B1600-00
This DTC indicates the SRS (Supplemental Restraint System) control unit (ACU) detects an open circuit or high resistance in the driver front airbag ignition circuit — Atto 3
Safety System
This DTC indicates the SRS (Supplemental Restraint System) control unit (ACU) detects an open circuit or high resistance in the driver front airbag ignition circuit.
The ACU continuously monitors the airbag module circuit resistance through its internal diagnostic circuit.
Normal resistance is 2.0-2.4 Ω.
Resistance exceeding the threshold (usually >6 Ω) or a completely open circuit triggers DTC B1600-00.
The system then enters fail-safe mode and disables the driver-side airbag, preventing deployment during a collision.
The instrument panel airbag warning lamp remains illuminated to alert the driver.
Possible causes include the airbag module, clock spring (spiral cable), wiring harness connectors, or the ACU internal sampling circuit.
Likely Causes — Atto 3
- 1Fatigue fracture or poor contact of the clock spring (airbag spiral cable) internal flat cable. Frequent steering wheel rotation commonly breaks the internal conductive coil, causing an intermittent or permanent open circuit.
- 2Driver airbag module connector (yellow plug) loose, oxidized, backed-out terminal pins, or failed locking mechanism, causing excessive contact resistance or a complete open circuit.
- 3Open circuit or abnormal resistance in the airbag module internal inflator igniter wire, typically resulting from internal quality issues or prolonged storage.
- 4Damaged steering column wiring harness sleeve below the steering wheel. Repeated bending of the internal wires during steering wheel rotation breaks the copper strands or wears through the insulation, causing a short circuit.
- 5Internal fault in the SRS control unit (ACU) sampling circuit, software false detection, or unstable 12V power supply/ground causing a false open-circuit detection.
What To Do
- 1Safety preparation: Disconnect the 12V battery negative terminal and wait at least 90 seconds to fully discharge the SRS backup power supply. Wear an anti-static wrist strap to prevent accidental airbag deployment.
- 2Visual inspection: Verify the dedicated yellow SRS connectors under the steering wheel and instrument panel are fully connected and the locking tabs are engaged. Inspect the terminals for oxidation, corrosion, or deformation.
- 3Simulation test: Remove the driver-side airbag module. Connect a 2.2Ω/0.5W standard resistor in parallel at the wiring harness connector to simulate a normal airbag load. Reconnect the battery and turn the ignition on. If the fault code changes to a history code or disappears, the airbag module itself is faulty.
- 4Clock spring inspection: Disconnect the connectors at both ends of the clock spring. Use a multimeter to measure the resistance between the terminals. Normal resistance is <1Ω. Simultaneously, slowly turn the steering wheel and check for an intermittent open circuit (resistance suddenly changes to infinity).
- 5Harness continuity test: Measure wiring harness continuity from the ACU connector to the airbag connector. Focus on wiring harness continuity and insulation near the steering column. Inspect body ground points G101 and G102 for looseness.
- 6Component replacement: Based on test results, replace the clock spring (center during installation), repair the wiring harness, or replace the airbag module (record the new module resistance value and verify it is within tolerance).
- 7System configuration: Use the BYD dedicated diagnostic tool VDS or ED400 to perform the 'SRS System Configuration' or 'Coding' function (if replacing a module), clear the fault codes, and perform the 'System Self-check'.
- 8Functional check: Reassemble all components and reconnect the battery. Turn the ignition switch to the ON position and verify the airbag warning lamp turns off after the 6-second self-check. Perform a full left and right steering lock test to confirm the intermittent fault does not recur.
Real-World Cases
BYD S6 B1600 Fault Code Diagnosis and Clock Spring Replacement
Symptoms: Airbag warning light constantly on. Scan tool read DTC B1600.
Diagnosis: The technician removed the driver's airbag and bridged the airbag connector with a 2.2-ohm resistor to simulate the component. The fault code remained, ruling out a fault in the airbag module itself. The technician then tested resistance across the clock spring and found an open circuit, diagnosing a fractured internal ribbon cable.
Resolution: Replaced the clock spring with a genuine unit, reassembled and centered it, and cleared the fault codes with the scan tool. The airbag warning light returned to normal.
Original source ↗BYD Song DM: Backed-out pin in Vehicle Control Unit wiring harness causes system communication fault (Related case)
Symptoms: Vehicle unable to read the Vehicle Control Module (VCM); communication interruption fault codes present.
Diagnosis: Inspected power supply, ground and CAN bus connections. Found a backed-out terminal at the GJK14 harness junction on pins G09-14/15, causing the communication signal to drop out. For B1600 faults, inspect the airbag harness connectors for backed-out or loose terminals.
Resolution: Repaired the backed-out terminal, fully seated the harness connectors, and re-secured the harness bracket to prevent it from loosening again.
Original source ↗GM B1600 fault code diagnosis and power system troubleshooting
Symptoms: Instrument cluster displays DTC B1600 and the airbag warning light illuminates; some cases occur following battery discharge.
Diagnosis: Check if battery voltage is below 11V (discharge may trigger ACU false faults), inspect all yellow airbag connectors for looseness, and check if earth cable connections are tight.
Resolution: If caused by battery discharge, charge or replace the battery and clear the DTC. If connectors are loose, reconnect and wrap with electrical tape to secure. If the airbag light illuminates while driving, perform an emergency power cycle by disconnecting the negative terminal for 5-10 minutes, but take the vehicle to a service centre for thorough inspection and repair as soon as possible.
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]