DTC Advanced Diagnostics: P0128 (1.5L Engine)
DTC P0128: Cooling System Malfunction
General Description
The thermostat is closed when the engine coolant temperature is low, and it stops the circulation of engine coolant to speed engine warm up. When the engine coolant temperature increases, the thermostat opens and circulates engine coolant to control its temperature. When the engine coolant temperature decreases, the opening area of the thermostat is reduced to regulate the engine coolant temperature. If the thermostat sticks open, engine warm up is delayed, and exhaust emissions are adversely affected. The powertrain control module (PCM) measures the rise in the coolant temperature after the engine starts at the engine block and at the radiator, and it estimates the characteristics of the engine coolant temperature by calculations based on those two temperatures and the driving conditions. When ECT 2 immediately increases from the starting value, it is defined as the thermostat stuck open. When ECT 1 does not reach a specified value at a certain condition, it is defined as a thermostat malfunction.
Monitor Execution, Sequence, Duration, DTC Type
| Execution | Once per driving cycle |
| Sequence | None |
| Duration | Depending on the driving conditions |
| DTC Type | Two drive cycles, MIL on |
Enable Conditions
| Condition | Minimum | Maximum |
|---|---|---|
| Engine off time | 6 hours | - |
| Estimated initial outside air temperature | 19.6 deg.F (-6.9 deg.C) | - |
| Initial engine coolant temperature (ECT 1) [ECT Sensor 1] | - | 123.0 deg.F (50.6 deg.C) |
| The difference between initial intake air temperature [IAT Sensor (1)] and current intake air temperature [IAT Sensor (1)] | - | 3.6 deg.F (2.0 deg.C)* |
| 9 deg.F (5 deg.C)** |
*: Intake air temperature decrease judgment when there is no driving record of 25 mph (40 km/h) in this drive cycle.
**: Intake air temperature decrease judgment when there is a driving record of 25 mph (40 km/h) in this drive cycle.
[ ]: HDS Parameter
Malfunction Threshold
Malfunction determination 1:
The difference between the current engine coolant temperature at the radiator (ECT 2) [ECT Sensor 2] and the initial engine coolant temperature at the radiator (ECT 2) [ECT Sensor 2] is at least 14.6 deg.F (8.1 deg.C)* 1 (16.1 deg.F (8.9 deg.C))* 2 when either of these condition is met:
- When the estimated engine coolant temperature at the engine (ECT 1) [ECT Sensor 1] reached to 163.8 deg.F (73.2 deg.C).
- When the estimated engine coolant temperature at the engine (ECT 1) [ECT Sensor 1] changed 35.0 deg.F (19.4 deg.C).
*1: CVT
*2: M/T
Malfunction determination 2:
The estimated engine coolant temperature at the engine (ECT 1) [ECT Sensor 1] reaches to 158 deg.F (70 deg.C) before the actual engine coolant temperature at the engine (ECT 1) [ECT Sensor 1] reaches to 158 deg.F (70. deg.C).
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.
- Thermostat failure
- Engine coolant temperature (ECT) sensor 1 failure
- Intake air temperature (IAT) sensor failure
- Manifold absolute pressure (MAP) sensor failure
- Crankshaft position (CKP) sensor failure
- Barometric pressure (BARO) sensor failure
- Ignition system failure
- Fuel supply system failure
- VTEC system failure
- Radiator fan failure
- Hood opened
Confirmation Procedure
Operating Condition
- Start the engine under Enable Conditions (see "Engine off time", "Estimated initial outside air temperature", "Initial engine coolant temperature (ECT 1) [ECT Sensor 1]", and "The difference between initial intake air temperature [IAT Sensor (1)] and current intake air temperature [IAT Sensor (1)]").
- Drive the vehicle at a speed between 15 - 75 mph (24 - 120 km/h) for at least 30 minutes.
- 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 with the engine coolant temperature and intake air temperature at engine start-up within the specified temperature range, a Pending DTC is stored in the PCM memory. If the malfunction returns in the next (second) drive cycle with the engine coolant temperature and intake air temperature at engine start-up within the specified temperature range, 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.