B2A5A11
This DTC indicates a short to ground in the signal circuit of the front passenger side FACE mode outlet air temperature sensor — Qin Plus
Thermal Management System
This DTC indicates a short to ground in the signal circuit of the front passenger side FACE mode outlet air temperature sensor.
In the BYD dual-zone automatic air conditioning system, this sensor uses an NTC (negative temperature coefficient) thermistor.
Under normal conditions, sensor resistance decreases as temperature increases (approximately 2 kΩ at 20°C).
The air conditioning controller calculates the actual outlet air temperature by detecting the voltage signal (typically in the 0-5 V range) through a voltage divider circuit.
When the signal wire shorts to the vehicle body ground, the controller detects a continuous voltage below 0.1 V (or close to 0 V) and sets DTC B2A5A11.
This disables the front passenger side temperature control.
The air conditioning system may enter limp mode and default to a fixed output temperature, reducing passenger comfort.
In extreme cases, false readings may trigger thermal management system protection.
Likely Causes — Qin Plus
- 1The internal thermistor of the temperature sensor breaks down and short-circuits, directly grounding the signal terminal.
- 2Damaged wiring harness insulation inside the right dashboard air conditioning duct allows the signal wire to contact the metal duct or a sharp body edge and short to ground.
- 3Poor sensor connector sealing allows A/C condensate to seep in, causing a short circuit between pins or a short to ground.
- 4A detached wiring harness retaining clip causes the harness to chafe against the instrument panel frame during driving, resulting in damage over time.
- 5Improper wiring harness routing after previous repairs allowed the instrument panel trim to pinch the harness and pierce the insulation.
What To Do
- 1Connect the VDS2000 or BYD dedicated diagnostic tool, read the fault codes to confirm B2A5A11 is a current fault, and record the ambient temperature value from the freeze frame data.
- 2Remove the passenger side lower dashboard trim panel and locate the face outlet temperature sensor (usually inside the right HVAC assembly outlet duct). Disconnect the connector and measure the sensor resistance. At 20°C, the resistance should be 1.8-2.2 kΩ. A reading of 0-10 Ω indicates an internal short circuit. Replace the sensor.
- 3Keep the connector disconnected. Use a multimeter to measure the resistance between the harness-side signal pin (usually the yellow wire) and body ground. The resistance must be greater than 10 MΩ. If continuity exists, inspect the wiring harness along its path for damage. Focus on sharp edges where the harness passes through the firewall and instrument panel bracket.
- 4Check connector seal ring integrity. Inspect pins for oxidation, verdigris, or water marks. If necessary, clean with electronic contact cleaner and spray WD-40 to waterproof. Replace the connector if severely corroded.
- 5If the wiring harness appears normal but is shorted to ground, use the sectional troubleshooting method: disconnect the intermediate connector, measure the insulation of the front and rear harness sections separately, and isolate the fault to a specific wire section.
- 6Check the A/C controller side: Disconnect the controller connector and measure the corresponding pin's resistance to ground to confirm there is no internal short circuit in the controller (very rare).
- 7After repairing or replacing the faulty wiring harness/sensor, restore the connections and clear the fault code. Start the vehicle and turn on the air conditioning (set to 22°C, face mode). Run the system for 15 minutes. Monitor the 'front passenger face vent temperature' in the data stream to verify normal operation (the temperature should decrease gradually with airflow). Confirm the fault code does not recur.
Real-World Cases
2018 BYD Song MAX: Sensor Short Circuit from Water Ingress
After heavy rain while parked outdoors, the passenger side A/C vents blew icy cold air and wouldn't adjust. The scanner showed active DTC B2A5A11. Sensor resistance measured 0.5Ω (shorted). Disassembly revealed the sensor mounted at the lowest point of the air duct. A blocked drain hole caused condensate to accumulate, completely submerging the connector and shorting the pins. Fix: Cleared the A/C drain tube, replaced the passenger face-level temperature sensor, dried the connector and applied anti-corrosion treatment. Fault cleared.
2019 BYD Qin Pro DM Dashboard Wiring Harness Wear Case
When driving on rough roads, the AC panel occasionally displayed an 'E3' error, eventually triggering DTC B2A5A11. Static sensor tests showed normal readings, but resistance to ground fluctuated when wiggling the harness. Removed the dashboard and found the harness retaining clip had fallen off where it passes through the metal bracket. Long-term rubbing against the sharp edge wore through 3 mm of insulation, exposing the copper core to the body. Repaired the wiring by soldering and adding heat-shrink tubing, re-secured the harness with a rubber grommet, and adjusted the routing to avoid interference.
2019 Qin EV Sensor Aging Failure Case
After 4 years, the passenger-side temperature display stuck at -40°C (ultra-low) with intermittent DTC B2A5A11. Sensor resistance measured only 50Ω at ambient temperature (normal: 2kΩ), indicating internal thermistor breakdown from aging. Harness insulation tested normal and connectors showed no water ingress. Replaced the OEM passenger-side face-level air temperature sensor (Part No.: EG-8107010B). Temperature display returned to normal; fault code cleared and has not returned.
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.