Code
P206B
Generic
P — Powertrain
Reductant Quality Sensor Circuit Range/Performance
Views:
UK: 21
EN: 51
RU: 18
AI status
Completed
Completed
100%
Causes
- Faulty reductant quality sensor
- Damaged, corroded or disconnected sensor connector or wiring (open, short to ground, short to power)
- Contaminated, diluted or incorrect reductant fluid
- Low reductant (DEF/AdBlue) level allowing sensor exposure to air or crystals
- Faulty sensor heater or internal electronics
- Poor ground or supply voltage to the sensor
Symptoms
- Malfunction Indicator Lamp (MIL) or DEF warning illuminated
- Reduced power or limp mode depending on manufacturer strategy
- Reduced or inhibited SCR performance; possible increased NOx emissions
- DEF system warnings on cluster or message center
- Failed emissions/inspection tests
What to check
- Read freeze frame and live data with a capable scan tool; record reductant quality sensor values and related DEF system codes
- Visually inspect DEF tank, filler neck and sensor area for contamination, crystals or foreign material
- Inspect sensor wiring harness and connector for corrosion, damage, pin push-out or water intrusion
- Confirm DEF level and check for correct fluid (no water or improper fluids)
- Backprobe connector and check reference voltage (typically 5 V reference), signal voltage range and ground integrity
- Measure heater circuit resistance if applicable and compare to specification
Signal parameters
- Sensor uses vehicle reference voltage (commonly 5 V) and ground; signal typically within 0–5 V range depending on fluid condition
- Normal idle/steady values often near mid-scale; out-of-range low or high voltages indicate sensor or circuit issues
- Heater circuit (if present) generally measures in the tens to a few hundred ohms range (manufacturer-specific)
- Short to battery will show near battery voltage on signal; short to ground will show near 0 V
- Rapid or erratic signal fluctuations can indicate intermittent connection, contamination or failing sensor electronics
Diagnostic algorithm
- Connect a scan tool, record stored codes, freeze-frame data and live reductant quality sensor values. Note related DEF/SCR codes.
- Verify DEF level and visually inspect fluid quality. If fluid appears contaminated, consider sample and replace DEF before further diagnosis.
- Visually inspect sensor harness and connector for damage, corrosion or water ingress. Repair any obvious issues.
- With key on engine off, backprobe sensor connector: verify reference voltage (≈5 V) and good ground. If missing, trace supply/ground faults.
- Measure sensor signal voltage while operating or per manufacturer procedure. Compare to expected range. Monitor while adding known-good DEF (if safe) or during operation to see response.
- Check heater circuit resistance (if applicable) and verify it is within spec. Test for shorts to ground or battery.
- Perform wiggle / stress tests on wiring while observing live data to find intermittent faults.
- If wiring and supply/ground are good but signal is out of range, replace the reductant quality sensor and retest.
- Clear codes, perform required relearn or adaptations if applicable, update ECM/PCM software if a TSB applies, and test drive to confirm repair.
- If fault persists after sensor and wiring replacement, consider module diagnosis (ECM/PCM) or professional calibration.
Likely causes
- Sensor failure from age, contamination or internal short
- Corroded connector pins, water intrusion or damaged harness
- Crystallized DEF or foreign debris on sensor element
- Incorrect aftermarket reductant or water contamination
- Open/short in sensor heater circuit or reference voltage feed
Fault status
Status
Reductant quality sensor circuit out of range or performance fault detected. Possible sensor, wiring, contamination or supply/ground issue affecting SCR/DEF system. MIL illuminated and emissions control may be limited.
Repair difficulty: Medium
Diagnostic time: 1.5 - 3.0 hours
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