B165E-00
DTC B165E-00 indicates an abnormally low-impedance connection (short to ground) between the airbag system (SRS) right front impact sensor signal or power circuit and body ground (GND) — Atto 3
Safety System
DTC B165E-00 indicates an abnormally low-impedance connection (short to ground) between the airbag system (SRS) right front impact sensor signal or power circuit and body ground (GND).
This sensor typically mounts on the right front side member, radiator support, or fender reinforcement to detect collision acceleration on the right front side of the vehicle.
A short to ground prevents the SRS control unit (ACU) from correctly reading the sensor's acceleration signal output (typically an analog or digital signal from a piezoelectric or MEMS sensor).
This causes the following conditions: 1) airbags failing to deploy during an actual collision; 2) the system entering fail-safe mode and illuminating the SRS warning lamp; 3) in extreme cases, abnormal signals causing unintended airbag deployment.
This safety-critical fault requires immediate repair.
Likely Causes — Atto 3
- 1Front bumper wiring harness wear: Vehicle vibration causes the right front crash sensor wiring harness to rub against the body metal frame (such as the side member or fender liner). This friction damages the insulation, exposes the wire, and creates a short to body ground. This typically occurs after accident repairs with improperly secured harnesses or missing retaining clips.
- 2Water ingress or corrosion: During high-pressure washing or when driving the vehicle through water (water level above the wheel center), water seeps through the sensor connector seal or wiring harness corrugated conduit. This oxidizes and electrolytically corrodes the connector terminals, creating a short-to-ground path. This condition is common in older vehicles with poor sealing.
- 3Improper modification or repair damage: When routing wires for aftermarket LED headlights, front radars, or dash cams, technicians bind the aftermarket wiring harness too tightly to the SRS wiring harness with cable ties, or cut the original wiring harness insulation when drilling holes. This exposes the core wire and causes a short circuit to the vehicle body.
- 4Internal sensor circuit fault: Crash sensor internal integrated circuit (IC) or capacitor breakdown causes a short circuit between the power supply pin and the ground pin, or the internal pull-down resistor at the signal output fails. Sensor aging, overvoltage, or electrostatic damage usually causes this fault.
- 5SRS control unit (ACU) internal fault: In very rare cases, the ACU internal signal acquisition circuit for the right front sensor fails and incorrectly detects a short to ground. Confirm this by cross-checking (swap the left and right sensors).
What To Do
- 1Safety preparation: Shift the vehicle into P or Neutral, apply the parking brake, turn off the ignition, and disconnect the negative battery cable. Wait at least 90 seconds to fully discharge the airbag system capacitors and prevent accidental airbag deployment during repair.
- 2Fault confirmation: Connect the BYD dedicated diagnostic tool (VDS2000/3000). Enter the SRS system to read fault codes. Confirm B165E-00 is a current fault (not a history fault). Record freeze frame data (such as vehicle speed and time of occurrence). Attempt to clear the fault code and confirm if it immediately recurs.
- 3Visual inspection: Remove the right front bumper or fender liner. Inspect the right front crash sensor (usually located at the front end of the right front longitudinal beam) for physical damage or cracks. Check the wiring harness connector for looseness, water ingress, corrosion, or bent pins. Check the wiring harness retaining clips for detachment.
- 4Circuit measurement: Disconnect the sensor connector. Use a multimeter to measure the resistance to ground for each terminal on the harness-side connector. Signal wire resistance to ground must be >1MΩ (infinite); a reading of 0-5Ω confirms a short to ground. Power wire resistance to ground must also be >1MΩ. Measure the resistance between the sensor body terminals and compare it against the standard value in the repair manual (typically 2-3kΩ).
- 5Wiring harness inspection: If testing confirms a short circuit, carefully inspect the wiring harness insulation along the right front route (from the sensor to the SRS ECU, usually passing below the right A-pillar). Focus on metal edge contact points, pass-through grommets, and crossover points with other wiring harnesses. Look for signs of abrasion, cuts, or burn damage.
- 6Fault repair: For a damaged wiring harness, repair using heat-shrink tubing or waterproof tape; replace the entire wiring harness if necessary. For connector water ingress, clean with electrical contact cleaner, blow dry with an air gun, and apply conductive protective grease (such as Stabilant 22); replace the connector or sensor if necessary. For an internal sensor fault, replace with a genuine part (the part number must match the VIN).
- 7Verification test: Restore all connections, reinstall the bumper, and connect the battery. Turn the ignition switch to the ON position. Use the diagnostic tool to clear the fault code and perform the SRS system self-check (usually requires a drive cycle or specific operation). Verify DTC B165E-00 does not return and the instrument cluster SRS warning light turns off. Read the data stream to confirm the right front sensor acceleration value is within the normal range (0±0.5G).
Real-World Cases
BYD S6 right front impact sensor wiring harness chafed, causing a short to ground.
Symptoms: The SRS warning light on the instrument panel remained illuminated. Scanned with a diagnostic tool and retrieved DTC B165E-00 (Right Frontal Impact Sensor Short to Ground). The vehicle had no collision history, but a repair shop had repainted the front bumper two weeks prior.
Diagnosis: Connected VDS and confirmed the DTC was present and could not be cleared. Removed the front bumper and inspected the right front impact sensor; the sensor appeared undamaged but the connector was loose. Disconnected the sensor plug and measured 0.3Ω resistance to ground at the harness side (abnormal continuity). Traced the wiring route and found the harness inside the front bumper had chafed against the chassis rail edge due to missing retaining clips. The insulation was damaged at three points, exposing copper wire and causing contact with the body.
Repair: Cut out the damaged harness section. Spliced with same-colour cable, soldered the joints, and applied double-layer heat-shrink insulation. Re-secured the harness routing with cable ties to maintain at least 20mm clearance from metal components, and fitted protective corrugated tubing. After reassembly, cleared the DTC. The SRS warning light extinguished and the data stream showed normal readings.
Original source ↗Water entered the sensor connector on the BYD Qin EV after driving through water, causing oxidation and a short circuit.
Symptoms: The owner reported that after driving through a flooded section (water depth approximately 30 cm) in the rain, the SRS warning light stayed on. The vehicle drove normally but displayed 'Check Airbag System'. Retrieved DTC B165E-00 with a diagnostic tool.
Diagnosis: Inspected the right front impact sensor mounting location and found the sensor positioned low (near the front subframe). Removed the sensor and found obvious water traces and green copper corrosion inside the connector. Measured sensor body resistance as normal (2.1 kΩ), but resistance between the connector terminal and sensor housing measured 1.2 Ω (abnormal continuity). Water entered the connector during wading, shorting the power terminal to the sensor metal housing (ground) through a water film.
Resolution: Cleaned connector terminals and sensor pins with anhydrous alcohol. Thoroughly dried with a high-pressure air gun (do not use heat guns; high heat can damage seals). Applied BYD conductive protectant (Part No. BYD-393) and replaced the waterproof seal. Test drove and followed up after one week; the fault has not recurred.
Original source ↗Modified headlights caused SRS short-to-ground fault in BYD Song
Symptom: After upgrading the LED headlights at an unauthorised modification workshop, the owner started the vehicle and the SRS warning light illuminated. The scanner read fault code B165E-00. The workshop had removed the front bumper and rerouted the wiring during the modification.
Diagnosis: Checked the right front impact sensor connector and found it properly connected, but discovered the workshop had tightly bundled the LED headlight driver power cable (high current) with the SRS sensor harness using cable ties. Further inspection found a cut in the headlight power cable insulation, which made contact with the sensor signal wire. The technician had also loosened the sensor earth wire and failed to tighten it to the standard torque (8 Nm), causing increased contact resistance and intermittent short circuits to earth during vehicle vibration.
Resolution: Completely separated the headlight wiring from the SRS harness, repaired the damaged power cable with insulation tape, and retightened the sensor earth bolt to the specified torque. Tidied the wiring route to ensure clearance from sharp metal edges. Cleared the fault code, conducted a road test and a rough road test; the fault did not recur.
Original source ↗BYD E1 sensor internal IC breakdown causing intermittent short to ground
Symptoms: Intermittent SRS warning light. Light functioned normally during cold starts but came on after 10–15 minutes of driving. Scan tool read active DTC B165E-00.
Diagnosis: Inspected wiring harness – no visible damage; measured harness ground resistance – normal. Used an oscilloscope to monitor the sensor signal waveform. When the fault appeared, the signal line dropped to ground potential. Swapped left and right front impact sensors; DTC changed to B165D-00 (left front sensor short circuit), confirming the fault followed the sensor. Disassembled the faulty sensor and found capacitor breakdown damage on the PCB. Determined an internal voltage regulation circuit failure caused a power-to-ground short.
Solution: Replaced with a genuine right front impact sensor (BYD-3636100). Monitored the vehicle continuously for 3 days after replacement; fault completely eliminated.
Improperly secured wiring harness after accident repair caused a short circuit on the BYD Qin 100
Symptoms: Minor right-front collision (speed <15 km/h). After the workshop replaced the right front wing and bumper, the SRS warning light came on. Retrieved DTC B165E-00.
Diagnosis: Inspected the newly installed right front impact sensor (aftermarket part) – no visible damage, but measured a short to earth on the signal wire. Found that during the repair the workshop had not routed the harness to factory specification; instead, it was trapped between the wing reinforcement and the chassis rail. A sharp edge cut 3 wires in the harness, including the signal wire, which contacted the body metal and created a short to earth.
Solution: Replaced the damaged harness section (from the sensor to the main harness branch point) using the factory wiring repair procedure (soldering and heat-shrink tubing). Rerouted the harness and secured it at the original clip positions, ensuring safe clearance from crumple zone metal components. Installed a genuine impact sensor. Fault resolved.
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]