DTC Advanced Diagnostics: P2195 (2.0L Engine) (2024 2025)
DTC P2195 : Air Fuel Ratio (A/F) Sensor (Sensor 1) Signal Stuck Lean
General Description
Detection item 1
The powertrain control module (PCM) monitors the air/fuel ratio (A/F) sensor (sensor 1) lambda signal for plausibility. If all operating conditions are fulfilled, the actual lambda value is continuously monitored against calibrated threshold. If the lambda value is too high for a calibrated amount of time, the PCM detects a malfunction and stores a DTC. To avoid a fault detection caused by empty fuel tank, when the lambda signal can show a mixture enleanment due to insufficient fuel supply, the additional confirmation time is applied in case of low fuel level in fuel tank.
Detection item 2
The PCM monitors the offset of the air/fuel ratio (A/F) sensor (sensor 1) signal. The test is performed by monitoring the fuel trim control of the secondary heated oxygen sensor (secondary HO2S (sensor 2)). If there is an air/fuel ratio offset measured by the secondary HO2S (sensor 2), the secondary HO2S (sensor 2) fuel trim is used to correct this offset back to the commanded air/fuel ratio. If the offset is present for an extended time, the secondary HO2S (sensor 2) fuel trim is stored as the A/F sensor (sensor 1) offset adaptation. There are two ways that the A/F sensor (sensor 1) offset is adapted. If the secondary HO2S (sensor 2) fuel trim has a small deviation, then the A/F sensor (sensor 1) offset is adapted slowly. If the secondary HO2S (sensor 2) fuel trim has a large deviation, the A/F sensor (sensor 1) offset is adapted faster. If the adapted offset of the A/F sensor (sensor 1) sensor is too large, the PCM detects a malfunction and stores a DTC.
Monitor Execution, Sequence, Duration, DTC Type
Detection item 1
| Execution | Continuous |
| Sequence | None |
| Duration | 10 seconds or more*, 10 minutes 10 seconds or more** |
| DTC Type | Two drive cycles, MIL on |
*: Fuel tank not empty
**: Fuel tank empty
Detection item 2
| Execution | Multiple |
| Sequence | None |
| Duration | 0.5 seconds or more |
| DTC Type | Two drive cycles, MIL on |
Enable Conditions (Detection item 1)
| Condition | Minimum | Maximum |
|---|---|---|
| Lambda set point | - | 1.6 |
| A/F sensor (sensor 1) heater temperature | 1, 327.99 deg.F (719.99 deg.C) | - |
| Fuel level* | 6 L (1.6 US gal) | - |
| Fuel level** | - | 6 L (1.6 US gal) |
| Other | Other than during fuel cut-off operation | |
Enable Conditions (Detection item 2)
Slow offset adaptation
| Condition | Minimum | Maximum |
|---|---|---|
| Engine speed [Engine Speed] | 1, 400 rpm | 3, 000 rpm |
| Charging efficiency | 20.3 % - 99.8 % | 0 % - 69.8 % |
| Fuel feedback | Closed loop*** | |
| Other | Evaporative emission (EVAP) system monitor is not active | |
***: For at least 300 g (10.59 oz) of integrated amount of exhaust mass flow
[ ]: HDS Parameter
Fast offset adaptation
| Condition | Minimum | Maximum |
|---|---|---|
| Engine coolant temperature [ECT Sensor 1]**** | 103.93 deg.F (39.96 deg.C) | - |
| Engine speed [Engine Speed]**** | 1, 000 rpm | - |
| Exhaust gas mass flow | 25 kg/h | 200 kg/h |
| Charging efficiency**** | 13.008 % - 22.008 % | - |
| Fuel feedback | Closed loop | |
| Other | No significant load changes | |
| Other than during fuel cut-off operation | ||
| Misfire rate is not exceeding | ||
****: For at least 50 g (1.77 oz) - 180 g (6.35 oz) of integrated amount of exhaust gas mass flow
Malfunction Threshold
Detection item 1
The actual lambda value is greater than 12 for at least 10 seconds* (10 minutes 10 seconds)**.
Detection item 2
Lambda offset is greater than 0.1.
Possible Cause
The causes shown may not be a complete list of all potential problems, and it is possible that there may be other causes.
- A/F sensor (sensor 1) not mounted
- A/F sensor (sensor 1) failure
- Exhaust system leak
Confirmation Procedure
Operating Condition
- Start the engine. Hold the engine speed [Engine Speed] at 3, 000 rpm without load (in neutral) until the radiator fan comes on, then let it idle.
- Drive the vehicle at constant speed with part load for a while.
- Drive the vehicle in this manner only if the traffic regulations and ambient conditions allow.
Diagnosis Details
Conditions for setting the DTC
When a malfunction is detected during the first drive cycle, a Pending DTC is stored in the PCM memory. If the malfunction returns in the next (second) drive cycle, the MIL comes on and a Confirmed DTC, the freeze data, and the on-board snapshot are stored.
Conditions for clearing the DTC
The MIL is cleared if the malfunction does not return in three consecutive trips in which the diagnostic runs. The MIL, the Pending DTC, the Confirmed DTC, the freeze data, and the on-board snapshot can be cleared with the scan tool clear command.