B164F-00
B164F-00 indicates the measured resistance of the front passenger seat belt pretensioner is 0 ohms, signifying a short circuit fault in the pretensioner circuit (short to ground or internal short) — Atto 3
Safety System
B164F-00 indicates the measured resistance of the front passenger seat belt pretensioner is 0 ohms, signifying a short circuit fault in the pretensioner circuit (short to ground or internal short).
In the SRS (airbag) system, normal pretensioner resistance is typically 2.0-3.0 ohms.
The ECU monitors circuit current to determine component status.
A 0-ohm resistance indicates an abnormal current path.
The ECU registers a short circuit fault, illuminates the airbag warning light, and may disable the passenger airbag and pretensioner functions, severely compromising occupant protection during a collision.
Differentiate this fault from "resistance too high" (open circuit).
A 0-ohm reading typically indicates a hard short circuit or a direct harness short to ground.
Likely Causes — Atto 3
- 1Pretensioner internal short circuit: The front passenger seat belt pretensioner squib shorts internally, causing resistance to approach 0. Component aging or manufacturing defects usually cause this.
- 2Wiring harness chafed to ground: Frequent fore-and-aft seat adjustment wears through the insulation on the pretensioner wiring harness (yellow dedicated harness) under the front passenger seat, allowing direct contact with body metal and causing a short to ground.
- 3Connector water ingress short circuit: Vehicle wading or improper cleaning causes water to enter the under-seat pretensioner connector (usually located near the seat slide rail), creating a short circuit between pins or a short to ground.
- 4SRS ECU internal monitoring circuit fault: A faulty internal monitoring chip or sampling resistor in the airbag control unit causes a false short-circuit report, while the actual pretensioner resistance is normal.
- 5Caused by incorrect operation: Directly measuring the pretensioner with a multimeter set to ohms may show 0 Ω due to improper procedures or a damaged pretensioner. (Note: Never use a standard multimeter for measurement; use dedicated diagnostic equipment.)
What To Do
- 1Safe power-down: Turn off the ignition switch, disconnect the negative battery terminal, and wait at least 90 seconds for the SRS capacitor to fully discharge. Never work on the airbag system with the power on.
- 2Visual inspection: Remove the front passenger seat (or lift the seat carpet) and inspect the yellow SRS wiring harness under the seat for obvious wear, cuts, or crush marks. Focus on the seat slide rail mounting points and harness bend points.
- 3Connector inspection: Disconnect the pretensioner connector (special connector with shorting bar). Inspect inside the connector for water ingress, corrosion, metallic debris, or bent pins causing a short circuit. Clean or replace the connector if necessary.
- 4Resistance measurement: Use a dedicated SRS diagnostic tool or a high-precision low-current ohmmeter (range <250mA) to measure the pretensioner unit resistance. If the reading is 0 ohms, replace the front passenger seat belt assembly (including the pretensioner). If the reading is 2-3 ohms (normal), check the wiring harness.
- 5Harness continuity test: Measure resistance between the pretensioner harness terminal and ground. Resistance must be infinite. If continuity exists (0 ohms), trace the wiring to locate the damaged point, then repair or replace the harness. Also measure continuity between both ends of the harness to rule out an open circuit.
- 6ECU verification: If the wiring harness and pretensioner are normal, connect a spare SRS ECU to check if the control unit is reporting a false fault. If the test confirms an ECU fault, replace the airbag control module and perform coding configuration.
- 7System reset: After repair, reconnect all components and connect the battery. Use the diagnostic tool to clear the fault code. Perform the SRS system self-check (normally, the warning light should illuminate for 6 seconds after turning the ignition switch ON, then turn off). Perform a simulated crash test to verify.
Real-World Cases
Qin EV300 seat wiring harness chafed and shorted
The airbag warning light on the dashboard stayed on. Read fault code B164F-00. Found the yellow SRS wiring harness beneath the passenger seat had worn through its insulation at the seat track retaining clip, exposing the copper core and shorting the pretensioner circuit to ground. Repaired the damaged harness using heat shrink tubing and rerouted the wiring to avoid rubbing against metal edges. Fault resolved.
BYD Qin 80: Replaced pretensioner due to internal short circuit
Customer reported the airbag warning light was on. Scan revealed DTC B164F-00. Disconnected the pretensioner connector and measured 0.2 ohms resistance across the pretensioner pins (normal 2.3 ohms). Diagnosed a short circuit in the pretensioner's internal pyrotechnic element. Replaced the front passenger seat belt assembly (including pretensioner). The new part measured 2.4 ohms. Installed the assembly and cleared the fault code. The system returned to normal.
Connector corrosion due to water wading
After driving through water, the airbag warning light came on with DTC B164F-00. Inspection found water and corrosion inside the pre-tensioner connector under the front passenger seat, causing the pins to short together. Cleaning and blow-drying the connector did not stabilise the resistance readings. Replaced the pre-tensioner wiring harness connector (with shorting link) and waterproofed the related wiring to resolve the fault.
Troubleshooting SRS ECU False Fault Reports
DTC B164F-00 kept recurring. Replaced the pretensioner and wiring harness but the fault persisted. Measured the monitoring signal from the SRS ECU to the pretensioner with an oscilloscope; the waveform was abnormal. Replaced the airbag control module (requires VIN reconfiguration and coding). The fault code did not recur, confirming the false trigger was caused by an internal monitoring circuit fault in the ECU.
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]