MONITOR STRATEGY
| Related DTCs | P2237: Air fuel ratio sensor (Bank 1) open circuit between A1A+ and A1A- P2238: Air fuel ratio sensor (Bank 1) short circuit between A1A+ and A1A- P2238: Air fuel ratio sensor (Bank 1) short circuit between A1A+ and GND P2238: Air fuel ratio sensor (Bank 1) low admittance P2239: Air fuel ratio sensor (Bank 1) short circuit between A1A+ and +B P2240: Air fuel ratio sensor (Bank 2) open circuit between A2A+ and A2A- P2241: Air fuel ratio sensor (Bank 2) short circuit between A2A+ and A2A- P2241: Air fuel ratio sensor (Bank 2) short circuit between A2A+ and GND P2241: Air fuel ratio sensor (Bank 2) low admittance P2242: Air fuel ratio sensor (Bank 2) short circuit between A2A+ and +B P2252: Air fuel ratio sensor (Bank 1) short circuit between A1A- and GND P2253: Air fuel ratio sensor (Bank 1) short circuit between A1A- and +B P2255: Air fuel ratio sensor (Bank 2) short circuit between A2A- and GND P2256: Air fuel ratio sensor (Bank 2) short circuit between A2A- and +B |
|---|---|
| Required Sensors / Components (Main) | Air fuel ratio sensor |
| Required Sensors / Components (Related) | Engine coolant temperature sensor, crankshaft position sensor |
| Frequency of Operation | Continuous |
| Duration | P2237 and P2240: 10 seconds P2238 and P2241 (air fuel ratio sensor low admittance): 10 seconds Others: 5 seconds |
| MIL Operation | 2 driving cycles |
| Sequence of Operation | None |
TYPICAL ENABLING CONDITIONS
| Monitor runs whenever following DTCs are not present | P0016, P0018 (VVT system bank 1, 2 - misalignment) P0017, P0019 (Exhaust VVT system bank 1, 2 - misalignment) P0031, P0032, P0051, P0052 (Air fuel ratio sensor heater) P0102, P0103 (Mass air flow meter) P0112, P0113 (Intake air temperature sensor) P0115, P0117, P0118 (Engine coolant temperature sensor) P0120, P0121, P0122, P0123, P0220, P0222, P0223, P2135 (Throttle position sensor) P0125 (Insufficient engine coolant temperature for closed loop) P0128 (Thermostat) P0171, P0172, P0174, P0175 (Fuel system) P0301, P0302, P0303, P0304, P0305, P0306 (Misfire) P0335 (Crankshaft position sensor) P0451, P0452, P0453 (Evaporative emission control system) P0500 (Vehicle speed sensor) P0505 (Idle speed control) |
| Estimated sensor temperature | 450 to 550°C (842 to 1022°F) |
|---|---|
| Engine | Running |
| Battery voltage | 11 V or more |
P2237 AND P2240 (AIR FUEL RATIO SENSOR OPEN CIRCUIT BETWEEN A1A+ AND A1A-/A2A+ AND A2A-)
| Estimated sensor temperature | 700 to 800°C (1292 to 1472°F) |
|---|---|
| Engine coolant temperature | 5°C (41°F) or more (varies with engine coolant temperature at engine start) |
| Fuel cut | Not executed |
P2238 AND P2241 (LOW ADMITTANCE)
| Battery voltage | 11 V or more |
|---|---|
| Engine switch | On (IG) |
| Time after engine switch is off to on (IG) | 5 seconds or more |
OTHERS
TYPICAL MALFUNCTION THRESHOLDS
| Air fuel ratio sensor admittance | Less than 0.002 1/ohms |
P2237 AND P2240 (OPEN CIRCUIT BETWEEN A1A+ AND A1A-/A2A+ AND A2A-)
| Air fuel ratio sensor admittance | Less than 0.015 1/ohms |
P2238 AND P2241 (LOW ADMITTANCE)
| A1A+/A2A+ terminal voltage | 0.5 V or less |
P2238 AND P2241 (SHORT CIRCUIT BETWEEN A1A+ AND GND/A2A+ AND GND)
| Difference between A1A+ and A1A-/A2A+ and A2A- terminal voltage | 0.1 V or less |
P2238 AND P2241 (SHORT CIRCUIT BETWEEN A1A+ AND A1A-/A2A+ AND A2A-)
| A1A+/A2A+ terminal voltage | More than 4.5 V |
P2239 AND P2242 (SHORT CIRCUIT BETWEEN A1A+ AND +B/A2A+ AND +B)
| A1A-/A2A- terminal voltage | 0.5 V or less |
P2252 AND P2255 (SHORT CIRCUIT BETWEEN A1A- AND GND/A2A- AND GND)
| A1A-/A2A- terminal voltage | More than 4.5 V |
P2253 AND P2256 (SHORT CIRCUIT BETWEEN A1A- AND +B/A2A- AND +B)
COMPONENT OPERATING RANGE
| Air fuel ratio sensor admittance | 0.015 1/ohms or higher |
|---|---|
| A1A+/A2A+ terminal voltage | 0.5 to 4.5 V |
| A1A-/A2A- terminal voltage | 0.5 to 4.5 V |
| Difference between A1A+/A2A+ and A1A-/A2A- terminal voltages | 0.1 to 0.8 V |
Scheme 130
- Connect the Techstream to the DLC3.
- Turn the engine switch on (IG) and turn the Techstream on.
- Clear the DTCs (even if no DTCs are stored, perform the clear DTC procedure). Refer to «DTC CHECK / CLEAR»(ref-400784-S02158227972011051800000) .
- Turn the engine switch off.
- Turn the engine switch on (IG) and turn the Techstream on [A].
- Start the engine and wait 2 minutes.
- Enter the following menus: Powertrain / Engine / Utility / All Readiness.
- Input the DTC: P2237, P2238, P2239, P2240, P2241, P2242, P2252, P2253, P2255 or P2256.
- Check the DTC judgment result [B]. Techstream Display Description NORMAL DTC judgment completed System normal ABNORMAL DTC judgment completed System abnormal INCOMPLETE DTC judgment not completed Perform driving pattern after confirming DTC enabling conditions UNKNOWN Unable to perform DTC judgment Number of DTCs which do not fulfill DTC preconditions has reached ECU memory limit HINT: If the judgment result shows ABNORMAL, the system has a malfunction. If the judgment result shows INCOMPLETE or UNKNOWN, idle the engine for 3 minutes and check the DTC judgment result again [C].
- If the test result is UNKNOWN, enter the following menus: Powertrain / Engine / Trouble Codes / Pending.
- Read Pending DTCs. HINT: If a pending DTC is output, the system is malfunctioning.
- If the test result is INCOMPLETE or UNKNOWN and no pending DTC is output, perform a universal trip and check for permanent DTCs. Refer to «DTC CHECK / CLEAR»(ref-400784-S02158227972011051800000) . HINT: If a permanent DTC is output, the system is malfunctioning. If no permanent DTC is output, the system is normal.
| Related DTC | P2420: Vent valve stuck open |
|---|---|
| Required Sensors/Components | Purge VSV and canister pump module |
| Frequency of Operation | Once per driving cycle |
| Duration | Within 2 minutes (varies with amount of fuel in tank) |
| MIL Operation | 2 driving cycles |
| Sequence of Operation | None |
| Monitor runs whenever following DTCs are not present | None |
|---|---|
| Atmospheric pressure | 70 to 110 kPa (525 to 825 mmHg) |
| Battery voltage | 10.5 V or more |
| Vehicle speed | Below 2.5 mph (4 km/h) |
| Engine switch | OFF |
| Time after key off | 5, 7 or 9.5 hours |
| Canister pressure sensor malfunction (P0452 and P0453) | Not detected |
| Purge VSV | Not operated by scan tool |
| Vent valve | Not operated by scan tool |
| Leak detection pump | Not operated by scan tool |
| Both of the following conditions are met before key off | Conditions 1 and 2 |
| 1. Duration that vehicle driven | 5 minutes or more |
| 2. EVAP purge operation | Performed |
| Engine coolant temperature | 4.4 to 35°C (40 to 95°F) |
| Intake air temperature | 4.4 to 35°C (40 to 95°F) |
| EVAP pressure change after vent valve on | Less than 0.3 kPa (2.25 mmHg) |
MONITOR RESULT
Refer to Checking Monitor Status. Refer to CHECKING MONITOR STATUS .
Scheme 131
Note. The Evaporative System Check (Automatic Mode) consists of 5 steps performed automatically by the Techstream. It takes a maximum of approximately 18 minutes. Do not perform the Evaporative System Check when the fuel tank is more than 90% full because the cut-off valve may be closed, making the fuel tank leak check unavailable. Do not run the engine during this operation. When the temperature of the fuel is 35°C (95°F) or higher, a large amount of vapor forms and any check results become inaccurate. When performing the Evaporative System Check, keep the fuel temperature below 35°C (95°F).
- Connect the Techstream to the DLC3.
- Turn the engine switch on (IG) and turn the Techstream on.
- Clear the DTCs (even if no DTCs are stored, perform the clear DTC procedure). Refer to «DTC CHECK / CLEAR»(ref-400784-S05337578742011051800000) .
- Turn the engine switch off.
- Turn the engine switch on (IG) and turn the Techstream on.
- Enter the following menus: Powertrain / Engine / Utility / Evaporative System Check / Automatic Mode [A].
- After the "Evaporative System Check" is completed, check for All Readiness by entering the following menus: Powertrain / Engine / Utility / All Readiness.
- Input the DTC: P2420.
- Check the DTC judgment result [B]. Techstream Display Description NORMAL DTC judgment completed System normal ABNORMAL DTC judgment completed System abnormal INCOMPLETE DTC judgment not completed Perform driving pattern after confirming DTC enabling conditions UNKNOWN Unable to perform DTC judgment Number of DTCs which do not fulfill DTC preconditions has reached ECU memory limit HINT: If the judgment result shows ABNORMAL, the system has a malfunction.
- If the test result is UNKNOWN, enter the following menus: Powertrain / Engine / Trouble Codes / Pending.
- Read Pending DTCs. HINT: If a pending DTC is output, the system is malfunctioning.
- If the test result is INCOMPLETE or UNKNOWN and no pending DTC is output, perform a universal trip and check for permanent DTCs. Refer to «DTC CHECK / CLEAR»(ref-400784-S05337578742011051800000) . HINT: If a permanent DTC is output, the system is malfunctioning. If no permanent DTC is output, the system is normal.
| Related DTC | P2420: Vent valve stuck open |
|---|---|
| Required Sensors/Components | Purge VSV and canister pump module |
| Frequency of Operation | Once per driving cycle |
| Duration | Within 2 minutes (varies with amount of fuel in tank) |
| MIL Operation | 2 driving cycles |
| Sequence of Operation | None |
| Monitor runs whenever following DTCs are not present | None |
|---|---|
| Atmospheric pressure | 70 to 110 kPa (525 to 825 mmHg) |
| Battery voltage | 10.5 V or more |
| Vehicle speed | Below 2.5 mph (4 km/h) |
| Engine switch | OFF |
| Time after key off | 5, 7 or 9.5 hours |
| Canister pressure sensor malfunction (P0452 and P0453) | Not detected |
| Purge VSV | Not operated by scan tool |
| Vent valve | Not operated by scan tool |
| Leak detection pump | Not operated by scan tool |
| Both of the following conditions are met before key off | Conditions 1 and 2 |
| 1. Duration that vehicle driven | 5 minutes or more |
| 2. EVAP purge operation | Performed |
| Engine coolant temperature | 4.4 to 35°C (40 to 95°F) |
| Intake air temperature | 4.4 to 35°C (40 to 95°F) |
| EVAP pressure change after vent valve on | Less than 0.3 kPa (2.25 mmHg) |
Refer to Checking Monitor Status. Refer to CHECKING MONITOR STATUS .
CONFIRMATION DRIVING PATTERN
Note. The Evaporative System Check (Automatic Mode) consists of 5 steps performed automatically by the Techstream. It takes a maximum of approximately 18 minutes. Do not perform the Evaporative System Check when the fuel tank is more than 90% full because the cut-off valve may be closed, making the fuel tank leak check unavailable. Do not run the engine during this operation. When the temperature of the fuel is 35°C (95°F) or higher, a large amount of vapor forms and any check results become inaccurate. When performing the Evaporative System Check, keep the fuel temperature below 35°C (95°F).
- Connect the Techstream to the DLC3.
- Turn the engine switch on (IG) and turn the Techstream on.
- Clear the DTCs (even if no DTCs are stored, perform the clear DTC procedure). Refer to «DTC CHECK / CLEAR»(ref-400784-S02158227972011051800000) .
- Turn the engine switch off.
- Turn the engine switch on (IG) and turn the Techstream on.
- Enter the following menus: Powertrain / Engine / Utility / Evaporative System Check / Automatic Mode [A].
- After the "Evaporative System Check" is completed, check for All Readiness by entering the following menus: Powertrain / Engine / Utility / All Readiness.
- Input the DTC: P2420.
- Check the DTC judgment result [B]. Techstream Display Description NORMAL DTC judgment completed System normal ABNORMAL DTC judgment completed System abnormal INCOMPLETE DTC judgment not completed Perform driving pattern after confirming DTC enabling conditions UNKNOWN Unable to perform DTC judgment Number of DTCs which do not fulfill DTC preconditions has reached ECU memory limit HINT: If the judgment result shows ABNORMAL, the system has a malfunction.
- If the test result is UNKNOWN, enter the following menus: Powertrain / Engine / Trouble Codes / Pending.
- Read Pending DTCs. HINT: If a pending DTC is output, the system is malfunctioning.
- If the test result is INCOMPLETE or UNKNOWN and no pending DTC is output, perform a universal trip and check for permanent DTCs. Refer to «DTC CHECK / CLEAR»(ref-400784-S02158227972011051800000) . HINT: If a permanent DTC is output, the system is malfunctioning. If no permanent DTC is output, the system is normal.
| Related DTC | P2610: ECM internal engine off timer performance |
|---|---|
| Required Sensors / Components | ECM |
| Frequency of Operation | Once per driving cycle |
| Duration | 10 minutes |
| MIL Operation | 2 driving cycles |
| Sequence of Operation | None |
| Monitor runs whenever following DTCs are not present | None |
ALL
| Engine switch | On (IG) |
|---|---|
| Engine | Running |
| Battery voltage | 8 V or more |
| CPU clock elapsed time | 10 minutes or more |
CASE 1
| Internal engine OFF timer (elapsed time from engine stop) | 10 minutes or more |
|---|---|
| Battery voltage | 8 V or more |
| Engine switch | On (IG) |
CASE 2
| Internal engine OFF timer (elapsed time from engine stop) | 10 minutes or more |
|---|---|
| Battery voltage | 8 V or more |
| Engine switch | On (IG) |
CASE 3
| Internal engine OFF timer (elapsed time from engine start) | Less than 7 minutes, or more than 13 minutes |
CASE 1
| ECM had the started record by internal engine OFF timer | Yes |
CASE 2
| ECM had the started record by internal engine OFF timer | No |
CASE 3
Scheme 132
- Connect the Techstream to the DLC3.
- Turn the engine switch on (IG) and turn the Techstream on.
- Clear the DTCs (even if no DTCs are stored, perform the clear DTC procedure). Refer to «DTC CHECK / CLEAR»(ref-400784-S05337578742011051800000) .
- Turn the engine switch off.
- Turn the engine switch on (IG) and turn the Techstream on [A].
- Start the engine.
- Idle the engine for 10 minutes or more.
- Enter the following menus: Powertrain / Engine / Utility / All Readiness.
- Input the DTC: P2610.
- Check the DTC judgment result [B]. Techstream Display Description NORMAL DTC judgment completed System normal ABNORMAL DTC judgment completed System abnormal INCOMPLETE DTC judgment not completed Perform driving pattern after confirming DTC enabling conditions UNKNOWN Unable to perform DTC judgment Number of DTCs which do not fulfill DTC preconditions has reached ECU memory limit HINT: If the judgment result shows ABNORMAL, the system has a malfunction.
- If the test result is UNKNOWN, enter the following menus: Powertrain / Engine / Trouble Codes / Pending.
- Read Pending DTCs. HINT: If a pending DTC is output, the system is malfunctioning.
- If the test result is INCOMPLETE or UNKNOWN and no pending DTC is output, perform a universal trip and check for permanent DTCs. Refer to «DTC CHECK / CLEAR»(ref-400784-S05337578742011051800000) . HINT: If a permanent DTC is output, the system is malfunctioning. If no permanent DTC is output, the system is normal.
PROCEDURE
- REPLACE ECM Replace the ECM. Refer to «REMOVAL»(ref-400788-S26250166532011051800000) . NEXT: Go to next step
- CHECK WHETHER DTC OUTPUT RECURS Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Clear the DTCs. Refer to «DTC CHECK / CLEAR»(ref-400784-S05337578742011051800000) . Start the engine and wait for 10 minutes or more. Enter the following menus: Powertrain / Engine / Trouble Codes / Pending. If no pending DTC is displayed, the repair has been successfully completed. NEXT --> END
| Related DTC | P2610: ECM internal engine off timer performance |
|---|---|
| Required Sensors / Components | ECM |
| Frequency of Operation | Once per driving cycle |
| Duration | 10 minutes |
| MIL Operation | 2 driving cycles |
| Sequence of Operation | None |
| Monitor runs whenever following DTCs are not present | None |
ALL
| Engine switch | On (IG) |
|---|---|
| Engine | Running |
| Battery voltage | 8 V or more |
| CPU clock elapsed time | 10 minutes or more |
CASE 1
| Internal engine OFF timer (elapsed time from engine stop) | 10 minutes or more |
|---|---|
| Battery voltage | 8 V or more |
| Engine switch | On (IG) |
CASE 2
| Internal engine OFF timer (elapsed time from engine stop) | 10 minutes or more |
|---|---|
| Battery voltage | 8 V or more |
| Engine switch | On (IG) |
CASE 3
| Internal engine OFF timer (elapsed time from engine start) | Less than 7 minutes, or more than 13 minutes |
CASE 1
| ECM had the started record by internal engine OFF timer | Yes |
CASE 2
| ECM had the started record by internal engine OFF timer | No |
CASE 3
- Connect the Techstream to the DLC3.
- Turn the engine switch on (IG) and turn the Techstream on.
- Clear the DTCs (even if no DTCs are stored, perform the clear DTC procedure). Refer to «DTC CHECK / CLEAR»(ref-400784-S02158227972011051800000) .
- Turn the engine switch off.
- Turn the engine switch on (IG) and turn the Techstream on [A].
- Start the engine.
- Idle the engine for 10 minutes or more.
- Enter the following menus: Powertrain / Engine / Utility / All Readiness.
- Input the DTC: P2610.
- Check the DTC judgment result [B]. Techstream Display Description NORMAL DTC judgment completed System normal ABNORMAL DTC judgment completed System abnormal INCOMPLETE DTC judgment not completed Perform driving pattern after confirming DTC enabling conditions UNKNOWN Unable to perform DTC judgment Number of DTCs which do not fulfill DTC preconditions has reached ECU memory limit HINT: If the judgment result shows ABNORMAL, the system has a malfunction.
- If the test result is UNKNOWN, enter the following menus: Powertrain / Engine / Trouble Codes / Pending.
- Read Pending DTCs. HINT: If a pending DTC is output, the system is malfunctioning.
- If the test result is INCOMPLETE or UNKNOWN and no pending DTC is output, perform a universal trip and check for permanent DTCs. Refer to «DTC CHECK / CLEAR»(ref-400784-S02158227972011051800000) . HINT: If a permanent DTC is output, the system is malfunctioning. If no permanent DTC is output, the system is normal.
- REPLACE ECM Replace the ECM. Refer to «REMOVAL»(ref-400788-S10545316742011051800000) . NEXT: Go to next step
- CHECK WHETHER DTC OUTPUT RECURS Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Clear the DTCs. Refer to «DTC CHECK / CLEAR»(ref-400784-S02158227972011051800000) . Start the engine and wait for 10 minutes or more. Enter the following menus: Powertrain / Engine / Trouble Codes / Pending. If no pending DTC is displayed, the repair has been successfully completed. NEXT --> END
| Related DTCs | P2A00: Air fuel ratio sensor (Bank 1) slow response P2A03: Air fuel ratio sensor (Bank 2) slow response |
|---|---|
| Required Sensors / Components (Main) | Air fuel ratio sensor |
| Required Sensors / Components (Related) | Vehicle speed sensor, crankshaft position sensor |
| Frequency of Operation | Once per driving cycle |
| Duration | 10 to 15 seconds |
| MIL Operation | 2 driving cycles |
| Sequence of Operation | None |
| Monitor runs whenever following DTCs are not present | P0016, P0018 (VVT system bank 1, 2 - misalignment) P0017, P0019 (Exhaust VVT system bank 1, 2 - misalignment) P0031, P0032, P0051, P0052 (Air fuel ratio sensor heater) P0102, P0103 (Mass air flow meter) P0112, P0113 (Intake air temperature sensor) P0115, P0117, P0118 (Engine coolant temperature sensor) P0120, P0121, P0122, P0123, P0220, P0222, P0223, P2135 (Throttle position sensor) P0125 (Insufficient engine coolant temperature for closed loop) P0128 (Thermostat) P0171, P0172, P0174, P0175 (Fuel system) P0301, P0302, P0303, P0304, P0305, P0306 (Misfire) P0335 (Crankshaft position sensor) P0451, P0452, P0453 (Evaporative emission control system) P0500 (Vehicle speed sensor) P0505 (Idle speed control) |
|---|---|
| Active air fuel ratio control | Performing |
| Active air fuel ratio control is performed when the following conditions are met | |
| Battery voltage | 11 V or more |
| Engine coolant temperature | 75°C (167°F) or more |
| Idle | OFF |
| Engine speed | Less than 4000 rpm |
| Air fuel ratio sensor status | Activated |
| Fuel cut | OFF |
| Engine load | 10 to 70% |
| Shift position | 2 or more |
| Catalyst monitor | Not yet |
| Mass air flow rate | 2.5 to 15 g/sec. |
| Response rate deterioration level | Less than 0.18 V |
Refer to Checking Monitor Status. Refer to CHECKING MONITOR STATUS .
HINT
Performing this confirmation pattern will activate the air fuel ratio sensor response monitor.
Scheme 133
- Connect the Techstream to the DLC3.
- Turn the engine switch on (IG).
- Turn the Techstream on.
- Clear the DTCs (even if no DTCs are stored, perform the clear DTC procedure). Refer to «DTC CHECK / CLEAR»(ref-400784-S05337578742011051800000) .
- Turn the engine switch off.
- Turn the engine switch on (IG) and turn the Techstream on [A].
- Enter the following menus: Powertrain / Engine / Monitor / O2 Sensor / Details.
- Check that RES RATE B1S1 and RES RATE B2S1 are Fail.
- Start the engine and warm it up (until the engine coolant temperature is 75°C (167°F) or more) [B].
- Drive the vehicle at a constant speed of between 47 and 62 mph (75 and 100 km/h) for 10 minutes [C].
- Check the monitor result values on the Techstream by entering the following menus: Powertrain / Engine / Monitor / O2 Sensor / Details / RES RATE B1S1 and RES RATE B2S1.
- If the values indicated on the Techstream do not change, perform Readiness Monitor Drive Pattern for the air fuel ratio sensor and heated oxygen sensor. Refer to «READINESS MONITOR DRIVE PATTERN»(ref-400784-S18937034102011051800000) .
- Note the value of the RES RATE B1S1 and RES RATE B2S1.
- Enter the following menus: Powertrain / Engine / Utility / All Readiness.
- Input the DTC: P2A00 or P2A03.
- Check the DTC judgment result [D]. Techstream Display Description NORMAL DTC judgment completed System normal ABNORMAL DTC judgment completed System abnormal INCOMPLETE DTC judgment not completed Perform driving pattern after confirming DTC enabling conditions UNKNOWN Unable to perform DTC judgment Number of DTCs which do not fulfill DTC preconditions has reached ECU memory limit HINT: If the judgment result shows ABNORMAL, the system has a malfunction.
- If the test result is UNKNOWN, enter the following menus: Powertrain / Engine / Trouble Codes / Pending.
- Read Pending DTCs. HINT: If a pending DTC is output, the system is malfunctioning.
- If the test result is INCOMPLETE or UNKNOWN and no pending DTC is output, perform a universal trip and check for permanent DTCs. Refer to «DTC CHECK / CLEAR»(ref-400784-S05337578742011051800000) . HINT: If a permanent DTC is output, the system is malfunctioning. If no permanent DTC is output, the system is normal.
| Related DTCs | P2A00: Air fuel ratio sensor (Bank 1) slow response P2A03: Air fuel ratio sensor (Bank 2) slow response |
|---|---|
| Required Sensors / Components (Main) | Air fuel ratio sensor |
| Required Sensors / Components (Related) | Vehicle speed sensor, crankshaft position sensor |
| Frequency of Operation | Once per driving cycle |
| Duration | 10 to 15 seconds |
| MIL Operation | 2 driving cycles |
| Sequence of Operation | None |
| Monitor runs whenever following DTCs are not present | P0016, P0018 (VVT system bank 1, 2 - misalignment) P0017, P0019 (Exhaust VVT system bank 1, 2 - misalignment) P0031, P0032, P0051, P0052 (Air fuel ratio sensor heater) P0102, P0103 (Mass air flow meter) P0112, P0113 (Intake air temperature sensor) P0115, P0117, P0118 (Engine coolant temperature sensor) P0120, P0121, P0122, P0123, P0220, P0222, P0223, P2135 (Throttle position sensor) P0125 (Insufficient engine coolant temperature for closed loop) P0128 (Thermostat) P0171, P0172, P0174, P0175 (Fuel system) P0301, P0302, P0303, P0304, P0305, P0306 (Misfire) P0335 (Crankshaft position sensor) P0451, P0452, P0453 (Evaporative emission control system) P0500 (Vehicle speed sensor) P0505 (Idle speed control) |
|---|---|
| Active air fuel ratio control | Performing |
| Active air fuel ratio control is performed when the following conditions are met | |
| Battery voltage | 11 V or more |
| Engine coolant temperature | 75°C (167°F) or more |
| Idle | OFF |
| Engine speed | Less than 4000 rpm |
| Air fuel ratio sensor status | Activated |
| Fuel cut | OFF |
| Engine load | 10 to 70% |
| Shift position | 2 or more |
| Catalyst monitor | Not yet |
| Mass air flow rate | 2.5 to 15 g/sec. |
| Response rate deterioration level | Less than 0.18 V |
Refer to Checking Monitor Status. Refer to CHECKING MONITOR STATUS .
HINT
Performing this confirmation pattern will activate the air fuel ratio sensor response monitor.
- Connect the Techstream to the DLC3.
- Turn the engine switch on (IG).
- Turn the Techstream on.
- Clear the DTCs (even if no DTCs are stored, perform the clear DTC procedure). Refer to «DTC CHECK / CLEAR»(ref-400784-S02158227972011051800000) .
- Turn the engine switch off.
- Turn the engine switch on (IG) and turn the Techstream on [A].
- Enter the following menus: Powertrain / Engine / Monitor / O2 Sensor / Details.
- Check that RES RATE B1S1 and RES RATE B2S1 are Fail.
- Start the engine and warm it up (until the engine coolant temperature is 75°C (167°F) or more) [B].
- Drive the vehicle at a constant speed of between 47 and 62 mph (75 and 100 km/h) for 10 minutes [C].
- Check the monitor result values on the Techstream by entering the following menus: Powertrain / Engine / Monitor / O2 Sensor / Details / RES RATE B1S1 and RES RATE B2S1.
- If the values indicated on the Techstream do not change, perform Readiness Monitor Drive Pattern for the air fuel ratio sensor and heated oxygen sensor. Refer to «READINESS MONITOR DRIVE PATTERN»(ref-400784-S29717564332011051800000) .
- Note the value of the RES RATE B1S1 and RES RATE B2S1.
- Enter the following menus: Powertrain / Engine / Utility / All Readiness.
- Input the DTC: P2A00 or P2A03.
- Check the DTC judgment result [D]. Techstream Display Description NORMAL DTC judgment completed System normal ABNORMAL DTC judgment completed System abnormal INCOMPLETE DTC judgment not completed Perform driving pattern after confirming DTC enabling conditions UNKNOWN Unable to perform DTC judgment Number of DTCs which do not fulfill DTC preconditions has reached ECU memory limit HINT: If the judgment result shows ABNORMAL, the system has a malfunction.
- If the test result is UNKNOWN, enter the following menus: Powertrain / Engine / Trouble Codes / Pending.
- Read Pending DTCs. HINT: If a pending DTC is output, the system is malfunctioning.
- If the test result is INCOMPLETE or UNKNOWN and no pending DTC is output, perform a universal trip and check for permanent DTCs. Refer to «DTC CHECK / CLEAR»(ref-400784-S02158227972011051800000) . HINT: If a permanent DTC is output, the system is malfunctioning. If no permanent DTC is output, the system is normal.
- CHECK ANY OTHER DTCS OUTPUT (IN ADDITION TO DTC P2A00 AND/OR P2A03) Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Enter the following menus: Powertrain / Engine / Trouble Codes. Read the DTCs. Result Result Proceed to DTC P2A00 and/or P2A03 are output A DTC P2A00 and/or P2A03 and other DTCs are output B HINT: If any DTCs other than P2A00 and/or P2A03 are output, troubleshoot those DTCs first. B --> See step 7 A: Go to next step
- INSPECT AIR FUEL RATIO SENSOR (HEATER RESISTANCE) Disconnect the air fuel ratio sensor connector. Measure the resistance according to the value(s) in the table below. Standard Resistance Tester Connection Condition Specified Condition 1 (HA1A) - 2 (+B) 20°C (68°F) 1.8 to 3.4 ohms 1 (HA1A) - 4 (A1A-) Always 10 kohms or higher 1 (HA2A) - 2 (+B) 20°C (68°F) 1.8 to 3.4 ohms 1 (HA2A) - 4 (A2A-) Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Component without harness connected (Air Fuel Ratio Sensor) *2 Bank 1 *3 Bank 2 Reconnect the air fuel ratio sensor connector. NG --> See step 8 OK: Go to next step
- CHECK HARNESS AND CONNECTOR (AIR FUEL RATIO SENSOR - ECM) Disconnect the air fuel ratio sensor connector. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition D20-1 (HA1A) - D1-22 (HA1A) Always Below 1 ohms D20-3 (A1A+) - D1-126 (A1A+) Always Below 1 ohms D20-4 (A1A-) - D1-125 (A1A-) Always Below 1 ohms D19-1 (HA2A) - D1-20 (HA2A) Always Below 1 ohms D19-3 (A2A+) - D1-103 (A2A+) Always Below 1 ohms D19-4 (A2A-) - D1-102 (A2A-) Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition D20-1 (HA1A) or D1-22 (HA1A) - Body ground Always 10 kohms or higher D20-3 (A1A+) or D1-126 (A1A+) - Body ground Always 10 kohms or higher D20-4 (A1A-) or D1-125 (A1A-) - Body ground Always 10 kohms or higher D19-1 (HA2A) or D1-20 (HA2A) - Body ground Always 10 kohms or higher D19-3 (A2A+) or D1-103 (A2A+) - Body ground Always 10 kohms or higher D19-4 (A2A-) or D1-102 (A2A-) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Air Fuel Ratio Sensor) *2 Front view of wire harness connector (to ECM) *3 Bank 1 *4 Bank 2 Reconnect the ECM connector. Reconnect the air fuel ratio sensor connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (AIR FUEL RATIO SENSOR - ECM) OK: Go to next step
- PERFORM CONFIRMATION DRIVING PATTERN Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Clear the DTCs. Refer to «DTC CHECK / CLEAR»(ref-400784-S02158227972011051800000) . Turn the engine switch off. Turn the engine switch on (IG) and turn the Techstream on. Start the engine and warm it up. Drive the vehicle in accordance with the driving pattern described in the Confirmation Driving Pattern. Enter the following menus: Powertrain / Engine / Utility / All Readiness. Input the DTC: P2A00 or P2A03. Check the DTC judgment result. Result Result Proceed to NORMAL (DTC is not output) A ABNORMAL (DTC P2A00 or P2A03 is output) B B --> See step 5 A --> See step 9
- REPLACE AIR FUEL RATIO SENSOR Replace the air fuel ratio sensor. Refer to «REMOVAL»(ref-400788-S35731488742011051800000) . NEXT: Go to next step
- PERFORM CONFIRMATION DRIVING PATTERN Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Clear the DTCs. Refer to «DTC CHECK / CLEAR»(ref-400784-S02158227972011051800000) . Turn the engine switch off. Turn the engine switch on (IG) and turn the Techstream on. Start the engine and warm it up. Drive the vehicle in accordance with the driving pattern described in the Confirmation Driving Pattern. Enter the following menus: Powertrain / Engine / Utility / All Readiness. Input the DTC: P2A00 or P2A03. Check the DTC judgment result. Result Result Proceed to NORMAL (DTC is not output) A ABNORMAL (DTC P2A00 or P2A03 is output) B B --> See step 10 A --> END
- GO TO DTC CHART. Refer to «DIAGNOSTIC TROUBLE CODE CHART»(ref-400784-S30709964352011051800000)
- REPLACE AIR FUEL RATIO SENSOR. Refer to «REMOVAL»(ref-400788-S35731488742011051800000)
- CHECK FOR INTERMITTENT PROBLEMS. Refer to «CHECK FOR INTERMITTENT PROBLEMS»(ref-400784-S22487773382011051800000)
- REPLACE ECM. Refer to «REMOVAL»(ref-400788-S10545316742011051800000)
| Related DTCs | U0101: Verify communication |
|---|---|
| Required Sensors/Components (Main) | ECM |
| Required Sensors/Components (Related) | |
| Frequency of Operation | Continuous |
| Duration | 1.25 seconds |
| MIL Operation | Immediately |
| Sequence of Operation | None |
| Monitor runs whenever following DTCs are not present | None |
|---|---|
| Battery voltage | 10.5 V or more (More than 1 second) |
| Engine switch | On (IG) |
| Starter | OFF |
| Communication signal | Lost communication with TCM |
Scheme 134
- Connect the Techstream to the DLC3.
- Turn the engine switch on (IG) and turn the Techstream on.
- Clear the DTCs (even if no DTCs are stored, perform the clear DTC procedure). Refer to «DTC CHECK / CLEAR»(ref-400784-S05337578742011051800000) .
- Turn the engine switch off.
- Turn the engine switch on (IG) and turn the Techstream on [A].
- Wait 5 seconds or more.
- Enter the following menus: Powertrain / Engine / Utility / All Readiness.
- Input the DTC: U0101.
- Check the DTC judgment result [B]. Techstream Display Description NORMAL DTC judgment completed System normal ABNORMAL DTC judgment completed System abnormal INCOMPLETE DTC judgment not completed Perform driving pattern after confirming DTC enabling conditions UNKNOWN Unable to perform DTC judgment Number of DTCs which do not fulfill DTC preconditions has reached ECU's memory limit HINT: If the judgment result shows ABNORMAL, the system has a malfunction.
- If the test result is UNKNOWN, enter the following menus: Powertrain / Engine / Trouble Codes / Pending.
- Read Pending DTCs. HINT: If a pending DTC is output, the system is malfunctioning.
- If the test result is INCOMPLETE or UNKNOWN and no pending DTC is output, perform a universal trip and check for permanent DTCs. Refer to «DTC CHECK / CLEAR»(ref-400784-S05337578742011051800000) . HINT: If a permanent DTC is output, the system is malfunctioning. If no permanent DTC is output, the system is normal.
Scheme 135
Scheme 136
Scheme 137
- CHECK ANY OTHER DTCS OUTPUT (IN ADDITION TO DTC U0101) Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Enter the following menus: Powertrain / Engine / Trouble Codes. Read the DTCs. Result Result Proceed to DTC U0101 is output A DTC U0101 and other DTCs are output B HINT: If any DTCs other than U0101 are output, troubleshoot those DTCs first. B --> See step 6 A: Go to next step
- INSPECT ECU POWER SOURCE CIRCUIT (TCM POWER SOURCE) Disconnect the TCM connector. Turn the engine switch on (IG). Measure the resistance according to the value(s) in the table below. Standard Voltage Tester Connection Condition Specified Condition D2-1 (BATT) - D2-8 (E1) Always 11 to 14 V D2-18 (+B) - D2-8 (E1) Engine switch on (IG) 11 to 14 V TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to TCM) Reconnect the TCM connector. NG --> See step 7 OK: Go to next step
- CHECK HARNESS AND CONNECTOR (ECM - TCM) Disconnect the TCM connector. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition D2-6 (CAN+) - D1-24 (CAN+) Always Below 1 ohms D2-7 (CAN-) - D1-1 (CAN-) Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition D2-6 (CAN+) or D1-24 (CAN+) - Body ground Always 10 kohms or higher D2-7 (CAN-) or D1-1 (CAN-) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to ECM) *2 Front view of wire harness connector (to TCM) Reconnect the ECM connector. Reconnect the TCM connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (ECM - TCM) OK: Go to next step
- REPLACE ECM Replace the ECM. Refer to «REMOVAL»(ref-400788-S26250166532011051800000) . NEXT: Go to next step
- CHECK WHETHER DTC OUTPUT RECURS (DTC U0101) Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Enter the following menus: Powertrain / Engine / Trouble Codes. Read the DTCs. Result Result Proceed to DTC is not output A DTC U0101 is output B B --> See step 8 A --> END
- GO TO DTC CHART. Refer to «DIAGNOSTIC TROUBLE CODE CHART»(ref-400784-S08158320572011051800000)
- GO TO TCM POWER SOURCE CIRCUIT. Refer to «ECU Power Source Circuit»(ref-400806-S06372747002011051800000)
- REPLACE TCM. Refer to «REMOVAL»(ref-400804-S41746443752011051800000)
| Related DTCs | U0101: Verify communication |
|---|---|
| Required Sensors/Components (Main) | ECM |
| Required Sensors/Components (Related) | |
| Frequency of Operation | Continuous |
| Duration | 1.25 seconds |
| MIL Operation | Immediately |
| Sequence of Operation | None |
| Monitor runs whenever following DTCs are not present | None |
|---|---|
| Battery voltage | 10.5 V or more (More than 1 second) |
| Engine switch | On (IG) |
| Starter | OFF |
| Communication signal | Lost communication with TCM |
- Connect the Techstream to the DLC3.
- Turn the engine switch on (IG) and turn the Techstream on.
- Clear the DTCs (even if no DTCs are stored, perform the clear DTC procedure). Refer to «DTC CHECK / CLEAR»(ref-400784-S02158227972011051800000) .
- Turn the engine switch off.
- Turn the engine switch on (IG) and turn the Techstream on [A].
- Wait 5 seconds or more.
- Enter the following menus: Powertrain / Engine / Utility / All Readiness.
- Input the DTC: U0101.
- Check the DTC judgment result [B]. Techstream Display Description NORMAL DTC judgment completed System normal ABNORMAL DTC judgment completed System abnormal INCOMPLETE DTC judgment not completed Perform driving pattern after confirming DTC enabling conditions UNKNOWN Unable to perform DTC judgment Number of DTCs which do not fulfill DTC preconditions has reached ECU's memory limit HINT: If the judgment result shows ABNORMAL, the system has a malfunction.
- If the test result is UNKNOWN, enter the following menus: Powertrain / Engine / Trouble Codes / Pending.
- Read Pending DTCs. HINT: If a pending DTC is output, the system is malfunctioning.
- If the test result is INCOMPLETE or UNKNOWN and no pending DTC is output, perform a universal trip and check for permanent DTCs. Refer to «DTC CHECK / CLEAR»(ref-400784-S02158227972011051800000) . HINT: If a permanent DTC is output, the system is malfunctioning. If no permanent DTC is output, the system is normal.
- CHECK ANY OTHER DTCS OUTPUT (IN ADDITION TO DTC U0101) Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Enter the following menus: Powertrain / Engine / Trouble Codes. Read the DTCs. Result Result Proceed to DTC U0101 is output A DTC U0101 and other DTCs are output B HINT: If any DTCs other than U0101 are output, troubleshoot those DTCs first. B --> See step 6 A: Go to next step
- INSPECT ECU POWER SOURCE CIRCUIT (TCM POWER SOURCE) Disconnect the TCM connector. Turn the engine switch on (IG). Measure the resistance according to the value(s) in the table below. Standard Voltage Tester Connection Condition Specified Condition D2-1 (BATT) - D2-8 (E1) Always 11 to 14 V D2-18 (+B) - D2-8 (E1) Engine switch on (IG) 11 to 14 V TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to TCM) Reconnect the TCM connector. NG --> See step 7 OK: Go to next step
- CHECK HARNESS AND CONNECTOR (ECM - TCM) Disconnect the TCM connector. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition D2-6 (CAN+) - D1-24 (CAN+) Always Below 1 ohms D2-7 (CAN-) - D1-1 (CAN-) Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition D2-6 (CAN+) or D1-24 (CAN+) - Body ground Always 10 kohms or higher D2-7 (CAN-) or D1-1 (CAN-) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to ECM) *2 Front view of wire harness connector (to TCM) Reconnect the ECM connector. Reconnect the TCM connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (ECM - TCM) OK: Go to next step
- REPLACE ECM Replace the ECM. Refer to «REMOVAL»(ref-400788-S10545316742011051800000) . NEXT: Go to next step
- CHECK WHETHER DTC OUTPUT RECURS (DTC U0101) Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Enter the following menus: Powertrain / Engine / Trouble Codes. Read the DTCs. Result Result Proceed to DTC is not output A DTC U0101 is output B B --> See step 8 A --> END
- GO TO DTC CHART. Refer to «DIAGNOSTIC TROUBLE CODE CHART»(ref-400784-S30709964352011051800000)
- GO TO TCM POWER SOURCE CIRCUIT. Refer to «ECU Power Source Circuit»(ref-400806-S36980551392011051800000)
- REPLACE TCM. Refer to «REMOVAL»(ref-400804-S21649924852011051800000)
- CHECK VACUUM HOSES If the hose is damaged, replace the vacuum hose assembly. Check the air and vacuum hoses for looseness, disconnection and blockage. TEXT IN ILLUSTRATION *1 Engine *2 Vacuum Switching Valve for ACM *3 Engine Mounting Insulator *4 ECM *5 Air Cleaner *6 Vacuum Tank *7 to Intake Air Control Valve Actuator NG --> REPAIR OR REPLACE VACUUM HOSES OK: Go to next step
- CHECK VACUUM Start the engine. Disconnect the vacuum hose from the air cleaner cap. Check that the disconnected port located on the vacuum tank applies suction to your finger. OK Vacuum exists. Reconnect the vacuum hose. NG --> CHECK AND REPLACE VACUUM SOURCE AND HOSES OK: Go to next step
- INSPECT VACUUM SWITCHING VALVE FOR ACM (OPERATION) Remove the vacuum switching valve for ACM. Check operation of the vacuum switching valve for ACM when battery voltage is applied to the terminals of the vacuum switching valve for ACM connector. Battery voltage is not applied The air from pipe G flows out through pipes E and H. Battery voltage is applied The air from pipe F flows out through pipes E and H. Reinstall the vacuum switching valve for ACM. NG --> See step 8 OK: Go to next step
- INSPECT VACUUM SWITCHING VALVE FOR ACM (RESISTANCE) Disconnect the vacuum switching valve for ACM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance Tester Connection Condition Specified Condition 1 - 2 20°C (68°F) 19 to 21 ohms TEXT IN ILLUSTRATION *1 Component without harness connected (Vacuum Switching Valve for ACM) Reconnect the vacuum switching valve for ACM connector. NG --> See step 8 OK: Go to next step
- INSPECT FRONT ENGINE MOUNTING INSULATOR Disconnect the vacuum hose from the front engine mount insulator assembly. Using a vacuum pump, apply vacuum of 80 kPa (600 mmHg, 25 in.Hg) and wait for 1 minute. Check that there is no change in the needle movement of the vacuum pump gauge. Check that there is no fluid leakage caused by a break in the diaphragm. OK Vacuum does not leak. Reconnect the vacuum hose. NG --> See step 9 OK: Go to next step
- INSPECT VACUUM SWITCHING VALVE FOR ACM (POWER SOURCE VOLTAGE) Disconnect the vacuum switching valve for ACM connector. Turn the engine switch on (IG). Measure the voltage according to the value(s) in the table below. Standard Voltage Tester Connection Switch Condition Specified Condition D4-1 - Body ground Engine switch on (IG) 11 to 14 V TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Vacuum Switching Valve for ACM) Reconnect the vacuum switching valve for ACM connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (EFI NO. 2 FUSE - VACUUM SWITCHING VALVE FOR ACM) OK: Go to next step
- CHECK HARNESS AND CONNECTOR (VACUUM SWITCHING VALVE FOR ACM - ECM) Disconnect the vacuum switching valve for ACM connector. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition D4-2 - D1-83 (ACM) Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition D4-2 or D1-83 (ACM) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Vacuum Switching Valve for ACM) *2 Front view of wire harness connector (to ECM) Reconnect the ECM connector. Reconnect the vacuum switching valve for ACM connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (VACUUM SWITCHING VALVE FOR ACM - ECM) OK --> See step 10
- REPLACE VACUUM SWITCHING VALVE FOR ACM. Refer to «REMOVAL»(ref-400788-S11050009892011051800000)
- REPLACE FRONT ENGINE MOUNTING INSULATOR ASSEMBLY. Refer to «REMOVAL»(ref-400788-S34335076802011051800000)
- REPLACE ECM. Refer to «REMOVAL»(ref-400788-S10545316742011051800000)
| DTC | Monitoring Item | See |
|---|---|---|
| P043E | Reference orifice clogged (built into canister pump module) | Refer to DTC P043E: Evaporative Emission System Reference Orifice Clog Up; DTC P043F: Evaporative Emission System Reference Orifice High Flow; DTC P2401: Evaporative Emission System Leak Detection Pump Control Circuit Low; DTC P2402: Evaporative Emission System Leak Detection Pump Control Circuit High; DTC P2419: Evaporative Emission System Switching Valve Control Circuit Low |
| P043F | Reference orifice high-flow (built into canister pump module) | |
| P0441 | Purge VSV (Vacuum Switching Valve) stuck closed Purge VSV stuck open Purge flow | Refer to DTC P0441: Evaporative Emission Control System Incorrect Purge Flow |
| P0451 | Canister pressure sensor (built into canister pump module) signal noise Canister pressure sensor (built into canister pump module) signal becomes fixed/flat | Refer to DTC P0451: Evaporative Emission Control System Pressure Sensor Range / Performance; DTC P0452: Evaporative Emission Control System Pressure Sensor / Switch Low Input; DTC P0453: Evaporative Emission Control System Pressure Sensor / Switch High Input |
| P0452 | Canister pressure sensor (built into canister pump module) voltage low | |
| P0453 | Canister pressure sensor (built into canister pump module) voltage high | |
| P0455 | EVAP gross leak | Refer to DTC P0455: Evaporative Emission Control System Leak Detected (Gross Leak); DTC P0456: Evaporative Emission Control System Leak Detected (Very Small Leak) |
| P0456 | EVAP small leak | |
| P2401 | Leak detection pump stuck OFF (built into canister pump module) | Refer to DTC P043E: Evaporative Emission System Reference Orifice Clog Up; DTC P043F: Evaporative Emission System Reference Orifice High Flow; DTC P2401: Evaporative Emission System Leak Detection Pump Control Circuit Low; DTC P2402: Evaporative Emission System Leak Detection Pump Control Circuit High; DTC P2419: Evaporative Emission System Switching Valve Control Circuit Low |
| P2402 | Leak detection pump stuck ON (built into canister pump module) | |
| P2419 | Vent valve stuck closed (built into canister pump module) | Refer to DTC P043E: Evaporative Emission System Reference Orifice Clog Up; DTC P043F: Evaporative Emission System Reference Orifice High Flow; DTC P2401: Evaporative Emission System Leak Detection Pump Control Circuit Low; DTC P2402: Evaporative Emission System Leak Detection Pump Control Circuit High; DTC P2419: Evaporative Emission System Switching Valve Control Circuit Low |
| P2420 | Vent valve stuck open (vent) (built into canister pump module) | Refer to DTC P2420: Evaporative Emission System Switching Valve Control Circuit High |
| P2610 | Soak timer (built into ECM) | Refer to DTC P2610: ECM / PCM Internal Engine Off Timer Performance |
If any EVAP system DTCs are set, the malfunctioning area can be determined using the table below.
Scheme 138
Note. If the reference pressure difference between the first and second checks is greater than the specification, all the DTCs relating to the reference pressure (P043E, P043F, P2401, P2402 and P2419) are stored.
Scheme 139
| *1 | Location of EVAP (Evaporative Emission) System | *2 | Purge VSV |
|---|---|---|---|
| *3 | EVAP Hose (to Intake Manifold) | *4 | EVAP Hose (from Canister) |
| *5 | Canister Pump Module | *6 | Canister |
| *7 | Air Filter | *8 | Air Inlet Port |
| *9 | Fuel Cap | *10 | Fuel Tank |
| *11 | Purge Line |
TEXT IN ILLUSTRATION
HINT
The canister pressure sensor, the leak detection pump and the vent valve are built into the canister pump module.
Scheme 140
| *1 | EVAP System Circuit | *2 | Intake Manifold |
|---|---|---|---|
| *3 | Purge VSV | *4 | Throttle Valve |
| *5 | Canister | *6 | Cut-off Valve |
| *7 | Fuel Tank | *8 | Air Cleaner |
| *9 | ECM | *10 | Canister Filter |
| *11 | Soak Timer | *12 | Canister Pump Module |
| *13 | Fuel Cap | *14 | Roll-Over Valve |
TEXT IN ILLUSTRATION
Note. In this vehicle's EVAP system, turning on the vent valve does not seal off the EVAP system. To check for leaks in the EVAP system, disconnect the air inlet vent hose and apply pressure from the atmospheric side of the canister.
While the engine is running, if a predetermined condition (closed-loop, etc.) is met, the purge VSV is opened by the ECM and stored fuel vapors in the canister are purged into the intake manifold. The ECM changes the duty cycle of the purge VSV to control purge flow volume.
The purge flow volume is also determined by the intake manifold pressure. Atmospheric pressure is allowed into the canister through the vent valve to ensure that the purge flow is maintained when negative pressure (vacuum) is applied to the canister.
The following two monitors run to confirm the appropriate EVAP system operation.
Scheme 141
Scheme 142
Scheme 143
- Key-off monitor This monitor checks for EVAP (evaporative emission) system leaks and canister pump module malfunctions. The monitor starts 5 hours* after the engine switch is turned off. At least 5 hours are required for the fuel to cool down to stabilize the EVAP pressure, thus making the EVAP system monitor more accurate. The leak detection pump creates negative pressure (vacuum) in the EVAP system and the pressure is measured. Finally, the ECM monitors for leaks from the EVAP system, and malfunctions in both the canister pump module and purge VSV based on the EVAP pressure. HINT: *: If the engine coolant temperature is not below 35°C (95°F) 5 hours after the engine switch is turned off, the monitor check starts 2 hours later. If it is still not below 35°C (95°F) 7 hours after the engine switch is turned off, the monitor check starts 2.5 hours later.
- Purge flow monitor The purge flow monitor consists of the 2 monitors. The 1st monitor is conducted every time and the 2nd monitor is activated if necessary. The 1st monitor While the engine is running and the purge VSV (Vacuum Switching Valve) is on (open), the ECM monitors the purge flow by measuring the EVAP pressure change. If negative pressure is not created, the ECM begins the 2nd monitor. The 2nd monitor The vent valve is turned off (open) and the EVAP pressure is measured. If the variation in the pressure is less than 0.15 kPa (1.13 mmHg), the ECM interprets this as the purge VSV being stuck closed, and illuminates the MIL and sets DTC P0441 (2 trip detection logic). Atmospheric pressure check: In order to ensure reliable malfunction detection, the variation between the atmospheric pressures, before and after the purge flow monitor, is measured by the ECM. TEXT IN ILLUSTRATION *1 EVAP Purge Flow *2 to Intake Manifold *3 ECM *4 Soak Timer *5 Purge VSV (on) *6 Fuel Cap *7 Canister Filter *8 Fuel Tank *9 Leak Detection Pump (off) *10 Canister Pressure Sensor *11 Reference Orifice (0.02 inch) *12 Vent Valve (off) *13 Canister Pump Module *14 Canister Component Operation Canister Contains activated charcoal to absorb EVAP (evaporative emissions) generated in fuel tank. Cut-off valve Located in fuel tank. Valve floats and closes when fuel tank is 100% full. Purge VSV (Vacuum Switching Valve) Opens or closes line between canister and intake manifold. ECM uses purge VSV to control EVAP purge flow. In order to discharge EVAP absorbed by canister to intake manifold, ECM opens purge VSV. EVAP discharge volume to intake manifold controlled by purge VSV duty cycle (current-carrying time) (Open: on; Closed: off). Roll-over valve Located in fuel tank. Valve closes by its own weight when vehicle overturns to prevent fuel from spilling out. Soak timer Built into ECM. To ensure accurate EVAP monitor, measures 5 hours (+/-15 min) after engine switch is turned off. This allows fuel to cool down, stabilizing EVAP pressure. When approximately 5 hours elapsed, ECM activates ( see scheme 3see scheme 3 ). Canister pump module Consists of (a) to (d) below. Canister pump module cannot be disassembled. (a) Vent valve Vents and closes EVAP system. When ECM turns valve on, EVAP system is closed. When ECM turns valve off, EVAP system is vented. Negative pressure (vacuum) is created in EVAP system to check for EVAP leaks by closing purge VSV, turning on vent valve (closing it) and operating leak detection pump ( see scheme 1see scheme 1 ). (b) Canister pressure sensor Indicates pressure as voltage. ECM supplies regulated 5 V to canister pressure sensor, and uses feedback from sensor to monitor EVAP system pressure ( (Scheme 130)(Scheme 130) ). (c) Leak detection pump Creates negative pressure (vacuum) in EVAP system for leak check. (d) Reference orifice Has opening with 0.02 inch diameter. Vacuum is produced through orifice by closing purge VSV, turning off vent valve and operating leak detection pump to monitor reference pressure. Reference pressure indicates small leak of EVAP. TEXT IN ILLUSTRATION *1 Canister Pump Module see scheme 1 *2 Airflow *3 Condition: Purge Flow *4 Condition: Leak Check *5 Vent Valve: off (vent) *6 to Canister Filter (Atmosphere) *7 Canister *8 Reference Orifice (0.02 Inch) *9 Canister Pressure Sensor *10 Leak Detection Pump: off *11 Vent Valve: on (closed) *12 Leak Detection Pump: on
Scheme 144
HINT
After a repair, check Monitor Status by performing the Key-Off Monitor Confirmation and Purge Flow Monitor Confirmation described below.
- KEY-OFF MONITOR CONFIRMATION Preconditions The monitor will not run unless: The vehicle has been driven for 10 minutes or more (in a city area or on a freeway). The fuel tank is less than 90% full. The altitude is less than 7875 ft. (2400 m). The engine coolant temperature is between 4.4°C and 35°C (40°F and 95°F). The intake air temperature is between 4.4°C and 35°C (40°F and 95°F). The vehicle remains stationary (the vehicle speed is 0 mph [0 km/h]). Monitor Conditions Allow the engine to idle for at least 5 minutes. Turn the engine switch off and wait for 6 hours (8 or 10.5 hours). HINT: Do not start the engine until checking Monitor Status. If the engine is started, the steps described above must be repeated. Monitor Status Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Enter the following menus: Powertrain / Engine / Monitor / Evaporative System. Check the Monitor Status displayed on the Techstream. HINT: If Incomplete is displayed, the monitor did not complete. Make sure that the preconditions have been met, and perform the Monitor Conditions again.
- PURGE FLOW MONITOR CONFIRMATION (P0441) HINT: Perform this monitor confirmation after the Key-Off Monitor Confirmation shows Complete. Preconditions The monitor will not run unless: The vehicle has been driven for 10 minutes or more (in a city area or on a freeway). The engine coolant temperature is between 4.4°C and 35°C (40°F and 95°F). The intake air temperature is between 4.4°C and 35°C (40°F and 95°F). Monitor Conditions Release the pressure from the fuel tank by removing and reinstalling the fuel cap. Warm the engine up until the engine coolant temperature reaches more than 75°C (167°F). Increase the engine speed to 3000 rpm once. Allow the engine to idle and turn the the A/C switch on for 1 minute. Monitor Status Turn the engine switch off (if on (IG) or if the engine is running). Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Enter the following menus: Powertrain / Engine / Monitor / Evaporative System. Check the Monitor Status displayed on the Techstream. HINT: If Incomplete is displayed, the monitor did not complete. Make sure that the preconditions have been met, and perform the Monitor Conditions again.
Refer to Checking Monitor Status. Refer to CHECKING MONITOR STATUS .
| DTC | Monitoring Item | See |
|---|---|---|
| P043E | Reference orifice clogged (built into canister pump module) | Refer to DTC P043E: Evaporative Emission System Reference Orifice Clog Up; DTC P043F: Evaporative Emission System Reference Orifice High Flow; DTC P2401: Evaporative Emission System Leak Detection Pump Control Circuit Low; DTC P2402: Evaporative Emission System Leak Detection Pump Control Circuit High; DTC P2419: Evaporative Emission System Switching Valve Control Circuit Low |
| P043F | Reference orifice high-flow (built into canister pump module) | |
| P0441 | Purge VSV (Vacuum Switching Valve) stuck closed Purge VSV stuck open Purge flow | Refer to DTC P0441: Evaporative Emission Control System Incorrect Purge Flow |
| P0451 | Canister pressure sensor (built into canister pump module) signal noise Canister pressure sensor (built into canister pump module) signal becomes fixed/flat | Refer to DTC P0451: Evaporative Emission Control System Pressure Sensor Range / Performance; DTC P0452: Evaporative Emission Control System Pressure Sensor / Switch Low Input; DTC P0453: Evaporative Emission Control System Pressure Sensor / Switch High Input |
| P0452 | Canister pressure sensor (built into canister pump module) voltage low | |
| P0453 | Canister pressure sensor (built into canister pump module) voltage high | |
| P0455 | EVAP gross leak | Refer to DTC P0455: Evaporative Emission Control System Leak Detected (Gross Leak); DTC P0456: Evaporative Emission Control System Leak Detected (Very Small Leak) |
| P0456 | EVAP small leak | |
| P2401 | Leak detection pump stuck OFF (built into canister pump module) | Refer to DTC P043E: Evaporative Emission System Reference Orifice Clog Up; DTC P043F: Evaporative Emission System Reference Orifice High Flow; DTC P2401: Evaporative Emission System Leak Detection Pump Control Circuit Low; DTC P2402: Evaporative Emission System Leak Detection Pump Control Circuit High; DTC P2419: Evaporative Emission System Switching Valve Control Circuit Low |
| P2402 | Leak detection pump stuck ON (built into canister pump module) | |
| P2419 | Vent valve stuck closed (built into canister pump module) | Refer to DTC P043E: Evaporative Emission System Reference Orifice Clog Up; DTC P043F: Evaporative Emission System Reference Orifice High Flow; DTC P2401: Evaporative Emission System Leak Detection Pump Control Circuit Low; DTC P2402: Evaporative Emission System Leak Detection Pump Control Circuit High; DTC P2419: Evaporative Emission System Switching Valve Control Circuit Low |
| P2420 | Vent valve stuck open (vent) (built into canister pump module) | Refer to DTC P2420: Evaporative Emission System Switching Valve Control Circuit High |
| P2610 | Soak timer (built into ECM) | Refer to DTC P2610: ECM / PCM Internal Engine Off Timer Performance |
If any EVAP system DTCs are set, the malfunctioning area can be determined using the table below.
Note. If the reference pressure difference between the first and second checks is greater than the specification, all the DTCs relating to the reference pressure (P043E, P043F, P2401, P2402 and P2419) are stored.
- CONFIRM DTC Turn the engine switch off and wait for 10 seconds. Turn the engine switch on (IG). Turn the engine switch off and wait for 10 seconds. Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Enter the following menus: Powertrain / Engine / Trouble Codes. Confirm DTCs and freeze frame data. If any EVAP system DTCs are set, the malfunctioning area can be determined using the table below. NOTE: If the reference pressure difference between the first and second checks is greater than the specification, all the DTCs relating to the reference pressure (P043E, P043F, P2401, P2402 and P2419) are stored. NEXT: Go to next step
- PERFORM EVAPORATIVE SYSTEM CHECK (AUTO OPERATION) NOTE: The Evaporative System Check (Automatic Mode) consists of 5 steps performed automatically by the Techstream. It takes a maximum of approximately 18 minutes. Do not perform the Evaporative System Check when the fuel tank is more than 90% full because the cut-off valve may be closed, making the fuel tank leak check unavailable. Do not run the engine during this operation. When the temperature of the fuel is 35°C (95°F) or more, a large amount of vapor forms and any check results become inaccurate. When performing the Evaporative System Check, keep the fuel temperature below 35°C (95°F). Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Clear the DTCs. Refer to «DTC CHECK / CLEAR»(ref-400784-S02158227972011051800000) . Enter the following menus: Powertrain / Engine / Utility / Evaporative System Check / Automatic Mode. After the EVAP SYSTEM CHECK is completed, check for pending DTCs by entering the following menus: Powertrain / Engine / Trouble Codes. HINT: If no pending DTCs are displayed, perform the Monitor Confirmation (see «CONFIRMATION DRIVING PATTERN»(ref-400785-S41796687042011051800000) "Diagnostic Help" menu). After this confirmation, check for pending DTCs. If no DTCs are displayed, the EVAP system is normal. NEXT: Go to next step
- PERFORM EVAPORATIVE SYSTEM CHECK (MANUAL OPERATION) NOTE: In the Evaporative System Check (Manual Mode), perform the series of 5 Evaporative System Check steps manually using the Techstream. Do not perform the Evaporative System Check when the fuel tank is more than 90% full because the cut-off valve may be closed, making the fuel tank leak check unavailable. Do not run the engine during this operation. When the temperature of the fuel is 35°C (95°F) or more, a large amount of vapor forms and any check results become inaccurate. When performing the Evaporative System Check, keep the fuel temperature below 35°C (95°F). Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Clear the DTCs. Refer to «DTC CHECK / CLEAR»(ref-400784-S02158227972011051800000) . Enter the following menus: Powertrain / Engine / Utility / Evaporative System Check / Manual Mode. NEXT: Go to next step
- PERFORM EVAPORATIVE SYSTEM CHECK (STEP 1/5) Check the EVAP pressure in step 1/5. Result DTC* Test Result Suspected Trouble Area Proceed to - Virtually no variation in EVAP pressure Not yet determined A P0451 EVAP pressure fluctuates by +/-0.3 kPa (2.25 mmHg) or more Canister pressure sensor signal noise B *: These DTCs are already present in the ECM when the vehicle arrives and are confirmed in the "Confirm DTC" procedure above. B --> See step 29 A: Go to next step
- PERFORM EVAPORATIVE SYSTEM CHECK (STEP 1/5 TO 2/5) Check the EVAP pressure in steps 1/5 and 2/5. Result DTC* Test Result Suspected Trouble Area Proceed to - Virtually no variation in EVAP pressure during step 1/5. Then decreases to reference pressure Not yet determined A P2402 Small difference between EVAP pressures during steps 1/5 and 2/5 Leak detection pump stuck ON B *: These DTCs are already present in the ECM when the vehicle arrives and are confirmed in the "Confirm DTC" procedure above. HINT: The first reference pressure is the value determined in step 2/5. B --> See step 22 A: Go to next step
- PERFORM EVAPORATIVE SYSTEM CHECK (STEP 2/5) HINT: Make a note of the pressures checked in steps A and B below. (a) Check the EVAP pressure 4 seconds after the leak detection pump is activated* (Step A). *: The leak detection pump begins to operate as step 1/5 finishes and step 2/5 starts. (b) Check the EVAP pressure again when it has stabilized. This pressure is the reference pressure (Step B). Result DTC* Test Result Suspected Trouble Area Proceed to - EVAP pressure in step B between -4.85 kPa and -1.057 kPa (-36.38 mmHg and -7.93 mmHg) Not yet determined A P043F and P2401 EVAP pressure in step B -1.057 kPa (-7.93 mmHg) or more Reference orifice high-flow Leak detection pump stuck OFF B P043E EVAP pressure in step B below -4.85 kPa (-36.38 mmHg) Reference orifice clogged C P2419 EVAP pressure in step A more than -1.057 kPa (-7.93 mmHg) Vent valve stuck closed D *: These DTCs are already present in the ECM when the vehicle arrives and are confirmed in the "Confirm DTC" procedure above. D --> See step 20 C --> See step 29 B --> See step 11 A: Go to next step
- PERFORM EVAPORATIVE SYSTEM CHECK (STEP 2/5 TO 3/5) Check the EVAP pressure in step 3/5. Result DTC* Test Result Suspected Trouble Area Proceed to - EVAP pressure increases by 0.3 kPa (2.25 mmHg) or more within 10 seconds of proceeding from step 2/5 to step 3/5 Not yet determined A P2420 No variation in EVAP pressure despite proceeding from step 2/5 to step 3/5 Vent valve stuck open (vent) B P0451 No variation in EVAP pressure during steps 1/5 through 3/5 Canister pressure sensor output value stuck C *: These DTCs are already present in the ECM when the vehicle arrives and are confirmed in the "Confirm DTC" procedure above. C --> See step 29 B --> See step 19 A: Go to next step
- PERFORM EVAPORATIVE SYSTEM CHECK (STEP 3/5) Wait until the EVAP pressure change is less than 0.1 kPa (0.75 mmHg) for 30 seconds. Measure the EVAP pressure and record it. HINT: A few minutes are required for the EVAP pressure to become saturated. When there is little fuel in the fuel tank, it takes up to 15 minutes. NEXT: Go to next step
- PERFORM EVAPORATIVE SYSTEM CHECK (STEP 4/5) Check the EVAP pressure in step 4/5. Result DTC* Test Result Suspected Trouble Area Proceed to - EVAP pressure increases by 0.3 kPa (2.25 mmHg) or more within 10 seconds of proceeding from step 3/5 to step 4/5 Not yet determined A P0441 EVAP pressure increases by 0.3 kPa (2.25 mmHg) or more within 10 seconds of proceeding from step 3/5 to step 4/5 Problems in EVAP hose between purge VSV and intake manifold B P0441 Variation in EVAP pressure less than 0.3 kPa (2.25 mmHg) for 10 seconds, after proceeding from step 3/5 to step 4/5 Purge VSV stuck closed C *: These DTCs are already present in the ECM when the vehicle arrives and are confirmed in the "Confirm DTC" procedure above. C --> See step 12 B --> See step 15 A: Go to next step
- PERFORM EVAPORATIVE SYSTEM CHECK (STEP 5/5) Check the EVAP pressure in step 5/5. Compare the EVAP pressure in step 3/5 and the second reference pressure (step 5/5). Result DTC* Test Result Suspected Trouble Area Proceed to - EVAP pressure from step 3/5 lower than second reference pressure (step 5/5) Not yet determined (no leakage from EVAP system) A P0441 and P0455 EVAP pressure from step 3/5 higher than [second reference pressure (step 5/5) x 0.2] Purge VSV stuck open EVAP gross leak B P0456 EVAP pressure from step 3/5 higher than second reference pressure (step 5/5) EVAP small leak B *: These DTCs are already present in the ECM when the vehicle arrives and are confirmed in the "Confirm DTC" procedure above. B --> See step 12 A --> See step 35
- PERFORM EVAPORATIVE SYSTEM CHECK (STEP 3/5) Check the EVAP pressure in step 3/5. Result DTC* Test Result Suspected Trouble Area Proceed to P043F EVAP pressure less than [reference pressure] measured in step 2/5 Reference orifice high-flow A P2401 EVAP pressure almost same as [reference pressure] measured in step 2/5 Leak detection pump stuck off B *: These DTCs are already present in the ECM when the vehicle arrives and are confirmed in the "Confirm DTC" procedure above. HINT: The first reference pressure is the value determined in step 2/5. B --> See step 22 A --> See step 29
- PERFORM ACTIVE TEST USING TECHSTREAM (PURGE VSV) Enter the following menus: Powertrain / Engine / Active Test / Activate the VSV for EVAP Control. Disconnect the hose (connected to the canister) from the purge VSV. TEXT IN ILLUSTRATION *1 Purge VSV *2 Hose (to canister) Start the engine. Using the Techstream, turn off the purge VSV (Activate the VSV for Evap Control: OFF). Use your finger to confirm that the purge VSV has no suction. Using the Techstream, turn on the purge VSV (Activate the VSV for Evap Control: ON). Use your finger to confirm that the purge VSV has suction. Result Test Result Suspected Trouble Area Proceed to No suction when purge VSV turned off, and suction applied when turned on Purge VSV normal A Suction applied when purge VSV turned off Purge VSV stuck open B No suction when purge VSV turned on Purge VSV stuck closed Problems with EVAP hose between purge VSV and intake manifold C Reconnect the hose. C --> See step 15 B --> See step 14 A: Go to next step
- CHECK FUEL TANK CAP ASSEMBLY Check that the fuel cap is correctly installed and confirm that the fuel cap meets OEM specifications. Tighten the fuel cap until a few click sounds are heard. HINT: If an EVAP tester is available, check the fuel cap using the Techstream. Remove the fuel cap and install it onto a fuel cap adapter. Connect an EVAP tester pump hose to the adapter, and pressurize the cap to 3.2 to 3.7 kPa (24 to 28 mmHg) using an EVAP tester pump. Seal the adapter and wait for 2 minutes. Check the pressure. If the pressure is 2 kPa (15 mmHg) or more, the fuel cap is normal. Result Test Result Suspected Trouble Area Proceed to Fuel cap correctly installed - A Fuel cap loose Fuel cap improperly installed Defective fuel cap Fuel cap does not meet OEM specifications B No fuel cap - C Reinstall the fuel cap. C --> See step 27 B --> See step 26 A --> See step 28
- INSPECT PURGE VSV Turn the engine switch off. Disconnect the purge VSV connector. TEXT IN ILLUSTRATION *1 Hose (to canister) *2 Connector *3 Purge VSV Disconnect the hose (connected to the canister) from the purge VSV. Start the engine. Use your finger to confirm that the purge VSV has no suction. Result Test Result Suspected Trouble Area Proceed to No suction ECM A Suction applied Purge VSV B Reconnect the purge VSV connector. Reconnect the hose. B --> See step 30 A --> See step 34
- CHECK EVAP HOSE (PURGE VSV - INTAKE AIR SURGE TANK ASSEMBLY) Disconnect the hose (connected to the intake air surge tank assembly) from the purge VSV. TEXT IN ILLUSTRATION *1 Purge VSV *2 Hose (to Intake Air Surge Tank Assembly) Start the engine. Use your finger to confirm that the hose has suction. Result Test Result Suspected Trouble Area Proceed to Suction applied EVAP hose between purge VSV and intake air surge tank assembly normal A No suction Intake manifold port EVAP hose between purge VSV and intake air surge tank assembly B Reconnect the hose. B --> See step 25 A: Go to next step
- INSPECT PURGE VSV Remove the purge VSV. Apply battery voltage to the terminals of the purge VSV. TEXT IN ILLUSTRATION *1 Purge VSV Using an air gun, confirm that air flows from port A to port B. Result Test Result Condition Suspected Trouble Area Proceed to Air flows Battery voltage is applied to purge VSV terminals Purge VSV normal A No air flow Battery voltage is applied to purge VSV terminals Purge VSV B Install the purge VSV. B --> See step 30 A: Go to next step
- CHECK HARNESS AND CONNECTOR (POWER SOURCE OF PURGE VSV) Disconnect the purge VSV connector. Turn the engine switch on (IG). Measure the voltage according to the value(s) in the table below. TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Purge VSV) Result Tester Connection Switch Condition Specified Condition Suspected Trouble Area Proceed to D6-1 - Body ground Engine switch on (IG) 11 to 14 V Normal A Other than result above Wire harness or connectors between purge VSV and ECM B Reconnect the purge VSV connector. B --> See step 31 A: Go to next step
- CHECK HARNESS AND CONNECTOR (PURGE VSV - ECM) Disconnect the ECM connector and the purge VSV connector. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition D6-2 - D1-63 (PRG) Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition D6-2 or D1-63 (PRG) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Purge VSV) *2 Front view of wire harness connector (to ECM) Reconnect the purge VSV connector. Reconnect the ECM connector. NG --> See step 31 OK --> See step 34
- INSPECT CANISTER PUMP MODULE (POWER SOURCE FOR VENT VALVE) Turn the engine switch off. Disconnect the canister pump module connector. Turn the engine switch on (IG). Measure the voltage according to the value(s) in the table below. Result Tester Connection Switch Condition Specified Condition Suspected Trouble Area Proceed to O12-5 (VLVB) - Body ground Engine switch on (IG) 11 to 14 V Wire harness between vent valve and ECM Vent valve ECM A Below 3 V Power source wire harness of vent valve B TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Canister Pump Module) Reconnect the canister pump module connector. B --> See step 31 A: Go to next step
- INSPECT CANISTER PUMP MODULE (VENT VALVE OPERATION) Turn the engine switch off. Disconnect the canister pump module connector. Apply battery voltage to the VLVB and VGND terminals of the canister pump module. Touch the canister pump module to confirm the vent valve operation. TEXT IN ILLUSTRATION *1 Component without harness connected (Canister Pump Module) Result Condition Test Result Suspected Trouble Area Proceed to Apply battery voltage to terminals VLVB and VGND Operating 1. Wire harness between vent valve and ECM 2. ECM A Not operating Vent valve B Reconnect the canister pump module connector. B --> See step 29 A: Go to next step
- CHECK HARNESS AND CONNECTOR (ECM - CANISTER PUMP MODULE) Disconnect the ECM connector. Disconnect the canister pump module connector. Measure the resistance according to the value(s) in the table below. Result Tester Connection Condition Test Result Suspected Trouble Area Proceed to A43-30 (VPMP) - O12-1 (VGND) Always Below 1 ohms ECM A 10 kohms or higher Wire harness between ECM and canister pump module B TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to ECM) *2 Front view of wire harness connector (to Canister Pump Module) Reconnect the ECM connector. Reconnect the canister pump module connector. B --> See step 31 A --> See step 34
- PERFORM ACTIVE TEST USING TECHSTREAM (ACTIVE THE VACUUM PUMP) Turn the engine switch off. Disconnect the canister pump module connector. Turn the engine switch on (IG). Enter the following menus: Powertrain / Engine / Active Test / Activate the Vacuum Pump. Measure the voltage according to the value(s) in the table below. Result Tester Connection Condition Test Result Suspected Trouble Area Proceed to O12-3 (MTRB) - Body ground Leak detection pump on and off (Active Test ON and OFF) Below 3 V when OFF 11 to 14 V when ON Wire harness between leak detection pump and body ground Leak detection pump A Below 3 V when OFF and ON Wire harness between leak detection pump and ECM ECM B 11 to 14 V when OFF and ON ECM C TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Canister Pump Module) C --> See step 34 B --> See step 24 A: Go to next step
- CHECK HARNESS AND CONNECTOR (CANISTER PUMP MODULE - BODY GROUND) Turn the engine switch off. Disconnect the canister pump module connector. Measure the resistance according to the value(s) in the table below. Result Tester Connection Condition Specified Condition Suspected Trouble Area Proceed to O12-4 (MGND) - Body ground Always Below 1 ohms Leak detection pump A 10 kohms or higher Wire harness between canister pump module and body ground B TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Canister Pump Module) Reconnect the canister pump module connector. B --> See step 31 A --> See step 29
- CHECK HARNESS AND CONNECTOR (ECM - CANISTER PUMP MODULE) Turn the engine switch off. Disconnect the canister pump module connector. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Result Tester Connection Condition Test Result Suspected Trouble Area Proceed to A43-49 (MPMP) - O12-3 (MTRB) Always Below 1 ohms ECM A 10 kohms or higher Wire harness between ECM and canister pump module B TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to ECM) *2 Front view of wire harness connector (to Canister Pump Module) Reconnect the canister pump module connector. Reconnect the ECM connector. B --> See step 31 A --> See step 34
- INSPECT INTAKE AIR SURGE TANK ASSEMBLY (EVAP PURGE PORT) Stop the engine. Disconnect the EVAP hose from the intake air surge tank assembly. Start the engine. Use your finger to confirm that the port of the intake air surge tank assembly has suction. Result Test Result Suspected Trouble Area Proceed to Suction applied EVAP hose between intake air surge tank assembly and purge VSV A No suction Intake air surge tank assembly B Reconnect the EVAP hose. B --> See step 33 A --> See step 32
- CORRECTLY REINSTALL OR REPLACE FUEL TANK CAP ASSEMBLY HINT: When reinstalling the fuel cap, tighten it until a few click sounds are heard. When replacing the fuel cap, use a fuel cap that meets OEM specifications, and install it until a few click sounds are heard. NEXT --> See step 36
- REPLACE FUEL TANK CAP ASSEMBLY HINT: When installing the fuel cap, tighten it until a few click sounds are heard. NEXT --> See step 36
- LOCATE EVAP LEAK PART Disconnect the vent hose. TEXT IN ILLUSTRATION *1 Fuel Tank *2 Canister *3 Air Filter *4 Fuel Cap *5 Disconnect the vent hose here - - Connect the EVAP pressure tester tool to the canister pump module with the adapter. TEXT IN ILLUSTRATION *1 Canister Pump Module *2 Adapter *3 EVAP Pressure Tester Tool - - Pressurize the EVAP system to 3.2 to 3.7 kPa (24 to 28 mmHg). Apply soapy water to the piping and connecting parts of the EVAP system. Look for areas where bubbles appear. This indicates the leak point. Repair or replace the leak point. HINT: Disconnect the hose between the canister and fuel tank from the canister. Block the canister side and conduct an inspection. In this way, the fuel tank can be excluded as an area suspected of causing fuel leaks. NEXT --> See step 36
- REPLACE CANISTER Replace the canister. Refer to «REMOVAL»(ref-400795-S11567271042011051800000) . NOTE: When replacing the canister, check the canister pump module interior and related pipes for water, fuel and other liquids. If liquids are present, check for disconnections and/or cracks in the following: 1) the pipe from the air inlet port to the canister pump module; 2) the canister filter; and 3) the fuel tank vent hose. TEXT IN ILLUSTRATION *1 Fuel Tank Vent Hose *2 Air Inlet Port *3 Vent Hose *4 Inspection Area (check for disconnection and/or cracks) *5 Fuel Tank - - NEXT --> See step 36
- REPLACE PURGE VSV Disconnect the connector and the 2 hoses from the purge VSV. TEXT IN ILLUSTRATION *1 Purge VSV Remove the purge VSV. Install a new purge VSV. Reconnect the connector and 2 hoses. NEXT --> See step 36
- REPAIR OR REPLACE HARNESS OR CONNECTOR NEXT --> See step 36
- REPLACE EVAP HOSE (INTAKE AIR SURGE TANK ASSEMBLY - PURGE VSV) NEXT --> See step 36
- INSPECT INTAKE AIR SURGE TANK ASSEMBLY (EVAP PURGE PORT) Check that the EVAP purge port of the intake air surge tank assembly is not clogged. If necessary, replace the intake air surge tank assembly. NEXT --> See step 36
- REPLACE ECM Replace the ECM. Refer to «REMOVAL»(ref-400788-S10545316742011051800000) . NEXT --> See step 36
- REPAIR OR REPLACE PARTS AND COMPONENTS INDICATED BY OUTPUT DTCS Repair the malfunctioning areas indicated by the DTCs that had been confirmed when the vehicle was brought in. NEXT: Go to next step
- PERFORM EVAP SYSTEM CHECK (AUTO OPERATION) NOTE: The Evaporative System Check (Automatic Mode) consists of 5 steps performed automatically by the Techstream. It takes a maximum of approximately 18 minutes. Do not perform the Evaporative System Check when the fuel tank is more than 90% full because the cut-off valve may be closed, making the fuel tank leak check unavailable. Do not run the engine in this step. When the temperature of the fuel is 35°C (95°F) or more, a large amount of vapor forms and any check results become inaccurate. When performing an Evaporative System Check, keep the fuel temperature below 35°C (95°F). Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Clear the DTCs. Refer to «DTC CHECK / CLEAR»(ref-400784-S02158227972011051800000) . Enter the following menus: Powertrain / Engine / Utility / Evaporative System Check / Automatic Mode. After the Evaporative System Check is completed, check for pending DTCs by entering the following menus: Powertrain / Engine / Trouble Codes. HINT: If no pending DTCs are found, the repair has been successfully completed. NEXT --> COMPLETED
HINT
After a repair, check Monitor Status by performing the Key-Off Monitor Confirmation and Purge Flow Monitor Confirmation described below.
- KEY-OFF MONITOR CONFIRMATION Preconditions The monitor will not run unless: The vehicle has been driven for 10 minutes or more (in a city area or on a freeway). The fuel tank is less than 90% full. The altitude is less than 7875 ft. (2400 m). The engine coolant temperature is between 4.4°C and 35°C (40°F and 95°F). The intake air temperature is between 4.4°C and 35°C (40°F and 95°F). The vehicle remains stationary (the vehicle speed is 0 mph [0 km/h]). Monitor Conditions Allow the engine to idle for at least 5 minutes. Turn the engine switch off and wait for 6 hours (8 or 10.5 hours). HINT: Do not start the engine until checking Monitor Status. If the engine is started, the steps described above must be repeated. Monitor Status Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Enter the following menus: Powertrain / Engine / Monitor / Evaporative System. Check the Monitor Status displayed on the Techstream. HINT: If Incomplete is displayed, the monitor did not complete. Make sure that the preconditions have been met, and perform the Monitor Conditions again.
- PURGE FLOW MONITOR CONFIRMATION (P0441) HINT: Perform this monitor confirmation after the Key-Off Monitor Confirmation shows Complete. Preconditions The monitor will not run unless: The vehicle has been driven for 10 minutes or more (in a city area or on a freeway). The engine coolant temperature is between 4.4°C and 35°C (40°F and 95°F). The intake air temperature is between 4.4°C and 35°C (40°F and 95°F). Monitor Conditions Release the pressure from the fuel tank by removing and reinstalling the fuel cap. Warm the engine up until the engine coolant temperature reaches more than 75°C (167°F). Increase the engine speed to 3000 rpm once. Allow the engine to idle and turn the the A/C switch on for 1 minute. Monitor Status Turn the engine switch off (if on (IG) or if the engine is running). Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Enter the following menus: Powertrain / Engine / Monitor / Evaporative System. Check the Monitor Status displayed on the Techstream. HINT: If Incomplete is displayed, the monitor did not complete. Make sure that the preconditions have been met, and perform the Monitor Conditions again.
Refer to Checking Monitor Status. Refer to CHECKING MONITOR STATUS .
- CHECK HARNESS AND CONNECTOR (ECM - BODY GROUND) Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance Tester Connection Condition Specified Condition D1-81 (E1) - Body ground Always Below 1 ohms TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to ECM) Reconnect the ECM connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (ECM - BODY GROUND) OK: Go to next step
- INSPECT ECM (IGSW VOLTAGE) Disconnect the ECM connector. Turn the engine switch on (IG). Measure the voltage according to the value(s) in the table below. Standard Voltage Tester Connection Switch Condition Specified Condition A43-28 (IGSW) - Body ground Engine switch on (IG) 11 to 14 V TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to ECM) Reconnect the ECM connector. NG --> See step 7 OK: Go to next step
- INSPECT RELAY (EFI MAIN RELAY) Remove the EFI MAIN relay from the engine room relay block. Measure the resistance according to the value(s) in the table below. Standard Resistance Tester Connection Condition Specified Condition 3 - 5 No battery voltage applied to terminals 1 and 2 10 kohms or higher Battery voltage applied to terminals 1 and 2 Below 1 ohms Reinstall the EFI MAIN relay relay. NG --> REPLACE RELAY (EFI MAIN RELAY) OK: Go to next step
- CHECK HARNESS AND CONNECTOR (EFI MAIN RELAY) Remove the EFI MAIN relay from the engine room relay block. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition 3 (EFI MAIN relay terminal) - A43-3 (+B) Always Below 1 ohms 3 (EFI MAIN relay terminal) - A43-2 (+B2) Always Below 1 ohms 1 (EFI MAIN relay terminal) - A43-34 (MREL) Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition 3 (EFI MAIN relay terminal) or A43-3 (+B) - Body ground Always 10 kohms or higher 3 (EFI MAIN relay terminal) or A43-2 (+B2) - Body ground Always 10 kohms or higher 1 (EFI MAIN relay terminal) or A43-34 (MREL) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Engine Room Relay Block *2 Front view of wire harness connector (to ECM) Reconnect the ECM connector. Reinstall the EFI MAIN relay block assembly. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (EFI MAIN RELAY - ECM) OK: Go to next step
- CHECK HARNESS AND CONNECTOR (BATTERY - EFI MAIN RELAY) Remove the EFI MAIN relay from the engine room relay block. Disconnect the cable from the negative (-) battery terminal. Disconnect the cable from the positive (+) battery terminal. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition 5 (EFI MAIN relay terminal) - Battery positive (+) terminal Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition 5 (EFI MAIN relay terminal) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Engine Room Relay Block Reinstall the EFI MAIN relay. Reconnect the cable to the positive (+) battery terminal. Reconnect the cable to the negative (-) battery terminal. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (BATTERY - EFI MAIN RELAY) OK: Go to next step
- CHECK HARNESS AND CONNECTOR (EFI MAIN RELAY - BODY GROUND) Remove the EFI MAIN relay from the engine room relay block. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition 2 (EFI MAIN relay terminal) - Body ground Always Below 1 ohms TEXT IN ILLUSTRATION *1 Engine Room Relay Block Reinstall the EFI MAIN relay. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (EFI MAIN RELAY - BODY GROUND) OK --> See step 12
- INSPECT RELAY (IG2 RELAY) Remove the IG2 relay from the engine room relay block. Measure the resistance according to the value(s) in the table below. Standard Resistance Tester Connection Condition Specified Condition 3 - 5 No battery voltage applied to terminals 1 and 2 10 kohms or higher 3 - 5 Battery voltage applied to terminals 1 and 2 Below 1 ohms Reinstall the IG2 relay. NG --> REPLACE RELAY (IG2 RELAY) OK: Go to next step
- CHECK HARNESS AND CONNECTOR (IG2 RELAY - ECM) Remove the IG2 relay from the engine room relay block. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition 3 (IG2 relay terminal) - A43-28 (IGSW) Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition 3 (IG2 relay terminal) or A43-28 (IGSW) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Engine Room Relay Block *2 Front view of wire harness connector (to ECM) Reinstall the IG2 relay. Reconnect the ECM connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (IG2 RELAY - ECM) OK: Go to next step
- CHECK HARNESS AND CONNECTOR (IG2 RELAY POWER SOURCE) Remove the IG2 relay from the engine room relay block. Measure the voltage according to the value(s) in the table below. Standard Voltage Tester Connection Condition Specified Condition 5 (IG2 relay terminal) - Body ground Always 11 to 14 V TEXT IN ILLUSTRATION *1 Engine Room Relay Block Reinstall the IG2 relay. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (IG2 RELAY - BATTERY) OK: Go to next step
- CHECK HARNESS AND CONNECTOR (IG2 RELAY - BODY GROUND) Remove the IG2 relay from the engine room relay block. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition 2 (IG2 relay terminal) - Body ground Always Below 1 ohms TEXT IN ILLUSTRATION *1 Engine Room Relay Block Reinstall the IG2 relay. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (IG2 RELAY - BODY GROUND) OK: Go to next step
- CHECK HARNESS AND CONNECTOR (IG2 RELAY - POWER MANAGEMENT CONTROL ECU) Disconnect the power management control ECU connector. Remove the IG2 relay from the engine room relay block. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition 1 (IG2 relay terminal) - F7-8 (IG2D) Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition 1 (IG2 relay terminal) - F7-8 (IG2D) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Power Management Control ECU) *2 Engine Room Relay Block Reconnect the power management control ECU connector. Reinstall the IG2 relay. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (IG2 RELAY - POWER MANAGEMENT CONTROL ECU) OK --> See step 13
- PROCEED TO NEXT SUSPECTED AREA SHOWN IN PROBLEM SYMPTOMS TABLE. Refer to «PROBLEM SYMPTOMS TABLE»(ref-400784-S06449390312011051800000)
- GO TO SMART ACCESS SYSTEM WITH PUSH-BUTTON START. Refer to «HOW TO PROCEED WITH TROUBLESHOOTING»(ref-400655-S04853642432011051800000)
- CHECK MIL Check that the Malfunction Indicator Lamp (MIL) illuminates when turning the engine switch on (IG). OK MIL lights up. NG --> See step 2 OK --> See step 14
- CHECK CONNECTION BETWEEN TECHSTREAM AND ECM Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Check the communication between the Techstream and ECM. Result Result Proceed to Communication is possible A Communication is not possible B A --> See step 15 B: Go to next step
- CHECK MIL (THROTTLE POSITION SENSOR) Disconnect the throttle position sensor connector. Turn the engine switch on (IG). Check the MIL. Result Result Proceed to MIL illuminates A MIL does not illuminate B Reconnect the throttle position sensor connector. A --> See step 16 B: Go to next step
- CHECK MIL (ACCELERATOR PEDAL SENSOR ASSEMBLY) Disconnect the accelerator pedal sensor assembly connector. Turn the engine switch on (IG). Check the MIL. Result Result Proceed to MIL illuminates A MIL does not illuminate B Reconnect the accelerator pedal sensor assembly connector. A --> See step 17 B: Go to next step
- CHECK MIL (VVT SENSOR FOR INTAKE SIDE BANK 1) Disconnect the VVT sensor for intake side bank 1 connector. Turn the engine switch on (IG). Check the MIL. Result Result Proceed to MIL illuminates A MIL does not illuminate B Reconnect the VVT sensor for intake side bank 1 connector. B --> See step 18 A: Go to next step
- CHECK MIL (VVT SENSOR FOR INTAKE SIDE BANK 2) Disconnect the VVT sensor for intake side bank 2 connector. Turn the engine switch on (IG). Check the MIL. Result Result Proceed to MIL illuminates A MIL does not illuminate B Reconnect the VVT sensor for intake side bank 2 connector. B --> See step 19 A: Go to next step
- CHECK MIL (VVT SENSOR FOR EXHAUST SIDE BANK 1) Disconnect the VVT sensor for exhaust side bank 1 connector. Turn the engine switch on (IG). Check the MIL. Result Result Proceed to MIL illuminates A MIL does not illuminate B Reconnect the VVT sensor for exhaust side bank 1 connector. B --> See step 20 A: Go to next step
- CHECK MIL (VVT SENSOR FOR EXHAUST SIDE BANK 2) Disconnect the VVT sensor for exhaust side bank 2 connector. Turn the engine switch on (IG). Check the MIL. Result Result Proceed to MIL illuminates A MIL does not illuminate B Reconnect the VVT sensor for exhaust side bank 2 connector. B --> See step 21 A: Go to next step
- CHECK MIL (CANISTER PUMP MODULE) Disconnect the canister pump module connector. Turn the engine switch on (IG). Check the MIL. Result Result Proceed to MIL illuminates A MIL does not illuminate B Reconnect the canister pump module connector. B --> See step 22 A: Go to next step
- CHECK HARNESS AND CONNECTOR (THROTTLE POSITION SENSOR - ECM) Disconnect the throttle position sensor connector. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance Tester Connection Condition Specified Condition D1-80 (VCTA) or D28-5 (VC) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Throttle Position Sensor) *2 Front view of wire harness connector (to ECM) Reconnect the throttle position sensor connector. Reconnect the ECM connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (THROTTLE POSITION SENSOR - ECM) OK: Go to next step
- CHECK HARNESS AND CONNECTOR (ACCELERATOR PEDAL SENSOR ASSEMBLY - ECM) Disconnect the accelerator pedal sensor assembly connector. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance Tester Connection Condition Specified Condition A46-1 (VCP2) or A43-59 (VCP2) - Body ground Always 10 kohms or higher A46-4 (VCPA) or A43-57 (VCPA) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Accelerator Pedal Sensor Assembly) *2 Front view of wire harness connector (to ECM) Reconnect the accelerator pedal position sensor. Reconnect the ECM connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (ACCELERATOR PEDAL POSITION SENSOR - ECM) OK: Go to next step
- CHECK HARNESS AND CONNECTOR (VVT SENSOR FOR INTAKE SIDE BANK 2 - ECM) Disconnect the VVT sensor for intake side bank 2 connector. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance Tester Connection Condition Specified Condition D23-3 (VC) or D1-66 (VCV2) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to VVT Sensor for Intake Side Bank 2) *2 Front view of wire harness connector (to ECM) Reconnect the VVT sensor for intake side bank 2 connector. Reconnect the ECM connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (VVT SENSOR FOR INTAKE SIDE BANK 2 - ECM) OK: Go to next step
- CHECK HARNESS AND CONNECTOR (VCV1 CIRCUIT) Disconnect the VVT sensor for intake side bank 1 connector. Disconnect the VVT sensor for exhaust side bank 1 connector. Disconnect the VVT sensor for exhaust side bank 2 connector. Disconnect the canister pump module connector. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance Tester Connection Condition Specified Condition D1-67 (VCV1) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to ECM) Reconnect the canister pump module connector. Reconnect the VVT sensor for exhaust side bank 2 connector. Reconnect the VVT sensor for exhaust side bank 1 connector. Reconnect the VVT sensor for intake side bank 1 connector. Reconnect the ECM connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR OK --> See step 23
- PROCEED TO NEXT SUSPECTED AREA SHOWN IN PROBLEM SYMPTOMS TABLE. Refer to «PROBLEM SYMPTOMS TABLE»(ref-400784-S06449390312011051800000)
- GO TO MIL CIRCUIT. Refer to «MIL Circuit»(ref-400785-S04845152512011051800000)
- REPLACE THROTTLE WITH MOTOR BODY ASSEMBLY. Refer to «REMOVAL»(ref-400788-S13675110742011051800000)
- REPLACE ACCELERATOR PEDAL SENSOR ASSEMBLY. Refer to «REMOVAL»(ref-400788-S22677338542011051800000)
- REPLACE VVT SENSOR FOR INTAKE SIDE BANK 1. Refer to «REMOVAL»(ref-400788-S34785858332011051800000)
- REPLACE VVT SENSOR FOR INTAKE SIDE BANK 2. Refer to «REMOVAL»(ref-400788-S34785858332011051800000)
- REPLACE VVT SENSOR FOR EXHAUST SIDE BANK 1. Refer to «REMOVAL»(ref-400788-S34785858332011051800000)
- REPLACE VVT SENSOR FOR EXHAUST SIDE BANK 2. Refer to «REMOVAL»(ref-400788-S34785858332011051800000)
- REPLACE CHARCOAL CANISTER ASSEMBLY. Refer to «REMOVAL»(ref-400795-S11567271042011051800000)
- REPLACE ECM. Refer to «REMOVAL»(ref-400788-S10545316742011051800000)
- CHECK FUEL PUMP OPERATION Check the fuel pump operation. Refer to «ON-VEHICLE INSPECTION - Step 1»(ref-400801-S16632970622011051800000) . NG --> See step 5 OK: Go to next step
- INSPECT RELAY (F/PMP RELAY) Remove the F/PMP relay from the engine room relay block. Measure the resistance according to the value(s) in the table below. Standard Resistance Tester Connection Condition Specified Condition 3 - 4 No battery voltage applied to terminals 1 and 2 Below 1 ohms 3 - 4 Battery voltage applied to terminals 1 and 2 10 kohms or higher 3 - 5 No battery voltage applied to terminals 1 and 2 10 kohms or higher 3 - 5 Battery voltage applied to terminals 1 and 2 Below 1 ohms Reinstall the F/PMP relay. NG --> REPLACE RELAY (F/PMP RELAY) OK: Go to next step
- INSPECT FUEL PUMP RESISTOR Disconnect the fuel pump resistor connector. Measure the resistance according to the value(s) in the table below. Standard Resistance Tester Connection Condition Specified Condition 1 - 2 20°C (68°F) 0.30 to 0.34 ohms TEXT IN ILLUSTRATION *1 Component without harness connected (Fuel Pump Resistor) Reconnect the fuel pump resistor connector. NG --> See step 14 OK: Go to next step
- CHECK HARNESS AND CONNECTOR (F/PMP RELAY - FUEL PUMP RESISTOR) Remove the F/PMP relay from the engine room relay block. Disconnect the fuel pump resistor connector. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition 5 (F/PMP relay) - A15-1 Always Below 1 ohms 4 (F/PMP relay) - A15-2 Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition 5 (Fuel pump relay) or A15-1 - Body ground Always 10 kohms or higher 4 (Fuel pump relay) or A15-2 - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Fuel Pump Resistor) *2 Engine Room Relay Block Reinstall the F/PMP relay. Reconnect the fuel pump resistor connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (F/PMP RELAY - FUEL PUMP RESISTOR) OK --> See step 15
- PERFORM ACTIVE TEST USING TECHSTREAM (OPERATE CIRCUIT OPENING RELAY) Connect the Techstream to the DLC3. Turn the engine switch on (IG) and turn the Techstream on. Enter the following menus: Powertrain / Engine / Active Test / Activate the Fuel Pump Speed Control. Check the operation of the relay while operating it using the Techstream. OK Operating noise can be heard from the relay. NG --> See step 11 OK: Go to next step
- INSPECT FUEL PUMP Inspect the fuel pump. Refer to «INSPECTION»(ref-400791-S02106734512011051800000) . NG --> See step 16 OK: Go to next step
- CHECK HARNESS AND CONNECTOR (FUEL PUMP - F/PMP RELAY) Disconnect the fuel pump connector. Remove the F/PMP relay from the engine room relay block. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition P11-4 - 4 (F/PMP relay terminal) Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition P11-4 or 4 (F/PMP relay terminal) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Fuel Pump) *2 Engine Room Relay Block Reinstall the F/PMP relay. Reconnect the fuel pump connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (FUEL PUMP - F/PMP RELAY) OK: Go to next step
- INSPECT ENGINE ROOM RELAY BLOCK (C/OPN RELAY - F/PMP RELAY) Remove the C/OPN relay from the engine room relay block. Remove the F/PMP relay from the engine room relay block. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition 3 (C/OPN relay) - 2 (F/PMP relay terminal) Always Below 1 ohms 3 (C/OPN relay) - 3 (F/PMP relay terminal) Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition 3 (C/OPN relay) or 2 (F/PMP relay terminal) - Body ground Always 10 kohms or higher 3 (C/OPN relay) or 3 (F/PMP relay terminal) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Engine Room Relay Block Reinstall the C/OPN relay. Reinstall the F/PMP relay. NG --> REPLACE ENGINE ROOM RELAY BLOCK OK: Go to next step
- CHECK HARNESS AND CONNECTOR (FUEL PUMP - BODY GROUND) Disconnect the fuel pump connector. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition P11-5 - Body ground Always Below 1 ohms TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Fuel Pump) Reconnect the fuel pump connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (FUEL PUMP - BODY GROUND) OK: Go to next step
- CHECK FUEL LINE Check the fuel lines for leaks or blockage. OK No leaks or blockage NG --> REPAIR OR REPLACE FUEL LINE OK --> REPAIR OR REPLACE FUEL SYSTEM (PRESSURE REGULATOR AND FUEL FILTER)
- INSPECT RELAY (C/OPN RELAY) Remove the C/OPN relay from the engine room relay block. Measure the resistance according to the value(s) in the table below. Standard Resistance Tester Connection Condition Specified Condition 3 - 5 No battery voltage applied to terminals 1 and 2 10 kohms or higher 3 - 5 Battery voltage applied to terminals 1 and 2 Below 1 ohms Reinstall the C/OPN relay. NG --> REPLACE RELAY (C/OPN RELAY) OK: Go to next step
- CHECK HARNESS AND CONNECTOR (C/OPN RELAY VOLTAGE) Remove the C/OPN relay from the engine room relay block. Turn the engine switch on (IG). Measure the voltage according to the value(s) in the table below. Standard Voltage Tester Connection Switch Condition Specified Condition 5 (C/OPN relay terminal) - Body ground Engine switch on (IG) 11 to 14 V 1 (C/OPN relay terminal) - Body ground Engine switch on (IG) 11 to 14 V TEXT IN ILLUSTRATION *1 Engine Room Relay Block Reinstall the C/OPN relay. NG --> REPLACE ENGINE ROOM RELAY BLOCK OK: Go to next step
- CHECK HARNESS AND CONNECTOR (C/OPN RELAY - ECM) Remove the C/OPN relay from the engine room relay block. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition 2 (C/OPN relay terminal) - A43-52 (FC) Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition 2 (C/OPN relay terminal) or A43-52 (FC) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to ECM) *2 Engine Room Relay Block Reconnect the ECM connector. Reinstall the C/OPN relay. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (C/OPN RELAY - ECM) OK --> See step 17
- REPLACE FUEL PUMP RESISTOR. Refer to «REMOVAL»(ref-400791-S25843990762011051800000)
- PROCEED TO NEXT SUSPECTED AREA SHOWN IN PROBLEM SYMPTOMS TABLE. Refer to «PROBLEM SYMPTOMS TABLE»(ref-400784-S06449390312011051800000)
- REPLACE FUEL PUMP. Refer to «REMOVAL»(ref-400791-S28766966852011051800000)
- REPLACE ECM. Refer to «REMOVAL»(ref-400788-S10545316742011051800000)
- CHECK FUEL INJECTOR ASSEMBLY (POWER SOURCE) Disconnect the fuel injector assembly connector. Turn the engine switch on (IG). Measure the voltage according to the value(s) in the table below. Standard Voltage Tester Connection Switch Condition Specified Condition D13-2 - Body ground Engine switch on (IG) 11 to 14 V D14-2 - Body ground Engine switch on (IG) 11 to 14 V D15-2 - Body ground Engine switch on (IG) 11 to 14 V D16-2 - Body ground Engine switch on (IG) 11 to 14 V D17-2 - Body ground Engine switch on (IG) 11 to 14 V D18-2 - Body ground Engine switch on (IG) 11 to 14 V TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Fuel Injector Assembly) Reconnect the fuel injector assembly connector. NG --> See step 4 OK: Go to next step
- INSPECT FUEL INJECTOR ASSEMBLY Inspect the fuel injector assembly. Refer to «INSPECTION»(ref-400791-S21918100082011051800000) . NG --> See step 5 OK: Go to next step
- CHECK HARNESS AND CONNECTOR (FUEL INJECTOR ASSEMBLY - ECM) Disconnect the fuel injector assembly connector. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition D13-1 - D1-86 (#10) Always Below 1 ohms D14-1 - D1-109 (#20) Always Below 1 ohms D15-1 - D1-85 (#30) Always Below 1 ohms D16-1 - D1-108 (#40) Always Below 1 ohms D17-1 - D1-84 (#50) Always Below 1 ohms D18-1 - D1-107 (#60) Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition D13-1 or D1-86 (#10) - Body ground Always 10 kohms or higher D14-1 or D1-109 (#20) - Body ground Always 10 kohms or higher D15-1 or D1-85 (#30) - Body ground Always 10 kohms or higher D16-1 or D1-108 (#40) - Body ground Always 10 kohms or higher D17-1 or D1-84 (#50) - Body ground Always 10 kohms or higher D18-1 or D1-107 (#60) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Fuel Injector Assembly) *2 Front view of wire harness connector (to ECM) Reconnect the ECM connector. Reconnect the fuel injector assembly connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (FUEL INJECTOR ASSEMBLY - ECM) OK --> See step 6
- CHECK HARNESS AND CONNECTOR (IG2 RELAY - FUEL INJECTOR ASSEMBLY) Disconnect the fuel injector assembly connector. Remove the IG2 relay from the engine room relay block. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition D13-2 - 3 (IG2 relay terminal) Always Below 1 ohms D14-2 - 3 (IG2 relay terminal) Always Below 1 ohms D15-2 - 3 (IG2 relay terminal) Always Below 1 ohms D16-2 - 3 (IG2 relay terminal) Always Below 1 ohms D17-2 - 3 (IG2 relay terminal) Always Below 1 ohms D18-2 - 3 (IG2 relay terminal) Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition D13-2 or 3 (IG2 relay terminal) - Body ground Always 10 kohms or higher D14-2 or 3 (IG2 relay terminal) - Body ground Always 10 kohms or higher D15-2 or 3 (IG2 relay terminal) - Body ground Always 10 kohms or higher D16-2 or 3 (IG2 relay terminal) - Body ground Always 10 kohms or higher D17-2 or 3 (IG2 relay terminal) - Body ground Always 10 kohms or higher D18-2 or 3 (IG2 relay terminal) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Fuel Injector Assembly) *2 Engine Room Relay Block Reinstall the IG2 relay. Reconnect the fuel injector assembly connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (IG2 RELAY - FUEL INJECTOR ASSEMBLY) OK --> See step 7
- REPLACE FUEL INJECTOR ASSEMBLY. Refer to «REMOVAL»(ref-400791-S00216025722011051800000)
- PROCEED TO NEXT SUSPECTED AREA SHOWN IN PROBLEM SYMPTOMS TABLE. Refer to «PROBLEM SYMPTOMS TABLE»(ref-400784-S06449390312011051800000)
- CHECK ECM POWER SOURCE CIRCUIT. Refer to «ECM Power Source Circuit»(ref-400785-S01124511312011051800000)
- READ VALUE USING TECHSTREAM (STARTER SIGNAL) Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Enter the following menus: Powertrain / Engine / Data List / Starter Signal. Read the value displayed on the Techstream when the engine switch is turned on (IG) and the engine is started. OK Condition Tester Display Engine switch on (IG) OFF Engine started ON NG --> See step 2 OK --> See step 8
- CHECK ST RELAY (POWER SOURCE) Remove the ST relay from the engine room relay block. Measure the voltage according to the value(s) in the table below. Standard Voltage Tester Connection Condition Specified Condition 2 (ST relay terminal) - Body ground Engine cranking position 11 to 14 V TEXT IN ILLUSTRATION *1 Engine Room Relay Block HINT: The engine will not crank because the relay is not installed. Reinstall the ST relay. NG --> See step 3 OK --> REPAIR OR REPLACE HARNESS OR CONNECTOR (ECM - PARK/NEUTRAL POSITION SWITCH)
- CHECK HARNESS AND CONNECTOR (ST RELAY - PARK/NEUTRAL POSITION SWITCH) Remove the ST relay from the engine room relay block. Disconnect the park/neutral position switch connector. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition 1 (ST relay terminal) - D8-9 Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition 1 (ST relay terminal) or D8-9 - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Park/Neutral Position Switch) *2 Engine Room Relay Block Reinstall the ST relay. Reconnect the park/neutral position switch connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (ST RELAY - PARK/NEUTRAL POSITION SWITCH) OK: Go to next step
- INSPECT PARK/NEUTRAL POSITION SWITCH ASSEMBLY Inspect the park/neutral position switch assembly. Refer to «INSPECTION»(ref-400804-S21585830502011051800000) . NG --> See step 9 OK: Go to next step
- CHECK HARNESS AND CONNECTOR (POWER MANAGEMENT CONTROL ECU - ECM) Disconnect the power management control ECU connector. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition F7-3 (STAR) - D1-120 (NSW) Always Below 1 ohms Standard Resistance (Check for Open) Tester Connection Condition Specified Condition F7-3 (STAR) or D1-120 (NSW) - body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Power Management Control ECU) *2 Front view of wire harness connector (to ECM) Reconnect the power management control ECU connector. Reconnect the ECM connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (POWER MANAGEMENT CONTROL ECU - ECM) OK: Go to next step
- CHECK HARNESS AND CONNECTOR (PARK/NEUTRAL POSITION SWITCH - POWER MANAGEMENT CONTROL ECU) Disconnect the park/neutral position switch connector. Disconnect the power management control ECU connector. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition D8-4 - F7-3 (STAR) Always Below 1 ohms D8-9 - F7-2 (STA) Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition D8-4 or F7-3 (STAR) - Body ground Always 10 kohms or higher D8-9 or F7-2 (STA) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Park/Neutral Position Switch) *2 Front view of wire harness connector (to Power Management Control ECU) Reconnect the power management control ECU connector. Reconnect the park/neutral position switch connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (PARK/NEUTRAL POSITION SWITCH - POWER MANAGEMENT CONTROL ECU) OK: Go to next step
- CHECK HARNESS AND CONNECTOR (PARK/NEUTRAL POSITION SWITCH - ECM) Disconnect the ECM connector. Disconnect the park/neutral position switch connector. Remove the ST relay from the engine room relay block. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Short) Tester Connection Condition Specified Condition D8-9 or A43-46 (STA) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Park/Neutral Position Switch) *2 Front view of wire harness connector (to ECM) Reconnect the ECM connector. Reconnect the park/neutral position switch connector. Reinstall the ST relay. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (PARK/NEUTRAL POSITION SWITCH - ECM) OK --> See step 10
- PROCEED TO NEXT SUSPECTED AREA SHOWN IN PROBLEM SYMPTOMS TABLE. Refer to «PROBLEM SYMPTOMS TABLE»(ref-400784-S06449390312011051800000)
- REPLACE PARK/NEUTRAL POSITION SWITCH ASSEMBLY. Refer to «REMOVAL»(ref-400804-S07140278882011051800000)
- GO TO SMART ACCESS SYSTEM WITH PUSH-BUTTON START. Refer to «HOW TO PROCEED WITH TROUBLESHOOTING»(ref-400655-S04853642432011051800000)
- PERFORM ACTIVE TEST USING TECHSTREAM (ACTIVATE THE VSV FOR INTAKE CONTROL) Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Enter the following menus: Powertrain / Engine / Active Test / Activate the VSV for Intake Control. Check if operating noise can be heard when operating the intake air control valve assembly using the Techstream. OK Operating noise can be heard. NG --> See step 2 OK --> See step 5
- CHECK INTAKE AIR SURGE TANK ASSEMBLY (INTAKE AIR CONTROL VALVE ASSEMBLY OPERATION) Disconnect the intake air control valve assembly connector. Apply battery voltage between the terminals of the intake air control valve assembly connector. TEXT IN ILLUSTRATION *1 Component without harness connected (Intake Air Control Valve Assembly) Check the intake air control valve assembly operation. OK Operating noise can be heard. Reconnect the intake air control valve assembly connector. NG --> See step 6 OK: Go to next step
- CHECK HARNESS AND CONNECTOR (INTAKE AIR CONTROL VALVE ASSEMBLY VOLTAGE) Disconnect the intake air control valve assembly connector. Turn the engine switch on (IG). Measure the voltage according to the value(s) in the table below. Standard Voltage Tester Connection Switch Condition Specified Condition D5-2 - Body ground Engine switch on (IG) 11 to 14 V TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Intake Air Control Valve Assembly) Reconnect the intake air control valve assembly connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (EFI NO. 2 FUSE - INTAKE AIR CONTROL VALVE ASSEMBLY) OK: Go to next step
- CHECK HARNESS AND CONNECTOR (INTAKE AIR CONTROL VALVE ASSEMBLY - ECM) Disconnect the intake air control valve assembly connector. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition D5-1 - D1-62 (ACIS) Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition D5-1 or D1-62 (ACIS) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Intake Air Control Valve Assembly) *2 Front view of wire harness connector (to ECM) Reconnect the intake air control valve assembly connector. Reconnect the ECM connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (INTAKE AIR CONTROL VALVE ASSEMBLY - ECM) OK --> See step 7
- PROCEED TO NEXT SUSPECTED AREA SHOWN IN PROBLEM SYMPTOMS TABLE. Refer to «PROBLEM SYMPTOMS TABLE»(ref-400784-S06449390312011051800000)
- REPLACE INTAKE AIR SURGE TANK ASSEMBLY. Refer to «REMOVAL»(ref-400802-S05084489782011051800000)
- REPLACE ECM. Refer to «REMOVAL»(ref-400788-S10545316742011051800000)
- PERFORM ACTIVE TEST USING TECHSTREAM (ACTIVATE THE VSV FOR AICS) Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Enter the following menus: Powertrain / Engine / Active Test / Activate the VSV for AICS. Check the operation of the VSV when the VSV is operated using the Techstream. Standard Techstream Operation Specified Condition ON Air from port E flows out through port F OFF Air from port E flows out through the air filter NG --> See step 2 OK --> See step 6
- CHECK VACUUM SWITCHING VALVE (FOR AIR INTAKE CONTROL VALVE) Check the vacuum switching valve for air intake control valve. Refer to «ON-VEHICLE INSPECTION»(ref-400802-S24001717282011051800000) . NG --> REPLACE VACUUM SWITCHING VALVE (FOR AIR INTAKE CONTROL VALVE) OK: Go to next step
- CHECK HARNESS AND CONNECTOR (VACUUM SWITCHING VALVE FOR AIR INTAKE CONTROL VALVE) Disconnect the vacuum switching valve for air intake control valve connector. Turn the engine switch on (IG). Measure the voltage according to the value(s) in the table below. Standard Voltage Tester Connection Switch Condition Specified Condition A14-1 - Body ground Engine switch on (IG) 11 to 14 V TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Vacuum Switching Valve for Air Intake Control Valve) NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (EFI NO. 2 FUSE - VACUUM SWITCHING VALVE) OK: Go to next step
- CHECK HARNESS AND CONNECTOR (VACUUM SWITCHING VALVE FOR AIR INTAKE CONTROL VALVE - ECM) Disconnect the vacuum switching valve for air intake control valve connector. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition A14-2 - D1-61 (AICV) Always Below 1 ohms Standard Resistance (Check for Short) Tester Connection Condition Specified Condition A14-2 or D1-61 (AICV) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Vacuum Switching Valve for Air Intake Control Valve) *2 Front view of wire harness connector (to ECM) Reconnect the ECM connector. Reconnect the vacuum switching valve for air intake control valve connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (VACUUM SWITCHING VALVE FOR AIR INTAKE CONTROL VALVE - ECM) OK: Go to next step
- INSPECT AIR CLEANER CAP SUB-ASSEMBLY (VACUUM SURGE TANK) Inspect the vacuum surge tank. Refer to «ON-VEHICLE INSPECTION»(ref-400802-S08852924272011051800000) . NG --> REPAIR OR REPLACE AIR CLEANER CAP SUB-ASSEMBLY OK --> See step 7
- PROCEED TO NEXT SUSPECTED AREA SHOWN IN PROBLEM SYMPTOMS TABLE. Refer to «PROBLEM SYMPTOMS TABLE»(ref-400784-S06449390312011051800000)
- REPLACE ECM. Refer to «REMOVAL»(ref-400788-S10545316742011051800000)
- CHECK THAT MIL ILLUMINATES Turn the engine switch on (IG). Check the illumination of the MIL. Result Result Proceed to MIL remains illuminated (Even after engine switch is turned on (IG) and several seconds have passed, MIL still remains illuminated) A MIL remains off (Does not illuminate at all) B MIL illuminates for several seconds, but turns off after engine is started C C --> See step 8 B --> See step 5 A: Go to next step
- CHECK WHETHER MIL TURNS OFF Connect the Techstream to the DLC3. Turn the engine switch on (IG). Turn the Techstream on. Enter the following menus: Powertrain / Engine / Trouble Codes. Check if any DTCs have been stored. Note any DTCs. Clear the DTCs. Refer to «DTC CHECK / CLEAR»(ref-400784-S02158227972011051800000) . Check if the MIL goes off. Result Result Proceed to MIL goes off A MIL does not go off B B --> See step 3 A --> REPAIR CIRCUIT INDICATED BY OUTPUT DTC
- CHECK HARNESS AND CONNECTOR (CHECK FOR SHORT IN WIRE HARNESS) Disconnect the ECM connector. Turn the engine switch on (IG). Check if the MIL is illuminated. Result Result Proceed to MIL is not illuminated A MIL is illuminated B TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to ECM) Reconnect the ECM connector. B --> See step 4 A --> See step 9
- CHECK HARNESS AND CONNECTOR (COMBINATION METER ASSEMBLY - ECM) Disconnect the combination meter assembly connector. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance Tester Connection Condition Specified Condition F16-21 (CHK) or A43-24 (W) - Body ground Always 10 kohms or higher TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Combination Meter Assembly) *2 Front view of wire harness connector (to ECM) Reconnect the combination meter assembly connector. Reconnect the ECM connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (COMBINATION METER ASSEMBLY - ECM) OK --> See step 10
- CHECK IF ENGINE STARTS Start the engine. Result Result Proceed to Engine starts A Engine does not start* B HINT: *: The Techstream cannot communicate with the ECM. B --> See step 11 A: Go to next step
- CHECK HARNESS AND CONNECTOR (ECM TERMINAL VOLTAGE) Disconnect the ECM connector. Turn the engine switch on (IG). Measure the voltage according to the value(s) in the table below. Standard Voltage Tester Connection Switch Condition Specified Condition A43-24 (W) - Body ground Engine switch on (IG) 11 to 14 V TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to ECM) Reconnect the ECM connector. NG --> See step 7 OK --> See step 9
- CHECK HARNESS AND CONNECTOR (COMBINATION METER ASSEMBLY - ECM) Disconnect the combination meter assembly connector. Disconnect the ECM connector. Measure the resistance according to the value(s) in the table below. Standard Resistance (Check for Open) Tester Connection Condition Specified Condition F16-21 (CHK) - A43-24 (W) Always Below 1 ohms TEXT IN ILLUSTRATION *1 Front view of wire harness connector (to Combination Meter Assembly) *2 Front view of wire harness connector (to ECM) Reconnect the ECM connector. Reconnect the combination meter assembly connector. NG --> REPAIR OR REPLACE HARNESS OR CONNECTOR (COMBINATION METER ASSEMBLY - ECM) OK --> See step 12
- PROCEED TO NEXT SUSPECTED AREA SHOWN IN PROBLEM SYMPTOMS TABLE. Refer to «PROBLEM SYMPTOMS TABLE»(ref-400784-S06449390312011051800000)
- REPLACE ECM. Refer to «REMOVAL»(ref-400788-S10545316742011051800000)
- REPLACE COMBINATION METER ASSEMBLY. Refer to «REMOVAL»(ref-400807-S21743066462011051800000)
- GO TO VC OUTPUT CIRCUIT. Refer to «VC Output Circuit»(ref-400785-S01210851472011051800000)
- REPLACE COMBINATION METER ASSEMBLY. Refer to «REMOVAL»(ref-400807-S21743066462011051800000)