P1443

DTC P1443 - VENT CONTROL SOLENOID VALVE FUNCTION PROBLEM

OUTLINE OF DIAGNOSIS




In this system diagnosis, checking for leakage and valve function is conducted by changing the fuel tank pressure with each solenoid valve switched to ON/OFF, and monitoring the pressure change using the fuel tank pressure sensor. 0.04 inch diagnosis is performed in the order of mode Z, mode A, mode B, mode C, mode D and mode E, and 0.02 inch diagnosis is performed in the order of mode Y, mode A, mode B, mode C, mode D and mode E.




- 0.04-inch Diagnosis




- 0.02-inch Diagnosis




- Mode Table for Evaporative Emission Control System Diagnosis

COMPONENT DESCRIPTION




- Pressure Control Solenoid Valve
PCV controls the fuel tank pressure to be equal to the atmospheric air pressure. Normally, the solenoid is set to OFF. And the valve opens and closes mechanically in accordance with the pressure difference between tank and atmospheric air, or tank and canister. The valve is forcibly opened by setting the solenoid to ON at the time of diagnosis.







- Valve Operation and Air Flow
In the figure, divided by the diaphragm, the part above X is charged with atmospheric air pressure, and the part below X is charged with tank pressure. Also, the part above Y is charged with tank pressure, and the part below Y is charged with canister pressure.
If the atmospheric air pressure port is A, tank pressure port is B, and canister pressure port is C, the air flows according to pressure difference from each port as shown in the table.




- When Solenoid is ON




- CCV
CCV controls the ambient air to be introduced to the canister. Normally the solenoid is set to OFF and valve is open. The valve is closed when the solenoid is set to ON only at the time of diagnosis.




- Tank Pressure Switching Solenoid
One of the atmospheric pressure switching solenoid valves is connected to fuel tank pressure sensor and the other is released to atmosphere. The passage to fuel tank pressure sensor is usually released to atmosphere because the solenoid is set to OFF, but the solenoid is set to ON at diagnosis and the passage open to atmosphere is closed.




- Purpose of this solenoid
Fuel tank pressure sensor detects the difference between the atmospheric air pressure and the tank pressure and the ECM monitors the pressure difference.
Even if the tank pressure is constant, the atmospheric air pressure varies depending on the driving height, and the pressure signal transmitted to ECM will change.




Especially, in the small leakage [0.5 mm (0.02 in)], minute change in the tank pressure has to be detected. This diagnosis period is long (approx. 29 seconds). And if the driving height changes during the diagnosis, the atmospheric air pressure changes. In this case, it becomes difficult to precisely detect the tank pressure variation, causing erroneous diagnosis. Therefore, using the atmospheric pressure switching solenoid, atmospheric air is sealed between the fuel tank pressure sensor and atmospheric pressure switching solenoid, maintaining the air pressure constant and enabling the detection of minute variation of tank pressure.

NOTE: ECM also has the atmospheric air pressure sensor, and always monitors atmospheric air. However, as the monitoring range is large, that is, 53 to 107 kPa (400 to 800 mmHg, 16 to 32 inHg) it is not suitable for detection of minute pressure variation. In the case of small leakage diagnosis, the tank pressure variation is very small, that is, 0.13 to 0.27 kPa (1 to 2 mmHg, 0.04 to 0.08 inHg) and the fuel tank pressure sensor is equipped.







ENABLE CONDITION

GENERAL DRIVING CYCLE
- 0.04-inch Diagnosis
- Perform the diagnosis only once in more than 856 seconds after the engine start at the constant driving speed of 32 km/h (20 MPH) or more.
- Pay attention to the fuel temperature and fuel level.

- 0.02-inch Diagnosis
- Perform diagnosis in more than 335 seconds after engine start at the constant speed of 68 km/h (42 MPH) or more, and then terminate the diagnosis when judged OK or NG.
- If not judged OK or NG, repeat the diagnosis until judged OK or NG.
- Pay attention to the fuel temperature and fuel level.

DIAGNOSTIC METHOD

- MODE Z (Purge control solenoid valve open malfunction diagnosis, CPC close malfunction diagnosis)
DTC P0457
DTC P1443

- Purpose of Mode Z
When performing the leakage diagnosis of EVAP system, CCV and CPC have to operate normally. Therefore, mode Z is used to diagnose the CCV close fixation and CPC open fixation. If the CCV closed fixation trouble or CPC open fixation trouble is detected, the EVAP system leakage diagnosis is cancelled.







If the CCV closed fixation trouble occurred, negative pressure is generated from the engine to pressure control solenoid valve when pressure control solenoid valve is closed and CPC is opened. The occurrence of this status before the diagnosis results in erroneous diagnosis, because the valve cannot be opened for the pressure control solenoid valve structure if the negative pressure is larger than electromagnetic force when pressure control solenoid valve solenoid is set to ON in order to open the valve.




- Diagnostic method
CCV closed fixation diagnosis and CPC open fixation diagnosis are performed in mode Z as shown in the figure.




- Normal Operation




- Purge Control Solenoid Valve Open Fixation




- Drain Valve close fixation

- Diagnosing Function of CCV [P1443]
CCV functional diagnosis (closed fixation) is performed by closing CPC and opening pressure control solenoid valve.
If the CCV is normal, the canister pressure is always kept close to atmospheric air pressure because the CCV is usually open. Therefore, the tank pressure when CPC is closed and pressure control solenoid valve is opened becomes close to atmospheric air pressure.
However, if CCV closed fixation trouble occurred, negative pressure is generated in the canister before the diagnosis because the negative pressure in the intake manifold is introduced to the canister by opening CPC. If CPC is closed and pressure control solenoid valve is opened in this status, negative pressure is generated in the tank because the negative pressure in the canister is introduced to the tank. CCV functional diagnosis is performed by monitoring the tank pressure variation when CPC is closed and pressure control solenoid valve is opened.




Normality Judgment
Judge OK and change to Mode A when the criteria are completed in 3 seconds after Mode Z started.




Abnormality Judgment
If OK judgment cannot be made, extend Mode Z 16 seconds more, and judge NG when all the criteria are completed in 16 seconds.
Finish the Evap. diagnosis when making NG judgment for drain valve close fixation.




Cancel the Evap. diagnosis when the OK/NG judgment for drain valve close fixation and purge control solenoid valve open fixation cannot be made in Mode Z.

- Diagnosing function of CPC [P0457]
Perform CPC functional diagnosis (open fixation) by closing CCV when CPC is closed and pressure control solenoid valve is opened.
If CPC is normal, the tank pressure does not vary even when CCV is closed.
However, if CPC open fixation trouble occurred, the negative pressure in the intake manifold is introduced to the tank when CCV is closed, generating negative pressure in the tank.
CPC functional diagnosis is performed by monitoring the tank pressure when CCV is closed.

Normality Judgment
Make OK judgment in 3 seconds after Mode Z started, and change to Mode A if OK.
Both diagnostic method and judgment value are the same as PCV normality judgment.




Abnormality Judgment
If OK judgment cannot be made, extend Mode Z 16 seconds more, and judge NG when all the criteria are completed in 16 seconds.
Finish the Evap. diagnosis when making NG judgment for purge control solenoid valve open fixation. Cancel the Evap. diagnosis when the OK/NG judgment for drain valve close fixation and purge control solenoid valve open fixation cannot be made in Mode Z.

- Leak Diagnosis
DTC P0442
DTC P0456
DTC P0457

- Diagnostic method
- The diagnostic method consists of creating a sealed vacuum in the fuel tank and then determining the presence of leakage from the speed at which the tank internal pressure returns to atmospheric pressure.
- The diagnosis is divided into the following five phases.

Mode A; (Estimation of evaporation gas yield)
Because CPC and CCV are closed, the tank pressure increases in proportion to evaporator generation. This tank pressure variation amount is P1. After calculating P1, change to Mode B.

Mode B; (Seal negative pressure)
Open CPC and introduce the negative pressure in the intake manifold to the tank.

Approx. 0 -> -1.4 kPa (0 -> -10.5 mmHg, O -> -0.41 inHg) (0.04-in diagnosis)
Approx. 0 -> -3.05 kPa (0 -> -22.9 mmHg, 0 -> -0.9 inHg) (0.02-in diagnosis)
When the pressure above (desired negative pressure) is reached, Mode C is entered. In this case, if the tank pressure does not become the desired negative pressure, judge that there is a large leakage in the system.

Judge NG when the malfunction criteria is completed. Finish the Evap. diagnosis when judging large leak (10 seconds or 25 seconds) in 0.04-inch diagnosis. Cancel the diagnosis (10 to 20 seconds) in 0.02-inch diagnosis.




Abnormality Judgment
Judge NG (large leak) when the criteria are completed in the specified time.




Mode C; (Check increasing pressure)
Stop the introduction of negative pressure by shutting the purge control solenoid valve. (Wait until the tank pressure returns to the start level of P2 calculation.)
Change to Mode D when the tank pressure returns to the start level of P2 calculation.
Judge immediate OK and change to Mode E when it does not return in spite of spending the specified time.

Mode D; (Measurement of negative pressure changes)
Monitor the pressure variation in the tank with CPC closed. In this case, the tank pressure increases, that is, the pressure becomes as high as the atmospheric air pressure, because evaporator is generated. However, if any leakage exists, the pressure increases additionally in proportion to this leakage. The pressure variation of this tank is P2.
After calculating P2, perform small leak diagnosis and change to Mode E if normal. Complete Evap. diagnosis if abnormal.

- After Mode D
Assigning P1 and P2, which are tank variations measured in Mode A and Mode B, to the formula below, judge the small leakage of the system. If the measured judgment value exceeds the threshold value, it is judged to be malfunction.

- 0.04-inch Diagnosis




Abnormality Judgment
Judge NG when the criteria are completed and judge OK when not completed.

- 0.02-inch Diagnosis




Abnormality Judgment
Judge NG when the criteria are completed.










Normality Judgment
Judge OK when the criteria are completed.

- CCV Property Diagnosis [P1443]




Mode E;
The tank pressure must become again as high as the atmospheric air pressure, because the closed CCV becomes open after the evaporation diagnosis (normal judgment on Mode C or after Mode D). If the tank pressure does not become as high as the atmospheric air pressure, judge that CCV is blocked. Judge NG when the criteria are completed.

DTC CLEAR CONDITION
- When the OK idling cycle was completed 40 times in a row
- When "Clear Memory" was performed

MALFUNCTION INDICATOR LIGHT CLEAR CONDITION
- When the OK driving cycle was completed 3 times in a row
- When "Clear Memory" was performed

FAIL SAFE
Atmospheric purge solenoid function malfunction; Open the pressure control solenoid valve.

ECM OPERATION AT DTC SETTING
- Memorize the freeze frame data. (For test mode $02)
- Memorize the diagnostic value and trouble standard value. (For test mode $06)