B1612
DTC B1612 indicates the SRS (Supplemental Restraint System) detected an abnormally low-resistance connection between the front passenger frontal airbag igniter circuit and the vehicle power supply (B+), indicating a short to power — Atto 3
Safety System
DTC B1612 indicates the SRS (Supplemental Restraint System) detected an abnormally low-resistance connection between the front passenger frontal airbag igniter circuit and the vehicle power supply (B+), indicating a short to power.
Under normal conditions, the airbag igniter circuit remains in a high-resistance state isolated from both power and ground (typically greater than 10kΩ).
The SRS ECU momentarily connects power through an internal switch only during airbag deployment.
A short to power means one or both sides of the igniter continuously connect to the 12V power supply.
This condition causes: (1) failure of the airbag to deploy during a collision (the ECU detects the circuit fault and inhibits triggering); (2) unintended airbag deployment in extreme cases due to abnormal current; (3) damage to the diagnostic driver circuit inside the SRS ECU.
This fault involves the connections between the front passenger airbag module, clock spring (spiral cable), floor wiring harness, and SRS ECU.
Likely Causes — Atto 3
- 1Damaged internal wire insulation in the clock spring (spiral cable) shorts the airbag ignition wire to the power wire or ignition signal wire.
- 2Front passenger airbag wiring harness chafes inside the dashboard and shorts to body power wiring (such as the instrument panel lighting circuit or cigarette lighter power supply).
- 3Water ingress, oxidation, or metallic foreign matter in the airbag connector (usually located under the center console or on the airbag module), causing a short circuit between terminals.
- 4SRS ECU internal ignition drive transistor breakdown or filter capacitor short circuit causes a false external short circuit diagnosis.
- 5Improper operation during servicing, such as directly measuring the airbag terminals with a multimeter set to resistance (use a dedicated diagnostic tool), causing external current to damage the squib or create a false short circuit.
What To Do
- 1Safety preparation: Set the vehicle to OFF. Disconnect the low-voltage battery negative terminal and wait at least 90 seconds to ensure the SRS capacitor discharges completely. Wear an anti-static wrist strap.
- 2Visual inspection: Remove the front passenger-side dashboard trim panel. Inspect the airbag module, clock spring, and wiring harness connectors for burn marks, water ingress, or mechanical damage.
- 3Circuit isolation: Disconnect the SRS ECU connector (usually located under the center console or near the gear selector) and the front passenger airbag connector. Measure the resistance between the airbag harness-side terminal and the vehicle body power supply (B+) using a multimeter. Normal resistance is infinity.
- 4Sectional fault isolation: If a short circuit exists, disconnect the clock spring. Separately measure continuity to power on the airbag module side (upper end of the clock spring) and the wiring harness side (lower end of the clock spring) to determine whether the short circuit is in the airbag module, clock spring, or floor wiring harness.
- 5Component test: Measure the front passenger airbag module resistance (via the clock spring or directly). Normal resistance is 2.0-3.0Ω. If the resistance is abnormal or the terminal has continuity to the housing, replace the airbag module.
- 6Repair verification: After repairing the wiring harness or replacing the faulty component, reconnect all connectors. Turn on the power, use VDS or a dedicated diagnostic tool to clear the fault code, and perform an SRS system self-check. Confirm B1612 does not recur and the airbag warning light turns off normally.
Real-World Cases
BYD S7 rear wiper intermittent mode failure (B1612 related)
SYMPTOMS
Rear wiper inoperative. Instrument cluster intermittently displays wiper system fault. Customer reports rear wiper either does not move when switched on, or does not work in intermittent mode.
DIAGNOSIS
1. Scanned vehicle systems with VDS diagnostic tool. Retrieved DTC B1612 from Body Control Module (BCM): rear wiper mode select switch circuit open.
2. Inspected wiper switch assembly. Measured resistance of rear wiper mode select switch — poor internal contact found.
3. Checked wiring harness between rear wiper switch and BCM. Inspected connectors CJB01 and GJB01; no visible wire breaks.
4. Measured switch signal line voltage. Voltage abnormal with switch in intermittent position (should be 5V pulse; actual 0V).
REPAIR
Replaced combination switch assembly (wiper switch). Cleared DTCs and road tested. Rear wiper operates correctly in all modes; DTC has not returned.
Original source ↗BYD Song series rear wiper intermittent mode fault (DTC B1612)
Symptoms: The owner of a BYD Song (petrol variant) reported the rear wiper only worked continuously; intermittent mode was inoperative. The instrument cluster occasionally illuminated a warning light.
Diagnosis:
1. Scanned with VDS: stored DTC B1612 (rear wiper mode select switch circuit open).
2. Removed the combination switch below the steering wheel. Inspection revealed oxidation on the internal reed of the rear wiper mode switch, causing poor contact.
3. Measured continuity between switch pins 3 and 4: open circuit in the intermittent position (normally closed).
4. Inspected the wiring harness – no damage found. BCM supply voltage normal at 12V.
Resolution: Cleaned the internal contacts of the combination switch and applied conductive grease. Fault was temporarily cleared after reassembly. Advised the owner to monitor during use; if the fault recurs, replace the combination switch assembly.
Original source ↗BYD Tang DM rear wiper failure (B1612 related)
Symptoms: All-New Tang DM. Rear wiper completely inoperative, front wiper normal. Instrument panel displays "Check wiper system".
Diagnosis:
1. Scanned with VDS2000 diagnostic tool; Body Control Module reported fault code B1612.
2. Checked rear wiper motor power supply (pin B16-1); voltage normal at 12V.
3. Checked rear wiper switch signal line (pin B16-2); no signal input detected.
4. Further inspection found dry solder joint on rear wiper mode select switch inside combination switch.
Solution: Replaced combination switch assembly; fault resolved. Teardown analysis of old part confirmed dry solder joint on internal PCB caused signal interruption.
Original source ↗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]