B1773-00
DTC B1773-00 indicates the airbag control unit (SRS ECU) failed to detect the electrical signal or communication response from the right rear seat belt pretensioner during the system self-check — Atto 3
Safety System
DTC B1773-00 indicates the airbag control unit (SRS ECU) failed to detect the electrical signal or communication response from the right rear seat belt pretensioner during the system self-check.
This passive safety system hardwire/communication fault indicates an abnormality in the squib circuit between the SRS module and the right rear seat belt pretensioner.
Causes include an open circuit, a short to ground or power, or the pretensioner internal igniter resistance falling outside the standard range (typically 1.5-3.5Ω).
This fault prevents the pretensioner from deploying and tightening the seat belt during a collision, significantly reducing occupant protection.
The SRS system also enters fail-safe mode, which may disable other airbags and illuminate the airbag warning light continuously.
Likely Causes — Atto 3
- 1Right rear seat belt pretensioner connector (usually a yellow waterproof plug) loose, disconnected, or making poor contact, commonly caused by frequent seat movement, a connector not fully seated after removal, or a broken locking tab.
- 2Open circuit or abnormal resistance in the pretensioner internal igniter tube (aging, moisture ingress, previous deployment, or manufacturing defect), preventing the SRS module from detecting the standard resistance circuit.
- 3Physical damage to the wiring harness causing an open or short circuit, especially harness pinching at the under-seat rails, wear points at bends inside the B-pillar trim panel, or fatigue fractures at the door hinge wiring hole.
- 4High resistance, intermittent open circuit, or oxidized connector pins in the communication circuit between the SRS control module and the pretensioner (especially in high-humidity areas or after driving through water).
- 5Failure to replace a deployed pretensioner after an accident, or installing a non-genuine part, causes a resistance mismatch, triggering the system to identify it as "not present".
What To Do
- 1Safety Preparation: Disconnect the negative battery terminal and wait at least 90 seconds to ensure the SRS capacitor discharges completely, preventing accidental airbag deployment. Wear an anti-static wrist strap and prepare the BYD dedicated diagnostic tool (VDS2000/ED400).
- 2Fault confirmation: Connect the diagnostic tool and read DTCs. Confirm B1773-00 is a current fault (Active), not a historical fault, and record freeze frame data. Check for accompanying communication fault codes (e.g., B1772, B1774).
- 3Connector check: Remove the right rear seat and lower B-pillar trim panel. Verify the yellow pretensioner connector is securely connected. Confirm the locking tab (CPA) is fully engaged. Inspect the connector for moisture, oxidation, or terminal back-out.
- 4Resistance measurement: Disconnect the pretensioner connector and use a multimeter to measure the resistance between the pretensioner terminals. The normal value is 1.5-3.5 Ω (refer to the specific vehicle workshop manual). Infinity indicates an internal open circuit and 0 Ω indicates an internal short circuit. Replace the assembly in either case.
- 5Harness continuity test: Measure the harness resistance between the SRS module terminal and the pretensioner terminal; resistance must be less than 1 Ω. Measure the harness insulation to ground and power; resistance must be infinite. Focus inspection on seat rail wiring pinch points and body pass-through holes.
- 6Component replacement and verification: If the pretensioner is faulty, replace the right rear seat belt assembly (includes the pretensioner; do not replace the igniter separately). If the wiring harness is faulty, repair the wiring harness. After repairs, clear the fault code and perform an SRS system self-check (turn the ignition switch ON and verify the warning lamp turns off after 6 seconds). If necessary, execute the diagnostic tool's 'Collision Output Test' function to verify circuit integrity.
Real-World Cases
Intermittent fault caused by pretensioner connector not locked after seat removal
2018 BYD Qin EV450, airbag warning light illuminates intermittently. VDS read DTC B1773-00 (intermittent). Owner reported removing the seats for deep cleaning at a detailing shop one week prior. Inspection found the yellow connector for the right rear seatbelt pretensioner inserted but the CPA (Connector Position Assurance) lock tab not fully seated; vehicle vibration caused poor contact. Reseated the connector and confirmed the CPA lock engaged. Cleared the DTC and monitored for one week with no recurrence.
Seat rails crushed wiring harness causing intermittent open circuit
2017 BYD Qin 80. Airbag warning light illuminated randomly while driving. Scanner showed B1773-00 as a current/history alternating fault. Pretensioner resistance measured normal at rest, but the reading fluctuated when manually sliding the seat fore and aft. Disassembly revealed the wiring harness insulation had been cut by the seat rail edge at the mounting point, with copper conductors partially fractured leaving only a few strands intact. Resoldered the harness and fitted abrasion-resistant corrugated tubing, repositioned the retaining clip to prevent contact with moving components. Fault permanently resolved.
Water ingress caused internal short circuit in pretensioner, triggering fault code
A Qin 100 drove through floodwater after heavy rain (water depth exceeded the door sills). The airbag warning light stayed on. Pulled DTC B1773-00. Measured pretensioner resistance at 0.2Ω—well below spec, confirming an internal short. Disassembly revealed the pretensioner housing seal had degraded, allowing water to enter; the internal igniter got wet and the insulation between electrodes failed. Replaced the right rear seatbelt assembly (includes pretensioner). Removed rust from the wiring harness connectors, dried them, and applied conductive grease and waterproof sealant. Cleared the fault codes; system self-check passed.
Oxidized SRS module pins caused high resistance fault
A 5-year-old Qin EV300 developed DTC B1773-00. Pretensioner resistance measured 2.1Ω (normal); harness continuity checked good. Further inspection of the SRS control module connector showed green corrosion on the right rear pretensioner pins, with contact resistance at 12Ω (out of spec). Cleaned the pins with electronic contact cleaner and a non-metallic brush, lightly sanded to restore the metallic shine, then applied specialized conductive grease. Fault code cleared; pretensioner circuit resistance returned to normal range.
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.