS warning light stayed on. No accident history; the vehicle drove normally.
Diagnosis: The dealership scanned the vehicle and retrieved DTC B16C6 (Driver seatbelt pretensioner deployment control circuit low). They checked the pretensioner connector and found a normal connection. They measured the pretensioner resistance at 2.0Ω, within specification. They inspected the wiring harness between the SRS control unit (ACU) and the pretensioner and found an assembly fixture inside the A-pillar trim had crushed it. Stripping back the harness insulation revealed internal copper wires partially fractured but not completely severed, causing intermittent poor contact.
Repair: They replaced the damaged harness section between the A-pillar and the pretensioner, rerouted the wiring to avoid the crush point, and fitted protective corrugated tubing. This completely resolved the fault.
Root cause: Factory assembly quality control issue.
Original source ↗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.