B16F511
DTC B16F511 indicates an abnormally low-resistance connection between the first signal line (low-side reference line/signal return) of an SRS crash sensor (typically a front or side crash sensor) and body ground — Atto 3
Safety System
DTC B16F511 indicates an abnormally low-resistance connection between the first signal line (low-side reference line/signal return) of an SRS crash sensor (typically a front or side crash sensor) and body ground.
This short to ground causes the SRS control unit (ACU) to detect an abnormal voltage near 0V, preventing it from correctly receiving the sensor acceleration signal.
The system enters fail-safe mode and disables the corresponding airbag deployment function.
In extreme cases, misinterpreting the crash signal may trigger unintended airbag deployment.
This critical circuit fault in the active safety system directly affects the normal protective function of the occupant restraint system.
Likely Causes — Atto 3
- 1Moisture ingress, burn damage, or mechanical damage to the crash sensor internal circuit board causes a short circuit between the signal terminal and the sensor housing (ground).
- 2The sensor wiring harness chafes at a body panel hole, wiring harness bracket, or firewall pass-through, damaging the insulation and causing the wire to directly contact chassis ground.
- 3Improperly secured wiring harness or missing retaining clips after accident repairs allow the harness to rub against sharp metal edges over time, causing a progressive short circuit.
- 4SRS control unit (ACU) internal input-stage signal processing circuit fault, falsely reporting a sensor circuit short to ground.
- 5Water ingress at the sensor connector (from driving through water, high-pressure washing, or an aging seal) creates a conductive path between terminals, causing a short to ground.
What To Do
- 1Use the BYD dedicated diagnostic tool (VDS2000/VDS2100) to read all fault codes, check for accompanying B16F811 (Circuit 2 short to ground) or other SRS-related fault codes, and record the crash trigger history from the freeze frame data.
- 2Turn off the ignition, disconnect the negative battery terminal, and wait at least 3 minutes to discharge the system. Based on the fault code location, remove the corresponding front collision sensor (B16 series) or side collision sensor (B17 series).
- 3Use a multimeter to measure the resistance between sensor connector terminal 1 (the first wire) and body ground. The normal value is greater than 10 kΩ (open circuit). A reading of less than 1 Ω confirms a short to ground.
- 4Disconnect the SRS control unit connector. Measure continuity between terminal 1 of the harness-side sensor connector and the corresponding terminal of the ACU connector, and measure the insulation resistance of this circuit to body ground. Inspect the wiring route for harness damage, pinching, or wear.
- 5If the wiring harness insulation is normal, measure the resistance between sensor terminal 1 and terminal 2 (or the housing). Normal resistance is 2-5kΩ. If the resistance is close to 0Ω, replace the sensor. If the sensor and wiring harness are normal, the SRS control unit has an internal fault. Replace the SRS control unit.
- 6After repairing or replacing the faulty component, reconnect all connectors and connect the battery. Clear the fault code using the diagnostic tool and perform an SRS system self-test. Perform the sensor calibration procedure (if applicable). Confirm the fault code does not return and the airbag warning light turns off normally.
Real-World Cases
BYD Qin Pro petrol: SRS warning after accident repair
2021 BYD Qin Pro petrol. After repairing front-end collision damage, the airbag warning light stayed on. The scan tool retrieved DTCs B16F511 (sensor line 1 short to ground) and accompanying B16F811 (sensor line 2 short to ground). The owner had already replaced the driver and passenger airbags, repaired the airbag control module, and replaced the seatbelts, but the fault persisted. We inspected the wiring harness and found nothing abnormal. We traced the fault to a damaged input stage circuit inside the SRS control unit (ACU), which caused false short-to-ground reports on the sensor lines. Replacing the SRS control unit with a new one and completing the online configuration cleared the fault.
Original source ↗BYD E2 airbag warning light came on after driving through water.
2019 BYD E2. Airbag warning light stayed on after driving through water during heavy rain. Diagnosis showed DTC B16F511 pointing to the right front impact sensor. Inspection found the sensor connector located beneath the right front wheel arch liner; the seal had aged, allowing water ingress when wading. Water scale and electrolyte deposits created a short between terminal 1 and body ground. Cleaned the connector interior with compressed air, applied dedicated conductive grease, replaced the waterproof seal, and re-secured the wiring harness. Fault cleared.
Chafed front compartment wiring harness causing intermittent short circuit in Qin EV
2019 BYD Qin EV. Airbag light comes on occasionally on rough roads, normal on smooth roads. Scan tool retrieved historical DTC B16F511. Found the front impact sensor harness missing a rubber grommet at the edge of a front longitudinal member hole. Prolonged vibration wore through the insulation, exposing the copper conductors and causing the wire to intermittently ground against the chassis. Rewrapped the harness, reinforced with high-temperature insulation tape, installed a dedicated rubber grommet, and adjusted the mounting position. Fault resolved.
E3 side impact sensor internal short circuit
2020 BYD E3, no accident history. Airbag warning light came on suddenly and could not be cleared. DTC B16F511 pointed to the left B-pillar side impact sensor. Disassembly revealed signs of water accumulation in the sensor mounting hole. The internal piezoelectric element had moisture ingress due to water seepage through the B-pillar trim, causing the signal wire to short to the housing. Replaced with a new side impact sensor, inspected the window seals for aging and applied fresh sealant, and cleared the blocked drain holes. 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.