DTC Advanced Diagnostics: P2187 (1.5L Engine)
DTC P2187: Fuel System Too Lean at Idle
General Description
The powertrain control module (PCM) detects the oxygen content in the exhaust gas from the air/fuel ratio (A/F) sensor (sensor 1) signal voltage, and it uses fuel feedback control to maintain the optimal air/fuel ratio. The air/fuel ratio coefficient for correcting the amount of injected fuel is the short term fuel trim. The PCM varies short term fuel trim continuously to keep the air/fuel ratio close to the stoichiometric ratio for all driving conditions. In case the breather pipe is disconnected, air amount at the mass airflow (MAF) sensor decreases and basic fuel amount decreases; as a result, fuel injection quantity correction coefficient becomes larger to compensate the gap. This condition could be seen prominently at low load which the intake air amount is small. The detection of breather pipe disconnection is done by monitoring the gap which is determined by fuel injection quantity correction coefficient average during idle and continuously updating fuel injection quantity correction coefficient. If the fuel injection quantity correction coefficient exceeds a threshold value, the PCM detects a malfunction and stores a DTC. The purge is stopped by fuel injection quantity correction coefficient to exclude the influence of purging during the detection.
Monitor Execution, Sequence, Duration, DTC Type
| Execution | Once per driving cycle* |
| Sequence | None |
| Duration | Every 3.0 seconds |
| DTC Type | Two drive cycles, MIL on |
*: The malfunction judgment is cleared when it is judged as normal under the same driving conditions in which the malfunction is detected.
Enable Conditions
| Condition | Minimum | Maximum |
|---|---|---|
| Engine coolant temperature [ECT Sensor 1] | 155.9 deg.F (68.8 deg.C) | - |
| Intake air temperature [IAT Sensor (1)] | 18.3 deg.F (-7.6 deg.C) | - |
| MAP value [MAP Sensor (Hi Res)] | 16.0 kPa (120.0 mmHg, 4.73 inHg) | - |
| Intake air amount | - | 3.8 g/s (0.134 oz/s) |
| Vehicle speed [Vehicle Speed] | - | 1 mph (3 km/h) |
| Fuel feedback | Closed loop | |
| Monitoring priority | P0455, P0456 | |
[ ]: HDS Parameter
Malfunction Threshold
Long term fuel trim is 1.33 (+33 %) or more.
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.
- Fuel pump failure
- Fuel injector failure
- Fuel pressure regulator failure
- Fuel line failure
- Fuel supply system failure
- MAF sensor range/performance problem
- Manifold absolute pressure (MAP) sensor range/performance problem
- A/F sensor (sensor 1) failure
- Secondary HO2S (sensor 2) failure
- Vacuum hose misinstalled
- Throttle body air leak
- Intake manifold air leak
- Evaporative emission (EVAP) canister purge valve failure
- Valve timing incorrect
- Breather pipe disconnection
Confirmation Procedure
Operating Condition
- Start the engine. Hold the engine speed [Engine Speed] at 3, 000 rpm without load (CVT in P or N, M/T in neutral) until the radiator fan comes on, then let it idle.
- Drive at a steady speed between 15 - 75 mph (25 - 120 km/h) for at least 15 minutes, and watch the long term fuel trim. If the long term fuel trim stays at about 1.0, the vehicle is OK or it is a very minor problem. If a significant fault is still present, the long term fuel trim will move up or down while driving.
- When freeze data or the on-board snapshot is stored, drive the vehicle under those conditions instead of Driving Pattern step 2.
- After clearing the DTC using the scan tool, drive at steady speed between 15 - 55 mph (25 - 88 km/h) for at least 40 minutes to allow time for long term fuel trim to recover.
- 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 drive cycles in which the engine conditions are similar to the first time the malfunction was detected. 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.