B1677
DTC B1677 indicates a short to ground in the left rear side impact sensor (SIS) signal circuit — Atto 3
Safety System
DTC B1677 indicates a short to ground in the left rear side impact sensor (SIS) signal circuit.
In the BYD SRS (Supplemental Restraint System) architecture, the left rear side impact sensor typically mounts below the B-pillar or near the left rear door frame to monitor collision acceleration at the left rear of the vehicle.
When the sensor signal wire shorts to the vehicle body ground, the SRS control module (ACM) detects a signal voltage continuously below the threshold (usually <0.5V) and logs a short-to-ground fault.
This fault disables the left rear side collision detection function, forces the system into fail-safe mode, and illuminates the instrument cluster SRS warning lamp.
During a side collision, the left-side curtain airbag and seat side airbag may fail to deploy, posing a serious safety risk.
Likely Causes — Atto 3
- 1Internal short circuit in the sensor body: Damage to the piezoelectric element or signal processing circuit inside the left rear side impact sensor causes the resistance between the signal terminal and ground terminal to drop abnormally (<10Ω).
- 2Wiring harness insulation wear causing short to ground: Vibration and friction damage the insulation where the harness passes through body sheet metal holes, retaining clips, or floor cable channels, allowing the copper core to contact the vehicle body metal.
- 3Connector water ingress and corrosion: Wading, washing the vehicle, or poor sealing allows water to enter the sensor connector (usually located inside the B-pillar trim panel or under the seat), forming an electrolytic conductive path between the pins.
- 4Wiring harness crushed due to improper repair: After accident repairs or interior trim removal and installation, seat rails, seat belt anchors, or trim panel clips crush and damage an improperly secured wiring harness.
- 5Internal fault in the SRS control module: Short to ground in the ACM internal signal acquisition circuit (low probability; rule out the wiring harness and sensor before confirming).
What To Do
- 1Safety preparation: Disconnect the 12V battery negative terminal and wait at least 90 seconds to discharge the SRS system capacitor and prevent accidental airbag deployment.
- 2Fault confirmation: Use the BYD VDS or Launch X-431 diagnostic tool to read the fault code. Confirm B1677 is a current fault (Active) and record freeze frame data (vehicle speed, timestamp, etc.).
- 3Visual inspection: Remove the left B-pillar lower trim panel and rear door sill trim panel. Check the crash sensor for physical damage, water stains, or burn marks. Check the wiring harness for obvious wear, damaged insulation, or crushing.
- 4Electrical measurement: Disconnect the sensor connector. Use a multimeter to measure the resistance between the harness-side signal pin (usually pin 2) and body ground. Normal resistance is >1MΩ. If the resistance is <10Ω, the harness has a short to ground. Trace the wiring to locate the fault.
- 5Sensor inspection: Measure resistance between the sensor body signal terminal and the ground terminal. The normal value is 2-5 kΩ (refer to the vehicle repair manual for specific values). If resistance is close to 0 Ω, replace the sensor.
- 6Wiring harness repair: If the wiring harness is damaged, repair it with waterproof insulating tape; replace the wiring harness assembly if necessary. Check for missing wiring harness retaining clips. Keep the wiring harness a safe distance from sharp metal edges.
- 7Connector handling: If the connector has water ingress, clean the pins with electrical contact cleaner, apply conductive grease, and replace the sealing ring or the entire connector.
- 8Component replacement: If diagnostics confirm a faulty sensor, replace the left rear side impact sensor (verify the part number by vehicle model, as Yuan EV and Tang may differ). Torque to 8-10 N·m. Install the sensor in the correct orientation (arrow pointing toward the front of the vehicle).
- 9System calibration: Reconnect the battery. Use the diagnostic tool to perform the 'SRS System Self-Learning' or 'Crash Sensor Configuration' procedure, then clear the fault code.
- 10Function verification: Perform an ignition cycle test and confirm the instrument cluster SRS warning light turns off normally; use a diagnostic tool to read the data stream and verify the left rear side impact sensor acceleration value is within 0±0.5G; perform a simulated crash test (using the dedicated tester) to verify system response.
Real-World Cases
Song MAX B1677 fault after wading
A 2019 BYD Song MAX owner reported that the airbag warning light stayed on after driving through water. The technician used the VDS to read fault codes and found DTC B1677 (active). Removing and inspecting the left rear side impact sensor (located below the left C-pillar) revealed water stains and green copper corrosion inside the connector. The water level had exceeded the door sill seal during the crossing, allowing water to enter the connector through the wiring harness waterproof boot. The technician cleaned the connector pins with anhydrous alcohol, applied silicone-based conductive grease, replaced the waterproof sealing ring, and re-secured the wiring harness waterproof boot. After clearing the fault code, the SRS light went out and the data stream showed the sensor voltage returned to normal (2.3V).
Tang DM wiring harness chafing after accident repair
2021 Tang DM. DTC B1677 appeared one month after left rear accident repair. The inspection found mechanics had replaced the left rear wing during the accident repair, but had not installed the wiring harness retaining clips to standard. This allowed the impact sensor wiring harness (B-pillar to floor section) to chafe against the metal edge of the seat rail. Damaged insulation caused a short to earth.
Repair: Repaired the damaged harness (3 wires, including the signal wire shorted to earth). Wrapped the harness in corrugated tubing, re-routed and secured it to specification. Fitted a rubber grommet to isolate the metal edge. Replaced the impact sensor (the short circuit may have damaged the internal protection diode).
Internal short circuit in Yuan EV sensor
2019 BYD Yuan EV535, 80,000 km. Intermittent B1677 fault code (alternating between current and historic). Fault not present during inspection. Measured harness-to-ground resistance: normal. Monitored sensor signal line with oscilloscope; detected occasional 0V pull-down. Diagnosed as intermittent short-to-ground inside the sensor (MEMS chip or filter capacitor).
Replaced left rear side impact sensor (Part No.: BYD-3636400-XXX). When installing, make sure the arrow mark on the sensor points toward the front of the vehicle. After replacement, monitored continuously for one week — fault did not reoccur.
Seatbelt pretensioner incorrectly connected on Qin Pro, causing short circuit
2020 BYD Qin (petrol). When retrofitting rear seat heaters, the modification shop mistakenly connected the left rear side impact sensor connector (white 2-pin) to the power tap wire near the seatbelt pretensioner connector (yellow 2-pin). This shorted the sensor power wire to ground, triggering DTC B1677, accompanied by DTC B1680 (seatbelt pretensioner fault).
Resolution: Removed the improperly modified wiring harness, repaired the factory wiring harness insulation, and restored the original vehicle circuit. Reset the SRS control module coding, cleared the fault codes, and the system returned to normal.
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]