B1654
DTC B1654 indicates the SRS (Supplemental Restraint System) ECU detected a communication interruption or abnormal circuit impedance between the Left Front Impact Sensor and the main controller during self-check or operation — Seal 6 EV
Safety System
DTC B1654 indicates the SRS (Supplemental Restraint System) ECU detected a communication interruption or abnormal circuit impedance between the Left Front Impact Sensor and the main controller during self-check or operation.
This sensor typically mounts to the left front longitudinal beam, headlamp bracket, or fender reinforcement beam to monitor collision acceleration on the left front side of the vehicle.
The ECU sets this DTC if it fails to receive a valid signal from the sensor within a predetermined time, or if it detects an open or short circuit in the wiring.
Under this condition, the airbag system enters fail-safe mode, potentially disabling the left front collision detection function.
This compromises the deployment logic of the airbags and seatbelt pretensioners during a frontal collision, posing a major safety risk.
Likely Causes — Seal 6 EV
- 1Sensor harness open or short circuit: Improperly secured harness after front-end accident repairs; vibration and friction damaging the harness during long-term use; or rodents gnawing and severing the wiring.
- 2Poor connector contact: Left front crash sensor plug is loose, terminals are backed out, or pins are oxidized or corroded (common on vehicles driven through water or after high-pressure washing), interrupting signal transmission.
- 3Sensor hardware fault: A damaged internal piezoelectric or capacitive accelerometer element or an open internal diagnostic resistor prevents the sensor from returning the correct bias voltage or PWM signal to the SRS ECU.
- 4Abnormal installation position: After accident repairs, failure to secure the sensor at the standard torque (usually 8-10 N·m) or incorrect installation direction triggers the internal open-circuit protection mechanism.
- 5Internal SRS ECU fault: Damaged ECU internal sampling circuit, A/D converter, or pull-up resistor for the left front crash sensor (relatively rare; rule out wiring faults before confirming).
What To Do
- 1Diagnostic confirmation: Use VDS2000 or a dedicated BYD diagnostic tool to read the fault code and confirm if B1654 is a current (Active) or historical (History) fault. If historical, check the freeze frame data for trigger conditions (vehicle speed, timestamp).
- 2Visual inspection: Open the front compartment and locate the left front crash sensor (usually at the front end of the left front longitudinal beam, with a yellow connector). Check the sensor exterior for physical damage or cracks, inspect the mounting bracket for deformation, and check the mounting torque marks for misalignment.
- 3Connector inspection: Disconnect the battery negative terminal, wait at least 90 seconds (for capacitor discharge), and unplug the sensor connector. Check the connector pins (usually 2-3 pins) for oxidation, burn marks, or backed-out pins. Check the wiring harness side connector for signs of water ingress. Clean with electrical contact cleaner and apply conductive grease.
- 4Circuit continuity test: Use a multimeter to measure sensor wiring harness continuity from the connector to the SRS ECU (typically a twisted pair, yellow/black or yellow/blue). Normal resistance should be less than 1 Ω. Measure insulation resistance to ground and power supply; it should be greater than 10 MΩ. If the circuit is open, remove the corrugated conduit and repair the wiring harness.
- 5Sensor unit test: If the wiring is normal, measure the sensor resistance (refer to the workshop manual; typically 2.0-3.0 kΩ, depending on the specific model). If the resistance is infinite or zero, replace the sensor. Note: Some models require genuine parts. Sensor resistance characteristics may vary between batches.
- 6System reset and verification: Reconnect all connectors and the battery. Clear the fault code using the diagnostic tool and perform 'Sensor Check' or 'System Self-Test'. Observe the data stream; the 'Left Front Impact Sensor' status must display 'Normal' or the correct voltage (typically a bias voltage of around 2.5V). Perform an ignition cycle test (ON-OFF-ON) and confirm the fault code does not return.
- 7Collision simulation test (if necessary): Ensure safety, then use the diagnostic tool to perform the 'Collision Sensor Test' function, or lightly tap the vehicle body near the sensor (do not strike the sensor directly). Observe the acceleration value changes in the data stream to confirm normal sensor dynamic response.
Real-World Cases
Wiring harness not plugged in after accident repair caused B1654.
Model: BYD Tang DM 2021.
Symptom: After repairs following a minor front-end collision, the airbag warning light on the instrument panel stayed on.
Diagnosis: Retrieved DTC B1654 (active fault). Inspection revealed that after panel beating repairs to the left front rail, the technician failed to reconnect the left front impact sensor harness connector, leaving the wiring harness dangling inside the fender liner.
Resolution: Reconnected the sensor connector, applied conductive paste, and secured the harness with cable ties to prevent chafing against the bodywork. Cleared the fault code and the system returned to normal.
Corroded sensor connector on water-damaged vehicle
Vehicle: BYD Yuan EV 2019. Symptom: Airbag warning light illuminated after driving through floodwater during heavy rain. Diagnosis: VDS scan reported DTC B1654. Removed the left front impact sensor and found obvious water ingress inside the connector. The pins showed green copper corrosion, causing increased contact resistance on the signal line (measured 15 Ω; normal < 1 Ω). Solution: Replaced the wiring harness connector (cut and splice), cleaned and polished the sensor pins, and applied silicone grease to the connector seal to improve waterproofing. Fault resolved.
Rodents chewed through the wiring, causing an intermittent fault.
Vehicle: 2019 BYD Song MAX.
Symptoms: SRS warning light illuminates intermittently, particularly on rough roads.
Diagnosis: DTC B1654: intermittent historical fault. Inspected the left front impact sensor wiring harness and found rodent damage inside the corrugated tubing. The signal wire conductor had partially fractured, with only a few copper strands maintaining the connection. Vehicle vibration caused the circuit to open, triggering the fault.
Repair: Repaired the harness by soldering the broken conductor and sealing it with heat-shrink tubing. Installed rodent mesh and rerouted the harness away from rodent-prone areas. This completely resolved the fault.
Internal open circuit in sensor body
Vehicle: 2020 BYD Qin Pro (petrol).
Symptom: Airbag warning light suddenly illuminated; no accident history.
Diagnosis: DTC B1654 active. Measured sensor harness continuity and insulation – both normal. Connector voltage normal (12V or 5V reference). Removed sensor and measured infinite resistance (spec: approx. 2.5 kΩ).
Repair: Replaced the OEM left front impact sensor (part number must match vehicle VIN). Torqued mounting bolt to 9 N·m. Performed system configuration (some models require sensor ID programming via diagnostic tool). Fault cleared.
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]