B165F00
DTC B165F00 indicates the SRS (Supplemental Restraint System) ECU detected a functional fault or communication error in the right front impact sensor — Seal 6 EV
Safety System
DTC B165F00 indicates the SRS (Supplemental Restraint System) ECU detected a functional fault or communication error in the right front impact sensor.
This sensor mounts near the right front side member or bumper reinforcement beam.
It detects deceleration changes during a frontal collision and sends a crash signal to the airbag control unit.
The '00' in the fault code typically indicates an internal sensor self-test failure, an out-of-range signal, or a communication interruption between the sensor and the ECU (non-specific short or open circuit).
This fault disables the right front crash detection circuit.
During a frontal collision, this failure may delay or prevent the deployment of the right front airbag and side curtain airbags, severely compromising passive safety performance.
Consequently, the SRS illuminates the airbag warning light and may disable related airbag functions.
Likely Causes — Seal 6 EV
- 1Internal sensor fault: A damaged accelerometer element inside the right front crash sensor or a signal processing circuit failure causes an abnormal output signal or no response. This commonly occurs after minor collision vibrations at the front of the vehicle or natural component aging.
- 2Wiring harness connector issue: Sensor connector in the right front fender or bumper is loose, has backed-out pins, oxidation/corrosion, or water ingress. Poor contact often results from driving through water, car washes, or failing to fully seat the connector after collision repairs.
- 3Physical damage to the wiring harness: Accident repairs or front bumper removal and installation crushed, chafed, or broke the right front wiring harness, causing an intermittent open circuit in the signal wire, power wire (12V), or ground wire.
- 4Abnormal installation position: Loose sensor retaining bolts or a deformed sensor mounting bracket cause the sensor installation angle to deviate from the design position. This affects crash signal detection accuracy and triggers the fault code.
- 5SRS ECU communication fault: Abnormal impedance or electromagnetic interference on the dedicated communication line between the sensor and the ECU (usually a PWM signal or CAN line), or a fault in the internal ECU receiving circuit, causes data validation failure.
What To Do
- 1Initial diagnosis and freeze frame recording: Use a dedicated diagnostic tool (VDS or ED400) to read complete DTC information. Record freeze frame data (vehicle speed at time of fault, timestamp, etc.). Confirm if B165F00 is a current (Active) fault. Check for other related crash sensor fault codes (such as B165E11 short to ground).
- 2Visual and physical inspection: Turn off the ignition, remove the right front bumper or fender liner, and inspect the right front crash sensor for damage or cracks. Check the mounting torque (usually 8-10 N·m), confirm the sensor direction arrow points directly to the front of the vehicle, and verify the connector locks fully and the sealing ring is intact.
- 3Harness continuity test: Disconnect the battery negative terminal, then disconnect the SRS ECU and right front sensor connectors. Use a multimeter to measure the end-to-end resistance of the sensor harness: power wire (<1 Ω), ground wire (<1 Ω), and signal wire (<1 Ω). Measure the insulation resistance of each wire to ground and to power (>10 MΩ) to rule out open and short circuits in the harness.
- 4Sensor electrical parameter measurement: Reconnect the battery and turn the ignition switch to ON. Without disconnecting the sensor connector, use a back-probe pin to measure the sensor supply voltage (9-16V, normally 12V) and the signal wire voltage (static voltage is usually 2.5V or a 5V reference, depending on the vehicle model). If the voltage is abnormal, check the upstream wiring.
- 5Replacement verification and system reset: Perform a substitution test using a known good sensor with the same part number. Clear the fault code and perform a road test or simulation test (some models support a sensor self-test via the diagnostic tool). If the fault disappears, the original sensor is faulty. After installing a new sensor on some Qin PRO models, execute the 'SRS System Configuration' or 'Crash Sensor Calibration' function on the diagnostic tool to ensure the ECU recognizes the new sensor parameters.
Real-World Cases
Intermittent right front impact sensor fault after water wading
2018 BYD Qin Pro DM. The owner reported the airbag warning light intermittently illuminates after driving in rain. The diagnostic scanner retrieved code B165F00 (current fault); historical data showed the fault mostly occurred after rain. Inspection found an aftermarket radar fitted under the right front bumper with poor sealing. Disassembly revealed green copper corrosion inside the sensor connector; oxidised pins caused increased signal resistance (measured 12 Ω, normal <1 Ω). Cleaned the connector pins, applied conductive grease, and reapplied the waterproof seal. Fault resolved. Advised the owner to inspect the front bumper sealing strip and avoid directing high-pressure water at the sensor area.
Uncalibrated sensor after accident repair caused fault.
2019 Qin Pro petrol variant. After a minor frontal collision, a repair shop replaced the right front wing and bumper. After repairs, the instrument panel continuously displayed the airbag warning light. Retrieved fault codes B165F00 and B165A00 (left front sensor parameter error). Inspection found that although the right front impact sensor was new, its mounting bracket was not fully flush with the chassis rail during installation, sitting at approximately 5 degrees of tilt. More critically, the shop had not performed the 'SRS system configuration' function on the diagnostic tool after replacing the sensor, so the ECU could not recognise the new sensor's ID and calibration parameters. After reinstalling the sensor to standard torque and using VDS to perform SRS system configuration and impact sensor zero-point calibration, the fault codes cleared and the system returned to normal self-check.
Wiring harness wear caused intermittent signal loss.
A 2019 BYD Qin Pro DM with 80,000 km on the clock came in with the airbag warning light illuminating intermittently, occasionally going out after driving for a while. Diagnosis revealed DTC B165F00 as an intermittent fault. Inspection focused on the right front wiring harness, revealing chafing at the transition from the body harness to the front bumper, specifically at the wheel arch liner fixing clip. The signal wire insulation had worn through, causing an intermittent short to earth (measured resistance to earth fluctuating between 2-50 MΩ). Repaired the damaged wiring, reinforced the insulation with heat shrink tubing, and rerouted the harness to avoid contact with metal edges, which completely resolved the fault. This issue is common in vehicles where wiring has been incorrectly secured following accident repairs.
Internal sensor components failed due to ageing
2018 BYD Qin Pro petrol, 60,000 km. Airbag warning light stayed on. Diagnostics showed only one active DTC: B165F00. Visual inspection of sensors and wiring harness found no abnormalities. 12V power supply and ground measured normal, but signal voltage jumped erratically between 0.3V and 4.8V (normal: stable reference voltage). After swapping the left and right front crash sensors, the fault moved to the left side (DTC B165E00 appeared), confirming internal accelerometer or signal-processing IC damage in the original right-hand sensor. Replaced with a genuine sensor of the same part number (hardware versions vary by model year – verify part number). Cleared fault codes, ran system self-test (passed), and the warning light went out.
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]