B16C2
DTC B16C2 indicates an internal hardware or software self-test failure in the airbag control unit (SRS ECU) — Qin Plus
Safety System
DTC B16C2 indicates an internal hardware or software self-test failure in the airbag control unit (SRS ECU).
This fault signifies a functional failure in the ECU internal microprocessor, EEPROM memory, crash sensor interface circuit, or firing circuit driver.
The ECU performs internal diagnostics at each power-up.
If the ECU detects a CPU calculation error, memory checksum failure, internal communication bus fault, or firing circuit driver chip abnormality, it sets this DTC and enters fail-safe mode.
The airbag system completely disables, and the airbags may fail to deploy during a collision.
This condition also affects related systems such as the seat belt pretensioners and airbag warning lamp.
This constitutes a hard fault and typically will not clear by simply disconnecting power.
Replace the ECU or repair the internal hardware.
Likely Causes — Qin Plus
- 1Hardware damage to the SRS ECU internal processor or memory chip, usually due to voltage surges or component aging.
- 2Abnormal ECU power supply voltage (below 9V or above 16V) causes internal circuit instability or reset.
- 3Poor contact, oxidation, or high resistance in the ECU ground circuit, causing the signal reference potential to drift.
- 4Vehicle wading, high humidity, or improper car washing causes ECU seal failure, resulting in internal circuit board corrosion and short circuits.
- 5ECU software program or crash calibration data corrupted, possibly due to improper power disconnection or electromagnetic interference.
What To Do
- 1Use a dedicated diagnostic tool (such as BYD ED400 or VDS) to read all fault codes. Confirm B16C2 is a current fault and freeze frame data shows it triggered during the ECU self-check stage. Clear the fault code, power on the vehicle again, and observe if the fault recurs.
- 2Check the SRS ECU housing ground point (usually located on the center tunnel or instrument panel frame). Remove the ground bolt and clean the contact surfaces. Measure the ground resistance; it must be less than 1Ω. Verify no oxidation or paint blocks the connection.
- 3Disconnect the SRS ECU main wiring harness connector (e.g., G36/G37). Measure the voltage at the harness-side power terminals (constant +B and IG power); the voltage must be 9–16 V. Measure the CAN-H (approx. 2.5–3.5 V) and CAN-L (approx. 1.5–2.5 V) line voltages and the terminating resistance (approx. 60 Ω).
- 4Visually inspect the ECU connector pins for backed-out pins, corrosion, signs of water ingress, or pin spread. Clean the connector with electrical contact cleaner. Repair or replace the wiring harness terminals if necessary. Verify the waterproof sealing ring is intact.
- 5If circuit measurements are normal, update the SRS ECU software or refresh the calibration data. If the fault persists, this indicates an internal ECU hardware fault. Replace the SRS ECU assembly (verify the part number based on the vehicle model, e.g., Yuan EV: ED-5820100).
- 6After replacing the ECU, perform online configuration coding (VIN writing and vehicle model configuration), collision sensor zero-point calibration, and a system self-check. Confirm the fault code clears and the instrument cluster airbag warning lamp turns off normally (6 seconds after power-on).
Real-World Cases
BYD Qin Pro SRS ECU internal processor fault
Instrument panel airbag warning light stayed on constantly. Retrieved DTC B16C2 (active fault). Checked ECU supply voltage: 12.4V – normal. Earth resistance: 0.3Ω – normal. CAN communication waveform: normal. Disconnected power for 30 minutes and cleared the fault code. The DTC returned immediately upon power-up. Disassembled the SRS ECU; internal circuit board showed no signs of water ingress, but the main control chip showed signs of heat discolouration. Replaced the SRS ECU (part number ED-5820100A), performed system calibration and coding. This resolved the fault, and the airbag warning light went out normally.
Original source ↗BYD Song MAX wiring harness pin backed out causing intermittent fault
The airbag warning light occasionally illuminated on rough roads and sometimes cleared after switching off and restarting. The diagnostic tool read DTC B16C2 as an intermittent fault. Inspection of the SRS ECU connector G36 found pin 35 (earth) had backed out by approximately 2 mm, causing an intermittent earth connection while driving. Repaired the terminal by re-crimping and fully seating it, then reinforced the wiring harness fixing point with special waterproof tape. Road tested for 30 km with no recurrence; fault fully resolved.
Original source ↗BYD Tang DM ECU internal corrosion after wading
After driving through water approximately 40 cm deep, the instrument cluster displayed an airbag warning. DTC B16C2 was present and could not be cleared. Removed the SRS ECU (located beneath the centre armrest console) and found the outer seal had deteriorated, with visible water staining and pin corrosion on the internal circuit board. Measured a short circuit in the ECU's internal voltage regulation circuit. Replaced the SRS ECU along with the wiring harness waterproof connectors. Added a waterproof cover to the mounting location. Fault cleared. Recommend inspecting the ECU seal on vehicles from the same production batch.
BYD Yuan EV voltage instability caused ECU damage
After fitting a high-power audio system, the airbag warning light came on frequently. Diagnosis showed DTC B16C2. Inspection found the aftermarket wiring had tapped directly into the SRS ECU power circuit, causing voltage to drop to 7.2V at startup. This caused the ECU to reset repeatedly, damaging the internal memory. Removed the unauthorized wiring and restored the factory wiring layout; replaced the damaged SRS ECU; advised the customer not to tap power from the SRS system. A one-month follow-up confirmed no fault recurrence.
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.