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Home >> Chrysler >> 2003 >> Sebring Coupe V6-3.0L VIN H >> Repair and Diagnosis >> A L L Diagnostic Trouble Codes ( DTC ) >> Testing and Inspection >> P Code Charts >> P0455

P0455

System Diagram:








TECHNICAL DESCRIPTION
- The fuel tank may be under a slight pressure or vacuum depending on the state of the evaporative emission system. The ECM or PCM monitors and responds to these pressure/vacuum changes. If the pressure vacuum varies from the specified range, the ECM or PCM will set DTC P0455.
- The ECM or PCM energizes the evaporative emission ventilation solenoid to shut oft the evaporative emission canister outlet port.
- The evaporative emission purge solenoid is to apply engine manifold vacuum to the evaporative emission system.
- When the fuel system develops a vacuum of 2 kPa (0.29 psi), the evaporative emission purge solenoid is turned "OFF' and the fuel system vacuum is maintained at 2 kPa (0.29 psi).
- The ECM or PCM determines if there is a leak or clog in the fuel system by measuring the change of vacuum inside the fuel tank.
- The test is stopped when fuel vapor pressure is determined to be too high.

DTC SET CONDITIONS

Test Conditions:
- Engine coolant temperature is less than 36 °C (97 °F) when the engine is started.
- Intake air temperature is less than 36 °C (97 °F) when the engine is started.
- Engine coolant temperature is greater than 60 °C (140 °F) When the amount of remaining fuel is 15 - 40 percent of capacity upon engine start up.
- Engine coolant temperature is greater than 20 °C (68 °F) when the amount of remaining fuel is 40 - 85 percent of capacity upon engine start up.
- Intake air temperature is greater than 5 °C (41 °F).
- Fuel temperature is less than 36 °C (97 °F).
- Barometric pressure is greater than 76 kPa (11 psi).
- Volumetric efficiency is between 20 and 70 percent.
- Fuel tank differential pressure sensor output voltage is 1 - 4 volts.
- When the evaporative emission purge solenoid and evaporative emission ventilation solenoid are closed, the pressure rises in the fuel tank 451 Pa (0.065 psi) or less and the amount of remaining fuel is 15 - 40 percent of capacity upon engine start up.
- When the evaporative emission purge solenoid and evaporative emission ventilation solenoid are closed, the pressure rises in the fuel tank 324 Pa (0.047 psi) or less and the amount of remaining fuel is 40 - 85 percent of capacity upon engine start up.
- Engine speed is greater than 1,600 rpm.
- 10 seconds have elapsed from the start of the previous monitoring.
- Monitoring time: 136 seconds.

Judgment Criteria:
- The fuel tank internal pressure is greater than 2 kPa (0.29 psi) after the evaporative emission purge solenoid has been driven when the fuel tank and vapor line were closed.

TROUBLESHOOTING HINTS (The most likely causes for this code to be set are:)
- Loose fuel cap.
- Fuel cap relief pressure is incorrect.
- Malfunction of the fuel overflow limiter valve.
- Purge line or vapor line is clogged.
- Malfunction of the fuel tank, purge line or vapor line seal.
- Malfunction of the evaporative emission purge solenoid.
- Malfunction of the evaporative emission ventilation solenoid.
- Malfunction of the fuel tank differential pressure sensor.
- Malfunction of the evaporative emission canister seal.
- Evaporative emission canister is clogged.

OVERVIEW OF TROUBLESHOOTING
- To determine the cause of DTC P0455, a performance test is needed. The performance test uses a mechanical vacuum gauge and scan tool MB991502 set to data reading mode for the fuel tank differential pressure sensor (TANK PRES SNER 73). The mechanical gauge reading is used to verify the scan tool reading. A comparison of the mechanical gauge and scan tool MB991502 determines whether there is a problem in the system.
- Prior to doing the performance test, ensure that the fuel cap is closed securely. Inspect all EVAP system hoses and tubes for damage.

DIAGNOSIS

Required Special Tool:
- MB991502: Scan Tool (MUT-II)





STEP 1. Using scan tool MB991502, check evaporative emission system monitor test.

CAUTION
- To prevent damage to scan tool MB991502, always turn the ignition switch to the "LOCK" (OFF) position before connecting or disconnecting scan tool MB991502.
- During this test, the ECM or PCM automatically increases the engine speed to 1,600 rpm or greater. Check that the transaxle is set to "neutral" or "P" position.

1. Connect scan tool MB991502 to the data link connector.
2. Turn the ignition switch to the "ON" position.
3. Erase the DTCs using scan tool MB991502. (Refer to Trouble Code Diagnosis - How to Read and Erase Diagnostic Trouble Codes).
4. Check that the fuel cap is securely closed. (Tighten until three clicks are heard).
5. Start the engine.
6. Select "System Test", and press the "YES" key.
7. Select "Evap Leak Mon", and press the "YES" key.
8. During the monitor, keep the accelerator pedal at the idling position.

NOTE: If the engine speed does not reach 2,000 rpm during the monitor test, adjust the Speed Adjusting Screw (Refer to On-vehicle Service - Basic Idle Speed Adjustment), and adjust to the standard value.

9. Keep the engine speed and engine load within the specified range. When the monitor test starts,.the "In Progress" item on the scan tool MB991502 will change from "NO" to "YES".
10. Turn the ignition switch to the "LOCK" (OFF) position, and disconnect scan tool MB991502.

Q: What is displayed on the scan tool MB991507?
"Evap Leak Mon. Completed Test Passed" : The evaporative emission system is working properly at this time. Explain to customer that an improperly tightened fuel cap can cause MIL to turn on. Return the vehicle to the customer.
"Evap Leak Mon. Completed. Test Failed and DTCs Set": A malfunction has been detected during the monitor test. Refer to Diagnostic Trouble Code Chart and diagnose any other DTCs that are set. If no other DTCs have been set, go to Step 2.
"Evap Lead Mon. discontinued. Retest again from the first" : The EVAP monitor was interrupted during the test. Turn the ignition switch to the "LOCK" (OFF) position once, and repeat the monitoring from Step 1.











STEP 2. Check the evaporative emission purge solenoid using scan tool MB991502. (Actuator test item 08).

CAUTION
To prevent damage to scan tool MB991502, always turn the ignition switch to the "LOCK" (OFF) position before connecting or disconnecting scan tool MB991502.

1. Connect scan tool MB991502 to the data link connector.
2. Disconnect hoses B and C from the evaporative emission purge solenoid side.
3. Connect the hand vacuum pump to the evaporative emission purge solenoid instead of hose C.
4. Turn the ignition switch to the "ON" position.
5. Set scan tool MB991502 to actuator test mode for item 08:
Evaporative Emission Purge Solenoid. When the evaporative emission purge solenoid is operated, apply a pressure on the hand vacuum pump and confirm that air is blown from the other side nipple.
6. Turn the ignition switch to the "LOCK" (OFF) position and disconnect scan tool MB991502.
7. Disconnect the hand vacuum pump and connect hoses B and C to the evaporative emission purge solenoid.

Q: Does the evaporative emission purge solenoid nipple blow the air?

YES: Go to Step 3.
NO: Replace the evaporative emission purge solenoid. Go to Step 26.





STEP 3. Check for leaks and clogging in the evaporator line form hose A to hose E. Use a hand vacuum pump to leakage test and clogging test on each hose from hose A to hose E.

Q: Are the hoses in good condition?

YES: Go to Step 4.
NO: Replace any damaged hose. Go to Step 26.











STEP 4. Check the evaporative emission ventilation solenoid using scan tool MB991502.

CAUTION
To prevent damage to scan tool MB991502, always turn the ignition switch to the "LOCK" (OFF) position before connecting or disconnecting scan tool MB991502.

1. Connect scan tool MB991502 to the data link connector.
2. Remove the module bracket mounting bolts and disconnect hose G from the evaporative emission ventilation solenoid.
3. Connect a hand vacuum pump to the nipple of the evaporative emission ventilation solenoid from which the hoses have been disconnected.
4. Turn the ignition switch to the "ON" position.
5. Set scan tool MB991502 to actuator test mode for item 29: Evaporative Emission Ventilation Solenoid. While the evaporative emission ventilation solenoid is energized, operate the hand vacuum pump and confirm that solenoid holds vacuum.
6. Turn the ignition switch to the "LOCK" (OFF) position. Then disconnect scan tool MB991502.
7. Disconnect the hand vacuum pump and connect hose G to the evaporative emission ventilation solenoid, and install the module bracket mounting bolts.

Q: Dose the evaporative emission ventilation solenoid hold vacuum?

YES: Go to Step 5.
NO: Replace the evaporative emission ventilation solenoid. (Refer to Evaporative Emission Canister and Fuel Tank Pressure Relief Valve). Go to Step 26.








STEP 5. Pressure test the evaporative emission system lines between hose F and P.

1. Remove the module bracket mounting bolts and disconnect hose G from the evaporative emission ventilation solenoid, and plug the hose G securely.
2. Confirm that the evaporative emission system pressure pump (Miller number 6872A) is operating properly. Perform the self-test as described in the manufacturer's instructions.
3. Connect the evaporative emission system pressure pump to the fuel filler neck.
4. Pressure test the system to determine whether any leaks are present.

NOTE: The "Pressure test" in this procedure refers to the 1/M240 Simulation Test. The eight steps of this test are described in the manufacturer's instructions for the evaporative emission system pressure pump, Miller number 6872A.

5. Connect hose G to the evaporative emission ventilation solenoid and install the module bracket mounting bolts.

Q: Is the evaporative emission system line free of leaks?

YES: Go to Step 16.
NO: Go to Step 6.





STEP 6. Pressure test the evaporative emission system lines between hose I and R

1. Remove the module bracket mounting bolts and disconnect hose I at the evaporative emission canister side, and plug the hose I securely.
2. Perform the evaporative emission system pressure test.
3. Disconnect the evaporative emission system pressure pump and reinstall the fuel cap.
4. Connect hose I and install the module bracket mounting bolts.

Q: Is the evaporative emission system line free of leaks?

YES: Go to Step 9.
NO: Go to Step 7.





STEP 7. Check for leaks in the evaporative emission system hoses F through H.

1. Remove the fuel tank. (Refer to Fuel Tank).
2. Perform a leakage test with a hand vacuum pump on each hose from hose F to hose H.

Q: Does the hoses hold vacuum?

YES: Go to Step 8.
NO: Replace any damaged hose and reinstall the fuel tank. (Refer to Fuel Tank). Go to Step 26.





STEP 8. Check for leaks in the evaporative emission canister.

1. Connect a hand vacuum pump to the vent nipple of the evaporative emission canister.
2. Plug the other two nipples or loop a hose between them.
3. Apply vacuum with the hand vacuum pump and confirm that the canister holds vacuum.

Q: Does the evaporative emission canister hold vacuum?
YES: Go to Step 26.
NO: Replace the evaporative emission canister (Refer to Evaporative Emission Canister and Fuel Tank Pressure Relief Valve) and reinstall the fuel tank. (Refer to Fuel Tank). Go to Step 26.








STEP 9. Check for leaks in the evaporative emission system lines between hose J and K.

1. Remove the fuel tank. (Refer to Fuel Tank).
2. Disconnect hose J at the liquid separator side and connect a hand vacuum pump to the hose J.
3. Disconnect hose K from the fuel tank and plug the hose K securely.
4. Apply vacuum with the hand vacuum pump and confirm that the vacuum holds.
5. Disconnect the hand vacuum pump and connect hose K to the fuel tank.

Q: Does the evaporative emission system lines hold vacuum?

YES: Go to Step 10.
NO: Replace any damaged hose and reinstall the fuel filler neck protector. (Refer to Fuel Tank). Go to Step 26.








STEP 10. Check for leaks in the evaporative emission system hoses I, L, M, N and 0.

1. Remove the fuel tank and fuel filler neck assembly. (Refer to Fuel Tank).
2. Perform a leakage test with a hand vacuum pump on each hose I, L, M, N and 0.

Q: Does the hoses hold vacuum?

YES: Go to Step 11.
NO: Replace any damaged hose, and reinstall the fuel tank and fuel filler neck assembly. (Refer to Fuel Tank). Go to Step 26.








STEP 11. Check the check valve A.

1. Check valve A is a one-way check valve.
2. Check valve A should allow air to flow in only one direction.

Q: Does check valve A allow air to press in one direction only?

YES: Go to Step 12.
NO: Replace the check valve A, and reinstall the fuel tank and fuel filler neck assembly. (Refer to Fuel Tank). Go to Step 26.








STEP 12. Check the check valve B.

1. Check valve B is a one-way check valve.
2. Check valve B should allow air to flow in only one direction.

Q: Does check valve B allow air to press in one direction only?

YES: Go to Step 13.
NO: Replace the check valve B, and reinstall the fuel tank and fuel filler neck assembly. (Refer to Fuel Tank). Go to Step 26.





STEP 13. Check for leaks in the evaporative emission system hose P.
Perform a leakage test with a hand vacuum pump on hose P.

Q: Does the hose P hold vacuum?

YES: Go to Step 14.
NO: Replace the hose P, and reinstall the fuel tank and fuel filler neck assembly. (Refer to Fuel Tank). Go to Step 26.











STEP 14. Check for leaks in the fuel tank.

1. Visually check for cracks and leaks, etc.

NOTE: Carefully check the fuel pump assembly and the differential pressure sensor installation in the fuel tank.

2. Connect an evaporative emission system pressure pump to the leveling valve nipple.
3. Plug the filler hose, feed pipe, return pipe and rollover valve nipple that are connected to the fuel tank.

NOTE: If these items are not securely plugged at this time, the fuel could leak from the tank.

4. Pressurize the fuel tank with the evaporative emission system pressure pump.
5. In the pressurized state, check for the leaks by applying soapy water solution to each section and look for bubbles.

Q: Is the fuel tank free of leaks?
There are leaks at the fuel pump module or the fuel tank differential pressure sensor section.: After reassemble the leaked parts, check for leaks again. There are leaks at the fuel tank.: Replace the fuel tank, and reinstall the fuel tank and fuel filler neck assembly. (Refer to Fuel Tank). Go to Step 26.
There are no leaks. : Go to Step 15.

STEP 15. Check for cracks in the fuel filler neck assembly. Visually check for cracks in the fuel filler neck assembly.

Q: Is the fuel filler neck assembly in good condition?

YES: Reinstall the fuel tank and fuel filler neck assembly. (Refer to Fuel Tank). Go to Step 26.
NO: Replace the fuel filler neck assembly, and reinstall the fuel tank and fuel filler neck assembly. (Refer to Fuel Tank). Go to Step 26








STEP 16. Pressure test for clogging in the evaporative emission system lines between hose I and P.

1. Remove the module bracket mounting bolts and disconnect hose I at the evaporative emission canister side, and unplug the hose I.
2. On the EVAP pressure pump, set the pressure/hold valve to OPEN, and set the vent valve to CLOSED. Turn the pump timer to ON. You can reset the timer as required. (These settings are listed under "Leak Test" in the pump instructions).
3. Air should pass through hose G.
4. Connect hose I and install the module bracket mounting bolts.

Q: Is air blown from hose I?

YES: Go to Step 17.
NO: Disconnect the evaporative emission system pressure pump and install the fuel cap. Go to Step 21.








STEP 17. Pressure test for clogging in the evaporative emission system lines between hose F and H.

1. Remove the module bracket mounting bolts and disconnect hose G from the evaporative emission ventilation solenoid, and unplug hose G.
2. On the EVAP pressure pump, set the pressure/hold valve to OPEN, and set the vent valve to CLOSED. Turn the pump timer to ON. You can reset the timer as required. (These settings are listed under "Leak Test" in the pump instructions).
3. Air should pass through hose G.
4. Disconnect the evaporative emission system pressure pump and install the fuel cap.
5. Connect hose G to the evaporative emission ventilation solenoid and install the module bracket mounting bolts.

Q: Is air blown from hose G?

YES: Go to Step 18.
NO: Go to Step l9.





STEP 18. Using scan tool MB991502, check evaporative emission system monitor test.

CAUTION
- To prevent damage to scan tool MB991502, always turn the ignition switch to the "LOCK" (OFF) position before connecting or disconnecting scan tool MB991502.
- During this test, the ECM or PCM automatically increases the engine speed to 1,600 rpm in or greater. Check that the ttransaxleis set to "neutral" or "P" position.

1. Connect scan tool MB991502 to the data link connector.
2. Turn the ignition switch to the "ON" position.
3. Erase the DTCs using scan tool MB991502. (Refer to Trouble Code Diagnosis - How to Read and Erase Diagnostic Trouble Codes).
4. Check that the fuel cap is securely closed. (Tighten until three clicks are heard).
5. Start the engine.
6. Select "System Test", and press the "YES" key.
7. Select "Evap Leak Mon", and press the "YES" key.
8. During the monitor, keep the accelerator pedal at the idling position.

NOTE: If the engine speed does not reach 2,000 rpm during the monitor test, adjust the Speed Adjusting Screw (Refer to On-vehicle Service - Basic Idle Speed Adjustment), and adjust to the standard value.

9. Keep the engine speed and engine load within the specified range. When the monitor test starts, the "In Progress" item on the scan tool MB991502 will change from "NO" to "YES".
10. Turn the ignition switch to the "LOCK" (OFF) position, and disconnect scan tool MB991502.

Q: What is displayed on the scan tool MB991507?
"Evap Leak Mon. Completed. Test Passed" : The evaporative emission system is working properly at this time. Go to Step 26
"Evap Leak Mon. Completed. Test Failed and DTCs Set" : Replace the ECM or PCM . Go to Step 26.
"Evap Lead Mon. discontinued. Retest again from the first" : The monitor test was interrupted. Turn the ignition switch to the "LOCK" (OFF) position once and repeat evaporative emission system monitor test.





STEP 19. Check for clogging in the evaporative emission system hoses F through H.

1. Remove the fuel tank. (Refer to Fuel Tank).
2. Use a hand vacuum pump to glogging test on each hose from hose F to hose H.

Q: Are the hoses good condition?

YES: Go to Step 20.
NO; Replace any damaged hose and reinstall the fuel tank. (Refer to Fuel Tank). Go to Step 26.





STEP 20. Check for clogging in the evaporative emission canister.

1. Connect a hand vacuum pump to the vent nipple of the evaporative emission canister.
2. Plug the other two nipples or loop a hose between the other nipples.
3. Apply a pressure on the vacuum pump.
4. When each nipple is unplugged, air should pass through the unplugged nipple.

Q: Is the evaporative emission canister in good condition?

YES: Reinstall the fuel tank. (Refer to Fuel Tank). Go to Step 26.
NO: Replace the evaporative emission canister (Refer to Evaporative Emission Canister and Fuel Tank Pressure Relief Valve), and reinstall the fuel tank. (Refer to Fuel Tank). Go to Step 26.








STEP 21. Check for clogging in the evaporative emission system lines between hose J and K.

1. Remove the fuel tank. (Refer to Fuel Tank).
2. Disconnect hose J at the liquid separator side and connect a hand vacuum pump to the hose J.
3. Disconnect hose K from the fuel tank and unplug the hose K.
4. Apply a pressure on the vacuum pump, air should pass through the hose K.
5. Disconnect the hand vacuum pump and connect hose K to the fuel tank.

Q: Does the air should pass through the hose K?

YES: Go to Step 22.
NO: Replace any damaged hose and reinstall the fuel tank. (Refer to Fuel Tank). Go to Step 26.








STEP 22. Check for clogging in the evaporative emission system hoses I, L, M, N and O.

1. Remove the filler neck assembly. (Refer to Fuel Tank).
2. Use a hand vacuum pump to glogging test on each hoses I, L, M, N and O.

Q: Are the hoses in good condition?

YES: Go to Step 23.
NO: Replace any damaged hose, and reinstall the fuel tank and fuel filler neck assembly. (Refer to Fuel Tank). Go to Step 26.








STEP 23. Check the check valve A.

1. Check valve A is a one-way check valve.
2. Check valve A should allow air to flow in only one direction.

Q: Does check valve A allow air to press in one direction only?

YES:Go to Step 24.
NO: Replace check valve A, and reinstall the fuel tank and fuel filler neck assembly. (Refer to Fuel Tank). Go to Step 26.








STEP 24. Check the check valve B.

1. Check valve B is a one-way check valve.
2. Check valve B should allow air to flow in only one direction.

Q: Does check valve B allow air to press in one direction only?

YES: Go to Step 25.
NO: Replace the check valve B, and reinstall the fuel tank and fuel filler neck assembly. (Refer to Fuel Tank). Go to Step 26.





STEP 25. Check for clogging in the evaporative emission system hose P.
Use a hand vacuum pump to clogging test on hose P

Q: Is the hose P in good condition?

YES: Go to Step 26.
NO: Replace the hose P, and reinstall the fuel tank and fuel filler neck assembly. (Refer to Fuel Tank). Go to Step 26.

STEP 26. Perform the OBD-II drive cycle.

1. Confirm the repair by performing the appropriate drive cycle. [Refer to Trouble Code Diagnosis - OBD-III Drive Cycle (Procedure 1: Evaporative Emission Control system Leak Monitor).
2. Read the DTC.

Q: Is DTC P0455 set?

YES: Repeat the troubleshooting procedure. Go to Step 1.
NO: This procedure is complete.
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