B17A600
DTC B17A600 indicates the Airbag Control Unit (ACU) detects a triggered front impact sensor circuit or an abnormal signal — Atto 8
Safety System
DTC B17A600 indicates the Airbag Control Unit (ACU) detects a triggered front impact sensor circuit or an abnormal signal.
This event-type DTC typically indicates the SRS system recorded a front collision event (regardless of severity), or the Front Impact Sensor (FIS) and its wiring harness have an electrical fault (such as a short circuit, open circuit, or abnormal impedance).
On BYD Qin PRO models, the front impact sensors typically mount on both sides of the front longitudinal rails or radiator support frame to detect front-end acceleration changes.
The ACU sets this code when it detects a sensor signal exceeding the threshold (>2.5g for a specific duration) or abnormal sensor circuit resistance (normally approx. 2.0-3.0kΩ).
This fault may prevent airbag deployment or cause accidental deployment.
Repair the vehicle immediately.
Likely Causes — Atto 8
- 1The vehicle sustained an actual frontal collision (minor scrape or severe accident), the SRS module recorded the collision event, and the collision data clearing (CDR) reset procedure was not performed.
- 2Front crash sensor internal fault (piezoelectric element aging, internal short or open circuit), causing it to send an incorrect acceleration signal to the ACU.
- 3Poor contact, oxidation from water ingress, or terminal corrosion at the front collision sensor wiring harness connector, causing abnormal circuit resistance (>10kΩ or <500Ω)
- 4Internal algorithm error or memory fault in the Airbag Control Unit (ACU) causing a false collision signal (often accompanied by other SRS fault codes such as B17A100)
- 5Accidental damage to the sensor wiring harness during front-end modifications (such as installing non-OEM radar or modifying headlights), causing shielding layer damage or a signal wire short to ground.
What To Do
- 1Connect the VDS2000/BYD dedicated diagnostic tool, read all DTCs and freeze frame data, record the acceleration value (Delta-V) and trigger time at the moment of collision, and verify if the collision record is genuine.
- 2Perform a full vehicle DTC scan and check for related codes such as B17A100 (ACU internal fault), B17B100 (front left sensor fault), or B17B200 (front right sensor fault) to locate the specific faulty side.
- 3Disconnect the battery negative terminal for 3 minutes. Visually inspect the front crash sensor (located on the front longitudinal beam inner panel) for physical damage, cracks, or loose mounting. Check that the wiring harness connector seal is intact and free from signs of water ingress (green corrosion).
- 4Use a multimeter to measure the front crash sensor circuit resistance (disconnect the ACU connector and measure the wiring harness side): normal resistance is 2.0-3.5kΩ. If the resistance is 0Ω (short circuit) or infinite (open circuit), troubleshoot the wiring harness section by section. If the resistance is normal, replace the sensor.
- 5After confirming a genuine collision and repairing the body damage, execute the 'Crash Data Reset' function (path: SRS system → Special Functions → Crash Data Reset), then perform 'Coding & Calibration' again.
- 6After clearing the DTC, run the SRS system self-check (approximately 6 seconds) and confirm DTC B17A600 does not return. Perform a simulated crash test (use the dedicated diagnostic tool to trigger the sensor test mode; do not strike with a hammer) to verify the ACU receives the front sensor signal normally and the fault light turns off.
Real-World Cases
Qin Pro DM: SRS warning light stays on after low-speed rear-end collision
2019 Qin Pro DM, 32,000 km. Rear-ended the vehicle ahead at approximately 15 km/h in urban driving. Front bumper slightly deformed but airbags did not deploy. VDS reported DTC B17A600 (Front Collision) and B17B100 (Front Left Collision Sensor Fault). Disassembly revealed a slightly deformed front left collision sensor mounting bracket and damaged internal piezoelectric element. Replaced the front left collision sensor, cleared collision data, and performed system calibration. Fault resolved. Key point: Impact can damage sensors even when airbags do not deploy.
SRS false front collision fault after water ingress
2018 Qin PRO fuel variant. After driving through floodwater in heavy rain, the dashboard showed "Check SRS System." DTC B17A600. Found water in the front impact sensor connector. Resistance between pin 1 (signal wire) and pin 2 (ground) measured 200Ω (normal: 2.8kΩ). Cleaned the connector, applied conductive anti-corrosion grease, and dried the harness with a heat gun—resistance returned to normal. Cleared the codes and spray-tested for leaks. Fault did not recur.
Crash data not reset after accident repair caused residual fault codes.
2019 BYD Qin Pro DM. After an outside shop replaced the front bumper and left front rail, VDS showed B17A600 continuously with no clear. The shop replaced only the damaged sensor without performing a crash data reset. Used BYD VDS to access SRS special functions, executed 'Clear Crash Memory', and completed VIN coding and sensor configuration. Fault code cleared and SRS warning light went out.
ACU software error causes intermittent false warnings
2018 Qin PRO petrol. SRS warning light illuminated intermittently while driving. Diagnostic tool showed B17A600 (current fault). Checked front and rear impact sensors and wiring harness; all normal. Measured sensor output voltage waveform and found intermittent spike interference. Upgraded ACU software to latest version (from V2.1 to V2.4), optimizing collision threshold algorithm and filtering logic. Tracked 500km after upgrade; fault did not recur.
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.