Contents Wiring diagrams Section: Auxiliary Emission Control Systems All sections

Fuel and Emissions Systems Acura TL IV

Auxiliary Emission Control Systems 73 illustrations ~8572 words

Scheme 98

Scheme 98: Special Tools

Intermittent Failures

The term intermittent failure means a system may have had a failure, but it checks OK now. If the malfunction indicator lamp (MIL) on the dash does not come on, check for poor connections or loose terminals at all connectors related to the circuit that you are troubleshooting. If the MIL was on but then went out, the original problem may have been intermittent.

Service Information

Periodically, new ECM/PCM software or new service procedures may become available. Always check online for the latest software or service information related to the DTCs or symptoms you are troubleshooting.

Opens and Shorts

Open and short are common electrical terms. An open is a break in a wire or at a connection. A short is an accidental connection of a wire to ground or to another wire. In simple electronics, this usually means something won't work at all. With complex electronics (such as ECMs or PCMs) this can sometimes mean something works, but not the way it's supposed to.

Scheme 99

Scheme 99: If the MIL (malfunction indicator lamp) has come on

Scheme 100

Scheme 100
  1. Start the engine, and check the MIL (A). NOTE: If the ignition switch is turned to ON (II), or press the engine start/stop button to select the ON mode, and the engine is not started, the MIL stays on for 15-20 seconds (see «MALFUNCTION INDICATOR LAMP (MIL) INDICATION (IN RELATION TO READINESS CODES)»(/acura/tl/iv-2008-2011/remont/auxiliary-emission-control-systems/#fuel-and-emissions-systems) ).
  2. If the MIL stays on, connect the HDS to the data link connector (DLC) (A) located under the driver's side of the dashboard.
  3. Turn the ignition switch to ON (II), or press the engine start/stop button to select the ON mode.
  4. Make sure the HDS communicates with the ECM/PCM and other vehicle systems. If it doesn't, go to the DLC circuit troubleshooting (see «DLC CIRCUIT TROUBLESHOOTING»(/acura/tl/iv-2008-2011/remont/testing-diagnostics/#pgm-fi-system__dlc-circuit-troubleshooting) .
  5. Check the diagnostic trouble code (DTC) and note it. Also check the freeze data and/or on-board snapshot data, and download any data found. Then refer to the «INDICATED DTC'S TROUBLESHOOTING»(/acura/tl/iv-2008-2011/remont/auxiliary-emission-control-systems/#fuel-and-emissions-systems__dtc-troubleshooting-index) , and begin the appropriate troubleshooting procedure. NOTE: Freeze data indicates the engine conditions when the first system malfunction, misfire, or fuel trim malfunction that activated the MIL was detected. The HDS can read the DTC, the freeze data, the on-board snapshot, the current data, and other engine control module (ECM) or powertrain control module (PCM) data. For specific operations, refer to the user's manual that came with the HDS.
  6. If no DTCs are found, go to the MIL circuit troubleshooting (see «MIL CIRCUIT TROUBLESHOOTING»(/acura/tl/iv-2008-2011/remont/testing-diagnostics/#pgm-fi-system) ).

If the MIL did not stay on

If the MIL did not stay on but there is a driveability problem, do the symptom troubleshooting.

If you can't duplicate the DTC

Some of the troubleshooting requires you to reset the ECM/PCM and try to duplicate the DTC. If the problem is intermittent and you can't duplicate the DTC, do not continue through the procedure. To do so will only result in confusion and possibly, a needlessly replaced ECM/PCM.

HDS Clear Command

The ECM/PCM stores various specific data to backup the system even if there is no electrical power such as when the battery negative terminal or the No. 19 BACK UP Fl ECU (7.5 A) fuse are disconnected. Stored data based on failed parts should be cleared by using the CLEAR COMMAND of the HDS, if parts are replaced.

The HDS has three kinds of clear commands to meet this purpose. They are DTC clear, ECM/PCM reset, and CKP pattern clear. The DTC clear command erases all stored DTC codes, freeze data, on-board snapshot, and readiness codes. This must be done with the HDS after reproducing the DTC during troubleshooting.

The ECM/PCM reset command erases all stored DTCs, freeze data, on-board snapshot, readiness codes, and all specific data to correct the system except CKP pattern. If the CKP pattern data in the ECM/PCM was cleared, you must do the CKP pattern learn procedure. The CKP pattern clear command erases only CKP pattern data. This command is for repair of a misfire or the CKP sensor.

Scan Tool Clear Command

If you are using a generic scan tool to clear commands, be aware that there is only one setting for clearing the ECM/PCM, and it clears all commands at the same time (CKP pattern learn, idle learn, readiness codes, freeze data, on-board snapshot, and DTCs). After you clear all commands, you then need to do these procedures, in this order: ECM/PCM idle learn procedure (see PCM IDLE LEARN PROCEDURE ); CKP pattern learn procedure; test-drive to set readiness codes to complete (see MALFUNCTION INDICATOR LAMP (MIL) INDICATION (IN RELATION TO READINESS CODES) ).

DTC Clear

  1. Clear the DTC with the HDS while the engine is stopped.
  2. Turn the ignition switch to LOCK (0), or press the engine start/stop button to select the OFF mode.
  3. Turn the ignition switch to ON (II), or press the engine start/stop button to select the ON mode, and wait 30 seconds.
  4. Turn the ignition switch to LOCK (0), or press the engine start/stop button to select the OFF mode, and disconnect the HDS from the DLC.

ECM/PCM Reset

  1. Reset the ECM/PCM with the HDS while the engine is stopped.
  2. Turn the ignition switch to LOCK (0), or press the engine start/stop button to select the OFF mode.
  3. Turn the ignition switch to ON (II), or press the engine start/stop button to select the ON mode, and wait 30 seconds.
  4. Turn the ignition switch to LOCK (0), or press the engine start/stop button to select the OFF mode, and disconnect the HDS from the DLC.
  5. Do the ECM/PCM idle learn procedure (see «PCM IDLE LEARN PROCEDURE»(/acura/tl/iv-2008-2011/remont/testing-diagnostics/#idle-control-system__pcm-idle-learn-procedure) ).

Scheme 101

Scheme 101: Clear/Learn Procedure (with the HDS)
  1. Connect the HDS to the data link connector (DLC) (A) located under the driver's side of the dashboard.
  2. Turn the ignition switch to ON (II), or press the engine start/stop button to select the ON mode.
  3. Make sure the HDS communicates with the ECM/PCM and other vehicle systems. If it doesn't, go to the DLC circuit troubleshooting (see «DLC CIRCUIT TROUBLESHOOTING»(/acura/tl/iv-2008-2011/remont/testing-diagnostics/#pgm-fi-system__dlc-circuit-troubleshooting) .
  4. Select CRANK PATTERN in the ADJUSTMENT MENU with the HDS.
  5. Select CRANK PATTERN CLEAR, and clear the CKP pattern.
  6. Select CRANK PATTERN LEARNING with the HDS, and follow the screen prompts.

Learn Procedure (without the HDS)

  1. Start the engine. Hold the engine speed at 3,000 rpm without load (A/T in P or N, M/T in neutral) until the radiator fan comes on.
  2. Test-drive the vehicle on a level road: Decelerate (with the throttle fully closed) from an engine speed of 2,500 rpm down to 1,000 rpm with the Transmission in 2nd.
  3. Repeat step 2 several times.
  4. Turn the ignition switch to LOCK (0), or press the engine start/stop button to select the OFF mode.
  5. Turn the ignition switch to ON (II), or press the engine start/stop button to select the ON mode, and wait 30 seconds.

How to End a Troubleshooting Session (required after any troubleshooting)

  1. Reset the ECM/PCM with the HDS.
  2. Do the ECM/PCM idle learn procedure (see «PCM IDLE LEARN PROCEDURE»(/acura/tl/iv-2008-2011/remont/testing-diagnostics/#idle-control-system__pcm-idle-learn-procedure) ).
  3. Turn the ignition switch to LOCK (0), or press the engine start/stop button to select the OFF mode.
  4. Disconnect the HDS from the DLC. NOTE: The ECM/PCM is part of the immobilizer system. If you replace the ECM/PCM, for the engine to start, you must use the HDS to instruct the new ECM/PCM and the immobilizer-keyless control unit to recognize each other's unique serial code.

How to Troubleshoot Circuits at the ECM/PCM Connectors

Note. The ECM/PCM overwrites data and monitors the EVAP system for about 40 minutes after the ignition switch is turned to LOCK (0), or the engine start/stop button is pressed to select the OFF mode. Jumping the SCS line after turning the ignition switch to LOCK (0), or pressing the engine start/stop button to select OFF mode cancels this function. Disconnecting the ECM/PCM during this function, without jumping the SCS line first, can damage the ECM/PCM.

Scheme 102

Scheme 102: How to Troubleshoot Circuits at the ECM/PCM Connectors

Scheme 103

Scheme 103

Scheme 104

Scheme 104

Scheme 105

Scheme 105
  1. Jump the SCS line with the HDS.
  2. Canada model: If equipped, remove the ECM/PCM connector guard (A).
  3. Disconnect ECM/PCM connectors A, B, and C. NOTE: ECM/PCM connectors A, B, and C have symbols (A=[], B= delta, C=o) embossed on them for identification.
  4. When diagnosis/troubleshooting is done at the ECM/PCM connector, use the terminal test port (A) above the terminal you need to check.
  5. Connect one side of the patch cord's terminals (A) to a commercially available digital multimeter (B), and connect the other side of the terminals (C)to a commercially available banana jack (Pomona Electronics Tool No. 3563 or equivalent) (D).
  6. Gently contact the pin probe (male) at the terminal test port from the terminal side. Do not force the tips into the terminals. NOTE: For accurate results, always use the pin probe (male). To prevent damage to the connector terminals, do not insert test equipment probes, paper clips, or other substitutes. Damaged terminals cause a poor connection and an incorrect measurement. Do not puncture the insulation on a wire. Punctures can cause poor or intermittent electrical connections.

Substituting the ECM/PCM

Special Tools Required

  1. Honda Diagnostic System (HDS) tablet tester
  2. Honda Interface Module (HIM) and an iN workstation with the latest HDS software version
  3. HDS pocket tester
  4. GNA600 and an iN workstation with the latest HDS software version

Any one of the above updating tools can be used.

Note. Use this procedure when you have to substitute a known-good ECM/PCM during the troubleshooting procedure.

Note. Make sure the HDS/iN workstation or the MVCI unit has the latest HDS software version.

Scheme 106

Scheme 106

Scheme 107

Scheme 107

Scheme 108

Scheme 108

Scheme 109

Scheme 109
  1. Connect the HDS to the data link connector (DLC) (A) located under the driver's side of the dashboard.
  2. Turn the ignition switch to ON (II), or press the engine start/stop button to select the ON mode.
  3. Make sure the HDS communicates with the ECM/PCM and other vehicle systems. If it doesn't, go to the DLC circuit troubleshooting (see «DLC CIRCUIT TROUBLESHOOTING»(/acura/tl/iv-2008-2011/remont/testing-diagnostics/#pgm-fi-system__dlc-circuit-troubleshooting) . If you are returning from DLC circuit troubleshooting, skip steps 4 and 5 , then clean the throttle body after substituting the ECM/PCM (see «THROTTLE BODY CLEANING»(/acura/tl/iv-2008-2011/remont/testing-diagnostics/#intake-air-system__throttle-body-cleaning) ).
  4. Select the INSPECTION MENU with the HDS.
  5. Select the ETCS TEST, then select the TP POSITION CHECK, and follow the screen prompts. NOTE: If the TP POSITION CHECK indicates FAILED, continue this procedure.
  6. Turn the ignition switch to LOCK (0), or press the engine start/stop button to select the OFF mode.
  7. Jump the SCS line with the HDS.
  8. Canada model: If equipped, remove the ECM/PCM connector guard (A).
  9. Disconnect ECM/PCM connectors A, B, and C, then remove the ECM/PCM assembly (D). NOTE: ECM/PCM connectors A, B, and C have symbols (A=[], B= delta, C=o) embossed on them for identification.
  10. Remove the cover (A) and the bracket (B) from the ECM/PCM (C).
  11. Install a known-good ECM/PCM in the reverse order of removal.
  12. Turn the ignition switch to ON (II), or press the engine start/stop button to select the ON mode. NOTE: DTC P0630 (VIN Not Programmed or Mismatch) may be stored because the VIN has not been programmed into the ECM/PCM; ignore it, and continue this procedure.
  13. Manually input the VIN to the ECM/PCM with the HDS.
  14. Select the IMMOBI system (without keyless access) or ONE PUSH START system (with keyless access) with the HDS.
  15. Enter the immobilizer ECM/PCM code that you got from the iN, and use the ECM/PCM replacement procedure in the IMMOBI Menu (without keyless access) or ONE PUSH START Menu (with keyless access) of the the HDS; it allows you to start the engine.
  16. Reset the ECM/PCM with the HDS.
  17. If the TP POSITION CHECK failed in step 5 , clean the throttle body (see «THROTTLE BODY CLEANING»(/acura/tl/iv-2008-2011/remont/testing-diagnostics/#intake-air-system__throttle-body-cleaning) ).
  18. Update the ECM/PCM if it does not have the latest software (see «ECM/PCM UPDATE»(/acura/tl/iv-2008-2011/remont/testing-diagnostics/#pgm-fi-system__ecmpcm-update) ).
  19. Do the ECM/PCM idle learn procedure (see «PCM IDLE LEARN PROCEDURE»(/acura/tl/iv-2008-2011/remont/testing-diagnostics/#idle-control-system__pcm-idle-learn-procedure) ).
  20. Do the CKP pattern clear/CKP pattern learn procedure.

OBD Status

The OBD status shows the current system status of each DTC and all of the parameters. This function is used to see if the repair was successfully completed. The results of diagnostic tests for the DTC are displayed as

  1. PASSED: The on board diagnosis is successfully finished.
  2. FAILED: The on board diagnosis has finished but failed.
  3. EXECUTING: The vehicle is in enable criteria conditions of the DTC, and the on board diagnosis is running.
  4. NOT COMPLETED: The on board diagnosis was running but is out of the enable conditions of the DTC.
  5. OUT OF CONDITION: The vehicle has stayed out of the enable conditions of a the DTC.

DTC Troubleshooting Index

DTC (MIL indication (1) )Two Drive Cycle DetectionDetection ItemMILNote
P0101 (50)OMass Air Flow (MAF) Sensor Circuit Range/Performance ProblemONDTC Troubleshooting (see DTC P0101: MAF SENSOR CIRCUIT RANGE/PERFORMANCE PROBLEM )
P0102 (50)Mass Air Flow (MAF) Sensor Circuit Low VoltageONDTC Troubleshooting (see DTC P0102: MAF SENSOR CIRCUIT LOW VOLTAGE )
P0103 (50)Mass Air Flow (MAF) Sensor Circuit High VoltageONDTC Troubleshooting (see DTC P0103: MAF SENSOR CIRCUIT HIGH VOLTAGE )
P0107 (3)Manifold Absolute Pressure (MAP) Sensor Circuit Low VoltageONDTC Troubleshooting (see DTC P0107: MAP SENSOR CIRCUIT LOW VOLTAGE )
P0108 (3)Manifold Absolute Pressure (MAP) Sensor Circuit High VoltageONDTC Troubleshooting (see DTC P0108: MAP SENSOR CIRCUIT HIGH VOLTAGE )
P0111 (10)OIntake Air Temperature (IAT) Sensor Circuit Range/Performance ProblemONDTC Troubleshooting (see DTC P0111: IAT SENSOR CIRCUIT RANGE/PERFORMANCE PROBLEM )
P0112 (10)OIntake Air Temperature (IAT) Sensor Circuit Low VoltageONDTC Troubleshooting (see DTC P0112: IAT SENSOR CIRCUIT LOW VOLTAGE )
P0113 (10)OIntake Air Temperature (IAT) Sensor Circuit High VoltageONDTC Troubleshooting (see DTC P0113: IAT SENSOR CIRCUIT HIGH VOLTAGE )
P0116 (86)OEngine Coolant Temperature (ECT) Sensor 1 Circuit Range/Performance ProblemONDTC Troubleshooting (see DTC P0116: ECT SENSOR 1 CIRCUIT RANGE/PERFORMANCE PROBLEM )
P0117 (6)Engine Coolant Temperature (ECT) Sensor 1 Circuit Low VoltageONDTC Troubleshooting (see DTC P0117: ECT SENSOR 1 CIRCUIT LOW VOLTAGE )
P0118 (6)Engine Coolant Temperature (ECT) Sensor 1 Circuit High VoltageONDTC Troubleshooting (see DTC P0118: ECT SENSOR 1 CIRCUIT HIGH VOLTAGE )
P0122 (7)Throttle Position (TP) Sensor A Circuit Low VoltageONDTC Troubleshooting (see DTC P0122: TP Sensor A Circuit Low Voltage )
P0123(7)Throttle Position (TP) Sensor A Circuit High VoltageONDTC Troubleshooting (see DTC P0123: TP SENSOR A CIRCUIT HIGH VOLTAGE )
P0125 (86)OEngine Coolant Temperature (ECT) Sensor 1 Malfunction/Slow ResponseONDTC Troubleshooting (see DTC P0125: ECT SENSOR 1 MALFUNCTION/SLOW RESPONSE )
P0128 (87)OCooling System MalfunctionONDTC Troubleshooting (see DTC P0128: COOLING SYSTEM MALFUNCTION )
P0133 (157)ORear Air Fuel Ratio (A/F) Sensor (Bank 1, Sensor 1) Malfunction/Slow ResponseONDTC Troubleshooting (see DTC P0133: REAR A/F SENSOR (BANK 1, SENSOR 1) MALFUNCTION/SLOW RESPONSE; DTC P0153: FRONT A/F SENSOR (BANK 2, SENSOR 1) MALFUNCTION/SLOW RESPONSE )
P0134 (151)ORear Air Fuel Ratio (A/F) Sensor (Bank 1, Sensor 1) Heater System MalfunctionONDTC Troubleshooting (see DTC P0134: REAR A/F SENSOR (BANK 1, SENSOR 1) HEATER SYSTEM MALFUNCTION; DTC P0154: FRONT A/F SENSOR (BANK 2, SENSOR 1) HEATER SYSTEM MALFUNCTION )
P0135 (151)ORear Air Fuel Ratio (A/F) Sensor (Bank 1, Sensor 1) Heater Circuit MalfunctionONDTC Troubleshooting (see DTC P0135: REAR A/F SENSOR (BANK 1, SENSOR 1) HEATER CIRCUIT MALFUNCTION; DTC P0155: FRONT A/F SENSOR (BANK 2, SENSOR 1) HEATER CIRCUIT MALFUNCTION )
P0137 (161)ORear Secondary Heated Oxygen Sensor (Secondary HO2S (Bank 1, Sensor 2)) Circuit Low VoltageONDTC Troubleshooting (see DTC P0137: REAR SECONDARY HO2S (BANK 1, SENSOR 2) CIRCUIT LOW VOLTAGE; DTC P0157: FRONT SECONDARY HO2S (BANK 2, SENSOR 2) CIRCUIT LOW VOLTAGE )
P0138 (161)ORear Secondary Heated Oxygen Sensor (Secondary HO2S (Bank 1, Sensor 2)) Circuit High VoltageONDTC Troubleshooting (see DTC P0138: REAR SECONDARY HO2S (BANK 1, SENSOR 2) CIRCUIT HIGH VOLTAGE; DTC P0158: FRONT SECONDARY HO2S (BANK 2, SENSOR 2) CIRCUIT HIGH VOLTAGE )
P0139 (161)ORear Secondary Heated Oxygen Sensor (Secondary HO2S (Bank 1, Sensor 2)) Slow ResponseONDTC Troubleshooting (see DTC P0139: REAR SECONDARY HO2S (BANK 1, SENSOR 2) SLOW RESPONSE; DTC P0159: FRONT SECONDARY HO2S (BANK 2, SENSOR 2) SLOW RESPONSE )
P0141 (163)ORear Secondary Heated Oxygen Sensor (Secondary HO2S (Bank 1, Sensor 2)) Heater Circuit MalfunctionONDTC Troubleshooting (see DTC P0141: REAR SECONDARY HO2S (BANK 1, SENSOR 2) HEATER CIRCUIT MALFUNCTION; DTC P0161: FRONT SECONDARY HO2S (BANK 2, SENSOR 2) HEATER CIRCUIT MALFUNCTION )
P0153 (158)OFront Air Fuel Ratio (A/F) Sensor (Bank 2, Sensor 1) Malfunction/Slow ResponseONDTC Troubleshooting (see DTC P0133: REAR A/F SENSOR (BANK 1, SENSOR 1) MALFUNCTION/SLOW RESPONSE; DTC P0153: FRONT A/F SENSOR (BANK 2, SENSOR 1) MALFUNCTION/SLOW RESPONSE )
P0154 (152)OFront Air Fuel Ratio (A/F) Sensor (Bank 2, Sensor 1) Heater System MalfunctionONDTC Troubleshooting (see DTC P0134: REAR A/F SENSOR (BANK 1, SENSOR 1) HEATER SYSTEM MALFUNCTION; DTC P0154: FRONT A/F SENSOR (BANK 2, SENSOR 1) HEATER SYSTEM MALFUNCTION )
P0155 (152)OFront Air Fuel Ratio (A/F) Sensor (Bank 2, Sensor 1) Heater Circuit MalfunctionONDTC Troubleshooting (see DTC P0135: REAR A/F SENSOR (BANK 1, SENSOR 1) HEATER CIRCUIT MALFUNCTION; DTC P0155: FRONT A/F SENSOR (BANK 2, SENSOR 1) HEATER CIRCUIT MALFUNCTION )
P0157 (162)OFront Secondary Heated Oxygen Sensor (Secondary HO2S (Bank 2, Sensor 2)) Circuit Low VoltageONDTC Troubleshooting (see DTC P0137: REAR SECONDARY HO2S (BANK 1, SENSOR 2) CIRCUIT LOW VOLTAGE; DTC P0157: FRONT SECONDARY HO2S (BANK 2, SENSOR 2) CIRCUIT LOW VOLTAGE )
P0158 (162)OFront Secondary Heated Oxygen Sensor (Secondary HO2S (Bank 2, Sensor 2)) Circuit High VoltageONDTC Troubleshooting (see DTC P0138: REAR SECONDARY HO2S (BANK 1, SENSOR 2) CIRCUIT HIGH VOLTAGE; DTC P0158: FRONT SECONDARY HO2S (BANK 2, SENSOR 2) CIRCUIT HIGH VOLTAGE )
P0159 (162)OFront Secondary Heated Oxygen Sensor (Secondary HO2S (Bank 2, Sensor 2)) Slow ResponseONDTC Troubleshooting (see DTC P0139: REAR SECONDARY HO2S (BANK 1, SENSOR 2) SLOW RESPONSE; DTC P0159: FRONT SECONDARY HO2S (BANK 2, SENSOR 2) SLOW RESPONSE )
P0161 (164)OFront Secondary Heated Oxygen Sensor (Secondary HO2S (Bank 2, Sensor 2)) Heater Circuit MalfunctionONDTC Troubleshooting (see DTC P0141: REAR SECONDARY HO2S (BANK 1, SENSOR 2) HEATER CIRCUIT MALFUNCTION; DTC P0161: FRONT SECONDARY HO2S (BANK 2, SENSOR 2) HEATER CIRCUIT MALFUNCTION )
P0171 (153)ORear Bank (Bank 1) Fuel System Too LeanONDTC Troubleshooting (see DTC P0171: REAR BANK (BANK 1) FUEL SYSTEM TOO LEAN; DTC P0172: REAR BANK (BANK 1) FUEL SYSTEM TOO RICH; DTC P0174: FRONT BANK (BANK 2) FUEL SYSTEM TOO LEAN; DTC P0175: FRONT BANK (BANK 2) FUEL SYSTEM TOO RICH )
P0172 (153)ORear Bank (Bank 1) Fuel System Too RichONDTC Troubleshooting (see DTC P0171: REAR BANK (BANK 1) FUEL SYSTEM TOO LEAN; DTC P0172: REAR BANK (BANK 1) FUEL SYSTEM TOO RICH; DTC P0174: FRONT BANK (BANK 2) FUEL SYSTEM TOO LEAN; DTC P0175: FRONT BANK (BANK 2) FUEL SYSTEM TOO RICH )
P0174 (154)OFront Bank (Bank 2) Fuel System Too LeanONDTC Troubleshooting (see DTC P0171: REAR BANK (BANK 1) FUEL SYSTEM TOO LEAN; DTC P0172: REAR BANK (BANK 1) FUEL SYSTEM TOO RICH; DTC P0174: FRONT BANK (BANK 2) FUEL SYSTEM TOO LEAN; DTC P0175: FRONT BANK (BANK 2) FUEL SYSTEM TOO RICH )
P0175 (154)OFront Bank (Bank 2) Fuel System Too RichONDTC Troubleshooting (see DTC P0171: REAR BANK (BANK 1) FUEL SYSTEM TOO LEAN; DTC P0172: REAR BANK (BANK 1) FUEL SYSTEM TOO RICH; DTC P0174: FRONT BANK (BANK 2) FUEL SYSTEM TOO LEAN; DTC P0175: FRONT BANK (BANK 2) FUEL SYSTEM TOO RICH )
P0222 (7)Throttle Position (TP) Sensor B Circuit Low VoltageONDTC Troubleshooting (see DTC P0222 TP SENSOR B CIRCUIT LOW VOLTAGE )
P0223 (7)Throttle Position (TP) Sensor B Circuit High VoltageONDTC Troubleshooting (see DTC P0223: TP SENSOR B CIRCUIT HIGH VOLTAGE )
P0300 (77) and any combination of the following: P0301 (71) P0302 (72) P0303 (73) P0304 (74) P0305 (75) P0306 (76)ORandom Misfire DetectedONDTC Troubleshooting (see DTC P0300: RANDOM MISFIRE AND ANY COMBINATION OF THE FOLLOWING:; DTC P0301: NO. 1 CYLINDER MISFIRE DETECTED; DTC P0302: NO. 2 CYLINDER MISFIRE DETECTED; DTC P0303: NO. 3 CYLINDER MISFIRE DETECTED; DTC P0304: NO. 4 CYLINDER MISFIRE DETECTED; DTC P0305: NO. 5 CYLINDER MISFIRE DETECTED; DTC P0306: NO. 6 CYLINDER MISFIRE DETECTED )
P0301 (71)ONo. 1 Cylinder Misfire DetectedONDTC Troubleshooting (see DTC P0301: NO. 1 CYLINDER MISFIRE DETECTED; DTC P0302: NO. 2 CYLINDER MISFIRE DETECTED; DTC P0303: NO. 3 CYLINDER MISFIRE DETECTED; DTC P0304: NO. 4 CYLINDER MISFIRE DETECTED; DTC P0305: NO. 5 CYLINDER MISFIRE DETECTED; DTC P0306: NO. 6 CYLINDER MISFIRE DETECTED )
P0302 (72)ONo. 2 Cylinder Misfire DetectedONDTC Troubleshooting (see DTC P0301: NO. 1 CYLINDER MISFIRE DETECTED; DTC P0302: NO. 2 CYLINDER MISFIRE DETECTED; DTC P0303: NO. 3 CYLINDER MISFIRE DETECTED; DTC P0304: NO. 4 CYLINDER MISFIRE DETECTED; DTC P0305: NO. 5 CYLINDER MISFIRE DETECTED; DTC P0306: NO. 6 CYLINDER MISFIRE DETECTED )
P0303 (73)ONo. 3 Cylinder Misfire DetectedONDTC Troubleshooting (see DTC P0301: NO. 1 CYLINDER MISFIRE DETECTED; DTC P0302: NO. 2 CYLINDER MISFIRE DETECTED; DTC P0303: NO. 3 CYLINDER MISFIRE DETECTED; DTC P0304: NO. 4 CYLINDER MISFIRE DETECTED; DTC P0305: NO. 5 CYLINDER MISFIRE DETECTED; DTC P0306: NO. 6 CYLINDER MISFIRE DETECTED )
P0304 (74)ONo. 4 Cylinder Misfire DetectedONDTC Troubleshooting (see DTC P0301: NO. 1 CYLINDER MISFIRE DETECTED; DTC P0302: NO. 2 CYLINDER MISFIRE DETECTED; DTC P0303: NO. 3 CYLINDER MISFIRE DETECTED; DTC P0304: NO. 4 CYLINDER MISFIRE DETECTED; DTC P0305: NO. 5 CYLINDER MISFIRE DETECTED; DTC P0306: NO. 6 CYLINDER MISFIRE DETECTED )
P0305 (75)ONo. 5 Cylinder Misfire DetectedONDTC Troubleshooting (see DTC P0301: NO. 1 CYLINDER MISFIRE DETECTED; DTC P0302: NO. 2 CYLINDER MISFIRE DETECTED; DTC P0303: NO. 3 CYLINDER MISFIRE DETECTED; DTC P0304: NO. 4 CYLINDER MISFIRE DETECTED; DTC P0305: NO. 5 CYLINDER MISFIRE DETECTED; DTC P0306: NO. 6 CYLINDER MISFIRE DETECTED )
P0306 (76)ONo. 6 Cylinder Misfire DetectedONDTC Troubleshooting (see DTC P0301: NO. 1 CYLINDER MISFIRE DETECTED; DTC P0302: NO. 2 CYLINDER MISFIRE DETECTED; DTC P0303: NO. 3 CYLINDER MISFIRE DETECTED; DTC P0304: NO. 4 CYLINDER MISFIRE DETECTED; DTC P0305: NO. 5 CYLINDER MISFIRE DETECTED; DTC P0306: NO. 6 CYLINDER MISFIRE DETECTED )
P0325 (23)Knock Sensor Circuit MalfunctionONDTC Troubleshooting (see DTC P0325: KNOCK SENSOR CIRCUIT MALFUNCTION )
P0335 (4)Crankshaft Position (CKP) Sensor No SignalONDTC Troubleshooting (see DTC P0335: CKP SENSOR NO SIGNAL )
P0339 (4)Crankshaft Position (CKP) Sensor Circuit Intermittent InterruptionONDTC Troubleshooting (see DTC P0339: CKP SENSOR CIRCUIT INTERMITTENT INTERRUPTION )
P0351 (71)No. 1 Cylinder Ignition Coil Circuit MalfunctionONDTC Troubleshooting (see DTC P0351: NO. 1 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0352: NO. 2 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0353: NO. 3 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0354: NO. 4 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0355: NO. 5 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0356: NO. 6 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION )
P0352 (72)No. 2 Cylinder Ignition Coil Circuit MalfunctionONDTC Troubleshooting (see DTC P0351: NO. 1 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0352: NO. 2 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0353: NO. 3 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0354: NO. 4 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0355: NO. 5 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0356: NO. 6 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION )
P0353 (73)No. 3 Cylinder Ignition Coil Circuit MalfunctionONDTC Troubleshooting (see DTC P0351: NO. 1 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0352: NO. 2 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0353: NO. 3 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0354: NO. 4 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0355: NO. 5 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0356: NO. 6 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION )
P0354 (74)No. 4 Cylinder Ignition Coil Circuit MalfunctionONDTC Troubleshooting (see DTC P0351: NO. 1 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0352: NO. 2 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0353: NO. 3 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0354: NO. 4 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0355: NO. 5 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0356: NO. 6 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION )
P0355 (75)No. 5 Cylinder Ignition Coil Circuit MalfunctionONDTC Troubleshooting (see DTC P0351: NO. 1 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0352: NO. 2 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0353: NO. 3 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0354: NO. 4 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0355: NO. 5 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0356: NO. 6 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION )
P0356 (76)No. 6 Cylinder Ignition Coil Circuit MalfunctionONDTC Troubleshooting (see DTC P0351: NO. 1 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0352: NO. 2 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0353: NO. 3 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0354: NO. 4 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0355: NO. 5 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0356: NO. 6 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION )
P0365 (8)Camshaft Position (CMP) Sensor Circuit No SignalONDTC Troubleshooting (see DTC P0365: CMP SENSOR CIRCUIT NO SIGNAL )
P0369 (8)Camshaft Position (CMP) Sensor Circuit Intermittent InterruptionONDTC Troubleshooting (see DTC P0369: CMP SENSOR CIRCUIT INTERMITTENT INTERRUPTION )
P0400 (80)OExhaust Gas Recirculation (EGR) System Leak DetectedONDTC Troubleshooting (see DTC P0400: EGR SYSTEM LEAK DETECTED )
P0401 (80)OExhaust Gas Recirculation (EGR) Insufficient FlowONDTC Troubleshooting (see DTC P0401: EGR INSUFFICIENT FLOW )
P0404(12)OExhaust Gas Recirculation (EGR) Valve Circuit Range/Performance ProblemONDTC Troubleshooting (see DTC P0404: EGR CIRCUIT RANGE/PERFORMANCE PROBLEM )
P0406 (12)OExhaust Gas Recirculation (EGR) Valve Position Sensor Circuit High VoltageONDTC Troubleshooting (see DTC P0406: EGR VALVE POSITION SENSOR CIRCUIT HIGH VOLTAGE )
P0420 (165)ORear Bank Catalyst System Efficiency Below Threshold (Bank 1)ONDTC Troubleshooting (see DTC P0420: REAR BANK CATALYST SYSTEM EFFICIENCY BELOW THRESHOLD (BANK 1) )
P0430 (166)OFront Bank Catalyst System Efficiency Below Threshold (Bank 2)ONDTC Troubleshooting (see P0430: FRONT BANK CATALYST SYSTEM EFFICIENCY BELOW THRESHOLD (BANK 2) )
P0443 (92)OEvaporative Emission (EVAP) Canister Purge Valve Circuit MalfunctionONDTC Troubleshooting (see DTC P0443: EVAP CANISTER PURGE VALVE CIRCUIT MALFUNCTION )
P0451 (91)OFuel Tank Pressure (FTP) Sensor Circuit Range/Performance ProblemONDTC Troubleshooting (see DTC P0451: FTP SENSOR CIRCUIT RANGE/PERFORMANCE PROBLEM )
P0452 (91)OFuel Tank Pressure (FTP) Sensor Circuit Low VoltageONDTC Troubleshooting (see DTC P0452: FTP SENSOR CIRCUIT LOW VOLTAGE )
P0453 (91)OFuel Tank Pressure (FTP) Sensor Circuit High VoltageONDTC Troubleshooting (see DTC P0453: FTP SENSOR CIRCUIT HIGH VOLTAGE )
P0455 (90)OEvaporative Emission (EVAP) System Large Leak DetectedONDTC Troubleshooting (see DTC P0455: EVAP SYSTEM LARGE LEAK DETECTED )
P0456 (90)OEvaporative Emission (EVAP) System Very Small Leak DetectedONDTC Troubleshooting (see DTC P0456: EVAP SYSTEM VERY SMALL LEAK DETECTED )
P0457Evaporative Emission (EVAP) System Leak Detected/Fuel Fill Cap Loose or MissingOFFDTC Troubleshooting (see DTC P0457: EVAP SYSTEM LEAK DETECTED/FUEL FILL CAP LOOSE OR MISSING )
P0461OFuel Level Sensor (Fuel Gauge Sending Unit) Circuit Range/Performance ProblemOFFDTC Troubleshooting (see DTC P0461: FUEL LEVEL SENSOR (FUEL GAUGE SENDING UNIT) CIRCUIT RANGE/PERFORMANCE PROBLEM )
P0462 (2)OFuel Level Sensor (Fuel Gauge Sending Unit) Circuit Low VoltageOFFDTC Troubleshooting (see DTC P0462: FUEL LEVEL SENSOR (FUEL GAUGE SENDING UNIT) CIRCUIT LOW VOLTAGE (WITHOUT SH-AWD) )
P0462 (3)OFuel Level Sensor (Fuel Gauge Sending Unit) Circuit Low VoltageOFFDTC Troubleshooting (see DTC P0462: FUEL LEVEL SENSOR (FUEL GAUGE SENDING UNIT) CIRCUIT LOW VOLTAGE (WITH SH-AWD) )
P0463 (2)OFuel Level Sensor (Fuel Gauge Sending Unit) Circuit High VoltageOFFDTC Troubleshooting (see DTC P0463: FUEL LEVEL SENSOR (FUEL GAUGE SENDING UNIT) CIRCUIT HIGH VOLTAGE (WITHOUT SH-AWD) )
P0463 (3)OFuel Level Sensor (Fuel Gauge Sending Unit) Circuit High VoltageOFFDTC Troubleshooting (see DTC P0463: FUEL LEVEL SENSOR (FUEL GAUGE SENDING UNIT) CIRCUIT HIGH VOLTAGE (WITH SH-AWD) )
P0496 (92)OEvaporative Emission (EVAP) System High Purge Flow DetectedONDTC Troubleshooting (see DTC P0496: EVAP SYSTEM HIGH PURGE FLOW DETECTED )
P0497 (90) (2)OEvaporative Emission (EVAP) System Low Purge Flow DetectedONDTC Troubleshooting (see DTC P0497: EVAP SYSTEM LOW PURGE FLOW DETECTED (WITHOUT SH-AWD) )
P0497 (90) (3)OEvaporative Emission (EVAP) System Low Purge Flow DetectedONDTC Troubleshooting (see DTC P0497: EVAP SYSTEM LOW PURGE FLOW DETECTED (WITH SH-AWD) )
P0498 (117)OEvaporative Emission (EVAP) Canister Vent Shut Valve Circuit Low VoltageONDTC Troubleshooting (see DTC P0498: EVAP CANISTER VENT SHUT VALVE CIRCUIT LOW VOLTAGE )
P0499 (117)OEvaporative Emission (EVAP) Canister Vent Shut Valve Circuit High VoltageONDTC Troubleshooting (see DTC P0499: EVAP CANISTER VENT SHUT VALVE CIRCUIT HIGH VOLTAGE )
P0506 (14)OIdle Control System RPM Lower than ExpectedONDTC Troubleshooting (see DTC P0506: IDLE CONTROL SYSTEM RPM LOWER THAN EXPECTED )
P0507 (14)OIdle Control System RPM Higher than ExpectedONDTC Troubleshooting (see DTC P0507: IDLE CONTROL SYSTEM RPM HIGHER THAN EXPECTED )
P050A (167)OCold Start Idle Air Control System Performance ProblemONDTC Troubleshooting (see DTC P050A: COLD START IDLE AIR CONTROL SYSTEM PERFORMANCE PROBLEM )
P050B (167)OCold Start Ignition Timing Control System Performance ProblemONDTC Troubleshooting (see DTC P050B: COLD START IGNITION TIMING CONTROL SYSTEM PERFORMANCE PROBLEM )
P0560 (34)Engine Control Module (ECM)/Powertrain Control Module (PCM) Power Source Circuit Unexpected VoltageONDTC Troubleshooting (see DTC P0560: PCM POWER SOURCE CIRCUIT UNEXPECTED VOLTAGE )
P0562Charging System Low VoltageOFFDTC Troubleshooting (see DTC P0562: CHARGING SYSTEM LOW VOLTAGE )
P0563OEngine Control Module (ECM)/Powertrain Control Module (PCM) Power Source Circuit Unexpected VoltageOFFDTC Troubleshooting (see DTC P0563: ECM/PCM POWER SOURCE CIRCUIT UNEXPECTED VOLTAGE )
P0602 (196)Engine Control Module (ECM)/Powertrain Control Module (PCM) Programming ErrorONDTC Troubleshooting (see DTC P0602: ECM/PCM PROGRAMMING ERROR )
P060A (131)Engine Control Module (ECM)/Powertrain Control Module (PCM) Internal Control Module MalfunctionONDTC Troubleshooting (see DTC P060A: ECM/PCM INTERNAL CONTROL MODULE MALFUNCTION )
P0615 (4)Starter Cut Relay STRLD Circuit MalfunctionOFFDTC Troubleshooting (see DTC P0615: STARTER CUT RELAY STR LD CIRCUIT MALFUNCTION (M/T) )
P0615 (5)Starter Cut Relay STRLD Circuit MalfunctionOFFDTC Troubleshooting (see DTC P0615: STARTER CUT RELAY STR LD CIRCUIT MALFUNCTION (A/T) )
P0627 (169) (6)Fuel Pump Control Module System MalfunctionONDTC Troubleshooting (see DTC P0627: FUEL PUMP CONTROL MODULE SYSTEM MALFUNCTION )
P062F (131)Engine Control Module (ECM)/Powertrain Control Module (PCM) Internal Control Module Keep Alive Memory (KAM) ErrorONDTC Troubleshooting (see DTC P062F: ECM/PCM INTERNAL CONTROL MODULE KEEP ALIVE MEMORY (KAM) ERROR )
P0630 (139)VIN Not Programmed or MismatchONDTC Troubleshooting (see DTC P0630: VIN NOT PROGRAMMED OR MISMATCH )
P0641 (133)Sensor Reference Voltage A MalfunctionONDTC Troubleshooting (see DTC P0641: SENSOR REFERENCE VOLTAGE A MALFUNCTION )
P0651 (134)Sensor Reference Voltage B MalfunctionONDTC Troubleshooting (see DTC P0651: SENSOR REFERENCE VOLTAGE B MALFUNCTION )
P0685 (135)OEngine Control Module (ECM)/Powertrain Control Module (PCM) Power Control Circuit/Internal Circuit MalfunctionONDTC Troubleshooting (see DTC P0685: ECM/PCM POWER CONTROL CIRCUIT/INTERNAL CIRCUIT MALFUNCTION )
P0715 (4)OInput Shaft (Mainshaft) Speed Sensor Circuit MalfunctionOFFDTC Troubleshooting (see DTC P0715: INPUT SHAFT (MAINSHAFT) SPEED SENSOR CIRCUIT MALFUNCTION )
P0720 (122) (4)OOutput Shaft (Countershaft) Speed Sensor Circuit MalfunctionONDTC Troubleshooting (see DTC P0720: OUTPUT SHAFT (COUNTERSHAFT) SPEED SENSOR CIRCUIT MALFUNCTION )
P0831 (4)Clutch Pedal Position Switch A Circuit High VoltageOFFDTC Troubleshooting (see DTC P0831: CLUTCH PEDAL POSITION SWITCH A CIRCUIT HIGH VOLTAGE )
P0835 (4)OClutch Pedal Position Switch B Circuit Low VoltageOFFDTC Troubleshooting (see DTC P0835: CLUTCH PEDAL POSITION SWITCH B CIRCUIT LOW VOLTAGE )
P1077 (106)OIntake Manifold Tuning (IMT) Valve Stuck in High RPM PositionONDTC Troubleshooting (see DTC P1077: IMT VALVE STUCK IN HIGH RPM POSITION )
P1078 (106)OIntake Manifold Tuning (IMT) Valve Stuck in Low RPM PositionONDTC Troubleshooting (see DTC P1078: IMT VALVE STUCK IN LOW RPM POSITION )
P1116 (86)OEngine Coolant Temperature (ECT) Sensor 1 Circuit Range/Performance ProblemONDTC Troubleshooting (see DTC P1116: ECT SENSOR 1 CIRCUIT RANGE/PERFORMANCE PROBLEM )
P1128 (5)OManifold Absolute Pressure (MAP) Sensor Signal Lower Than ExpectedONDTC Troubleshooting (see DTC P1128: MAP SENSOR SIGNAL LOWER THAN EXPECTED )
P1129 (5)OManifold Absolute Pressure (MAP) Sensor Signal Higher Than ExpectedONDTC Troubleshooting (see DTC P1129: MAP SENSOR SIGNAL HIGHER THAN EXPECTED )
P1172 (157)ORear Air Fuel Ratio (A/F) Sensor (Bank 1, Sensor 1) Circuit Out of Range HighONDTC Troubleshooting (see DTC P1172: REAR A/F SENSOR (BANK 1, SENSOR 1) CIRCUIT OUT OF RANGE HIGH )
P1174 (158)OFront Air Fuel Ratio (A/F) Sensor (Bank 2, Sensor 1) Circuit Out of Range HighONDTC Troubleshooting (see DTC P1174: FRONT A/F SENSOR (BANK 2, SENSOR 1) CIRCUIT OUT OF RANGE HIGH )
P1297OElectrical Load Detector (ELD) Circuit Low VoltageOFFDTC Troubleshooting (see DTC P1297: ELD CIRCUIT LOW VOLTAGE )
P1298OElectrical Load Detector (ELD) Circuit High VoltageOFFDTC Troubleshooting (see DTC P1298: ELD CIRCUIT HIGH VOLTAGE )
P1454 (91)OFuel Tank Pressure (FTP) Sensor Circuit Range/Performance ProblemONDTC Troubleshooting (see DTC P1454: FTP SENSOR CIRCUIT RANGE/PERFORMANCE PROBLEM )
P145C (90)OEvaporative Emission (EVAP) System Purge Flow MalfunctionONDTC Troubleshooting (see DTC P145C: EVAP SYSTEM PURGE FLOW MALFUNCTION )
P1549Charging System High VoltageOFFDTC Troubleshooting (see DTC P1549: CHARGING SYSTEM HIGH VOLTAGE )
P1658 (40)Electronic Throttle Control System (ETCS) Control Relay ON MalfunctionONDTC Troubleshooting (see DTC P1658: ETCS CONTROL RELAY ON MALFUNCTION )
P1659 (40)Electronic Throttle Control System (ETCS) Control Relay OFF MalfunctionONDTC Troubleshooting (see DTC P1659: ETCS CONTROL RELAY OFF MALFUNCTION )
P1683 (40)Throttle Valve Default Position Spring Performance ProblemONDTC Troubleshooting (see DTC P1683: THROTTLE VALVE DEFAULT POSITION SPRING PERFORMANCE PROBLEM )
P1684 (40)Throttle Valve Return Spring Performance ProblemONDTC Troubleshooting (see DTC P1684: THROTTLE VALVE RETURN SPRING PERFORMANCE PROBLEM )
P16BBAlternator B Terminal Circuit Low VoltageOFFDTC Troubleshooting (see DTC P16BB: ALTERNATOR B TERMINAL CIRCUIT LOW VOLTAGE )
P16BCAlternator FR Terminal Circuit/IGP Circuit Low VoltageOFFDTC Troubleshooting (see DTC P16BC: ALTERNATOR FR TERMINAL CIRCUIT/IGP CIRCUIT LOW VOLTAGE )
P16BD (4)Starter Cut Relay 2 MalfunctionOFFDTC Troubleshooting (see DTC P16BD: STARTER CUT RELAY 2 MALFUNCTION (M/T) )
P16BD (5)Starter Cut Relay 2 MalfunctionOFFDTC Troubleshooting (see DTC P16BD: STARTER CUT RELAY 2 MALFUNCTION (A/T) )
P16BE (4)Starter Cut Relay 1 MalfunctionOFFDTC Troubleshooting (see DTC P16BE: STARTER CUT RELAY 1 MALFUNCTION (M/T) )
P16BE (5)Starter Cut Relay 1 MalfunctionOFFDTC Troubleshooting (see DTC P16BE: STARTER CUT RELAY 1 MALFUNCTION (A/T) )
P16BF (4)Starter Cut Relay STRLY Circuit MalfunctionOFFDTC Troubleshooting (see DTC P16BF: STARTER CUT RELAY STRLY CIRCUIT MALFUNCTION (M/T) )
P16BF (5)Starter Cut Relay STRLY Circuit MalfunctionOFFDTC Troubleshooting (see DTC P16BF: STARTER CUT RELAY STRLY CIRCUIT MALFUNCTION (A/T) )
P16E1 (4)+ B Cut Relay Circuit MalfunctionOFFDTC Troubleshooting (see DTC P16E1: +B CUT RELAY CIRCUIT MALFUNCTION )
P2101 (40)Electronic Throttle Control System (ETCS) MalfunctionONDTC Troubleshooting (see DTC P2101: ETCS MALFUNCTION )
P2118 (40)Throttle Actuator Current Range/Performance ProblemONDTC Troubleshooting (see DTC P2118: THROTTLE ACTUATOR CURRENT RANGE/PERFORMANCE PROBLEM )
P2122 (37)Accelerator Pedal Position (APP) Sensor A (Throttle Position (TP) Sensor D) Circuit Low VoltageONDTC Troubleshooting (see DTC P2122: APP SENSOR A (TP SENSOR D) CIRCUIT LOW VOLTAGE )
P2123(37)Accelerator Pedal Position (APP) Sensor A (Throttle Position (TP) Sensor D) Circuit High VoltageONDTC Troubleshooting (see DTC P2123: APP SENSOR A (TP SENSOR D) CIRCUIT HIGH VOLTAGE )
P2127 (37)Accelerator Pedal Position (APP) Sensor B (Throttle Position (TP) Sensor E) Circuit Low VoltageONDTC Troubleshooting (see DTC P2127: APP SENSOR B (TP SENSOR E) CIRCUIT LOW VOLTAGE )
P2128 (37)Accelerator Pedal Position (APP) Sensor B (Throttle Position (TP) Sensor E) Circuit High VoltageONDTC Troubleshooting (see DTC P2128: APP SENSOR B (TP SENSOR E) CIRCUIT HIGH VOLTAGE )
P2135 (7)Throttle Position (TP) Sensor A/B Incorrect Voltage CorrelationONDTC Troubleshooting (see DTC P2135: TP SENSOR A/B INCORRECT VOLTAGE CORRELATION )
P2138 (37)Accelerator Pedal Position (APP) Sensor A/B (Throttle Position (TP) Sensor D/E) Incorrect Voltage CorrelationONDTC Troubleshooting (see DTC P2138: APP SENSOR A/B (TP SENSOR D/E) INCORRECT VOLTAGE CORRELATION )
P2176 (40)Throttle Actuator Control System Idle Position Not LearnedONDTC Troubleshooting (see DTC P2176: THROTTLE ACTUATOR CONTROL SYSTEM IDLE POSITION NOT LEARNED )
P2183 (192)OEngine Coolant Temperature (ECT) Sensor 2 Circuit Range/Performance ProblemONDTC Troubleshooting (see DTC P2183: ECT SENSOR 2 CIRCUIT RANGE/PERFORMANCE PROBLEM )
P2184 (192)Engine Coolant Temperature (ECT) Sensor 2 Circuit Low VoltageONDTC Troubleshooting (see DTC P2184: ECT SENSOR 2 CIRCUIT LOW VOLTAGE )
P2185 (192)Engine Coolant Temperature (ECT) Sensor 2 Circuit High VoltageONDTC Troubleshooting (see DTC P2185: ECT SENSOR 2 CIRCUIT HIGH VOLTAGE )
P2195 (155)ORear Air Fuel Ratio (A/F) Sensor (Bank 1, Sensor 1) Signal Stuck LeanONDTC Troubleshooting (see DTC P2195: REAR A/F SENSOR (BANK 1, SENSOR 1) SIGNAL STUCK LEAN; DTC P2197: FRONT A/F SENSOR (BANK 2, SENSOR 1) SIGNAL STUCK LEAN )
P2197 (156)OFront Air Fuel Ratio (A/F) Sensor (Bank 2, Sensor 1) Signal Stuck LeanONDTC Troubleshooting (see DTC P2195: REAR A/F SENSOR (BANK 1, SENSOR 1) SIGNAL STUCK LEAN; DTC P2197: FRONT A/F SENSOR (BANK 2, SENSOR 1) SIGNAL STUCK LEAN )
P2227 (13)OBarometric Pressure (BARO) Sensor Circuit Range/Performance ProblemONDTC Troubleshooting (see DTC P2227: BARO SENSOR CIRCUIT RANGE/PERFORMANCE PROBLEM )
P2228 (13)OBarometric Pressure (BARO) Sensor Circuit Low VoltageONDTC Troubleshooting (see DTC P2228: BARO SENSOR CIRCUIT LOW VOLTAGE )
P2229 (13)OBarometric Pressure (BARO) Sensor Circuit High VoltageONDTC Troubleshooting (see DTC P2228: BARO SENSOR CIRCUIT LOW VOLTAGE )
P2237 (155)ORear Air Fuel Ratio (A/F) Sensor (Bank 1, Sensor 1) IP Circuit High VoltageONDTC Troubleshooting (see DTC P2237: REAR A/F SENSOR (BANK 1, SENSOR 1) IP CIRCUIT HIGH VOLTAGE; DTC P2240: FRONT A/F SENSOR (BANK 2, SENSOR 1) IP CIRCUIT HIGH VOLTAGE )
P2238 (155)ORear Air Fuel Ratio (A/F) Sensor (Bank 1, Sensor 1) IP Circuit Low VoltageONDTC Troubleshooting (see DTC P2238: REAR A/F SENSOR (BANK 1, SENSOR 1) IP CIRCUIT LOW VOLTAGE; DTC P2241: FRONT A/F SENSOR (BANK 2, SENSOR 1) IP CIRCUIT LOW VOLTAGE )
P2240 (156)OFront Air Fuel Ratio (A/F) Sensor (Bank 2, Sensor 1) IP Circuit High VoltageONDTC Troubleshooting (see DTC P2237: REAR A/F SENSOR (BANK 1, SENSOR 1) IP CIRCUIT HIGH VOLTAGE; DTC P2240: FRONT A/F SENSOR (BANK 2, SENSOR 1) IP CIRCUIT HIGH VOLTAGE )
P2241 (156)OFront Air Fuel Ratio (A/F) Sensor (Bank 2, Sensor 1) IP Circuit Low VoltageONDTC Troubleshooting (see DTC P2238: REAR A/F SENSOR (BANK 1, SENSOR 1) IP CIRCUIT LOW VOLTAGE; DTC P2241: FRONT A/F SENSOR (BANK 2, SENSOR 1) IP CIRCUIT LOW VOLTAGE )
P2243 (155)ORear Air Fuel Ratio (A/F) Sensor (Bank 1, Sensor 1) VCENT Circuit High VoltageONDTC Troubleshooting (see DTC P2243: REAR A/F SENSOR (BANK 1, SENSOR 1) VCENT CIRCUIT HIGH VOLTAGE; DTC P2247: FRONT A/F SENSOR (BANK 2, SENSOR 1) VCENT CIRCUIT HIGH VOLTAGE )
P2245 (155)ORear Air Fuel Ratio (A/F) Sensor (Bank 1, Sensor 1) VCENT Circuit Low VoltageONDTC Troubleshooting (see DTC P2245: REAR A/F SENSOR (BANK 1, SENSOR 1) VCENT CIRCUIT LOW VOLTAGE; DTC P2249: FRONT A/F SENSOR (BANK 2, SENSOR 1) VCENT CIRCUIT LOW VOLTAGE )
P2247 (156)OFront Air Fuel Ratio (A/F) Sensor (Bank 2, Sensor 1) VCENT Circuit High VoltageONDTC Troubleshooting (see DTC P2243: REAR A/F SENSOR (BANK 1, SENSOR 1) VCENT CIRCUIT HIGH VOLTAGE; DTC P2247: FRONT A/F SENSOR (BANK 2, SENSOR 1) VCENT CIRCUIT HIGH VOLTAGE )
P2249 (156)OFront Air Fuel Ratio (A/F) Sensor (Bank 2, Sensor 1) VCENT Circuit Low VoltageONDTC Troubleshooting (see DTC P2245: REAR A/F SENSOR (BANK 1, SENSOR 1) VCENT CIRCUIT LOW VOLTAGE; DTC P2249: FRONT A/F SENSOR (BANK 2, SENSOR 1) VCENT CIRCUIT LOW VOLTAGE )
P2251 (155)ORear Air Fuel Ratio (A/F) Sensor (Bank 1, Sensor 1) VS Circuit High VoltageONDTC Troubleshooting (see DTC P2251: REAR A/F SENSOR (BANK 1, SENSOR 1) VS CIRCUIT HIGH VOLTAGE; DTC P2254: FRONT A/F SENSOR (BANK 2, SENSOR 1) VS CIRCUIT HIGH VOLTAGE )
P2252 (155)ORear Air Fuel Ratio (A/F) Sensor (Bank 1, Sensor 1) VS Circuit Low VoltageONDTC Troubleshooting (see DTC P2252: REAR A/F SENSOR (BANK 1, SENSOR 1) VS CIRCUIT LOW VOLTAGE; DTC P2255: FRONT A/F SENSOR (BANK 2, SENSOR 1) VS CIRCUIT LOW VOLTAGE )
P2254 (156)OFront Air Fuel Ratio (A/F) Sensor (Bank 2, Sensor 1) VS Circuit High VoltageONDTC Troubleshooting (see DTC P2251: REAR A/F SENSOR (BANK 1, SENSOR 1) VS CIRCUIT HIGH VOLTAGE; DTC P2254: FRONT A/F SENSOR (BANK 2, SENSOR 1) VS CIRCUIT HIGH VOLTAGE )
P2255 (156)OFront Air Fuel Ratio (A/F) Sensor (Bank 2, Sensor 1) VS Circuit Low VoltageONDTC Troubleshooting (see DTC P2252: REAR A/F SENSOR (BANK 1, SENSOR 1) VS CIRCUIT LOW VOLTAGE; DTC P2255: FRONT A/F SENSOR (BANK 2, SENSOR 1) VS CIRCUIT LOW VOLTAGE )
P2279 (109)OIntake Air System LeakONDTC Troubleshooting (see DTC P2279: INTAKE AIR SYSTEM LEAK )
P2413 (12)OExhaust Gas Recirculation (EGR) System MalfunctionONDTC Troubleshooting (see DTC P2413: EGR SYSTEM MALFUNCTION )
P2422 (117)OEvaporative Emission (EVAP) Canister Vent Shut Valve Stuck Closed MalfunctionONDTC Troubleshooting (see DTC P2422: EVAP CANISTER VENT SHUT VALVE STUCK CLOSED MALFUNCTION )
P2610 (132)Engine Control Module (ECM)/Powertrain Control Module (PCM) Ignition Off Internal Timer MalfunctionONDTC Troubleshooting (see DTC P2610: ECM/PCM IGNITION OFF INTERNAL TIMER MALFUNCTION )
P2646 (22)Rocker Arm Oil Pressure Switch Circuit Low VoltageONDTC Troubleshooting (see DTC P2646: ROCKER ARM OIL PRESSURE SWITCH CIRCUIT LOW VOLTAGE )
P2647 (22)Rocker Arm Oil Pressure Switch Circuit High VoltageONDTC Troubleshooting (see DTC P2647: ROCKER ARM OIL PRESSURE SWITCH CIRCUIT HIGH VOLTAGE )
P2648 (21)Rocker Arm Oil Control Solenoid Circuit Low VoltageONDTC Troubleshooting (see DTC P2648: ROCKER ARM OIL CONTROL SOLENOID CIRCUIT LOW VOLTAGE )
P2649 (21)Rocker Arm Oil Control Solenoid Circuit High VoltageONDTC Troubleshooting (see DTC P2649: ROCKER ARM OIL CONTROL SOLENOID CIRCUIT HIGH VOLTAGE )
P2A00 (157)ORear Air Fuel Ratio (A/F) Sensor (Bank 1, Sensor 1) Circuit Range/Performance ProblemONDTC Troubleshooting (see DTC P2610: ECM/PCM IGNITION OFF INTERNAL TIMER MALFUNCTION )
P2A03 (158)OFront Air Fuel Ratio (A/F) Sensor (Bank 2, Sensor 1) Circuit Range/Performance ProblemONDTC Troubleshooting (see DTC P2610: ECM/PCM IGNITION OFF INTERNAL TIMER MALFUNCTION )
U0029 (126)F-CAN Malfunction (BUS-OFF (Engine Control Module (ECM)/Powertrain Control Module (PCM)))ONDTC Troubleshooting (see DTC U0029: F-CAN MALFUNCTION (BUS-OFF (ECM/PCM)) )
U0114 (3)F-CAN Malfunction (Engine Control Module (ECM)/Powertrain Control Module (PCM)-SH-AWD Control Unit)OFFDTC Troubleshooting (see DTC U0114: F-CAN MALFUNCTION (ECM/PCM-SH-AWD CONTROL UNIT) )
U0122F-CAN Malfunction (Engine Control Module (ECM)/Powertrain Control Module (PCM)-VSA Modulator-Control Unit)OFFDTC Troubleshooting (see DTC U0122: F-CAN MALFUNCTION (ECM/PCM-VSA MODULATOR-CONTROL UNIT) )
U0131F-CAN Malfunction (Engine Control Module (ECM)/Powertrain Control Module (PCM)-EPS Control Unit)OFFDTC Troubleshooting (see DTC U0131: F-CAN MALFUNCTION (ECM/PCM-EPS CONTROL UNIT) )
U0155 (126)F-CAN Malfunction (Engine Control Module (ECM)/Powertrain Control Module (PCM)-Gauge Control Module)ONDTC Troubleshooting (see DTC U0155: F-CAN MALFUNCTION (ECM/PCM-GAUGE CONTROL MODULE) )
NOTE: The above DTCs are indicated when the PGM-FI system is selected with the HDS. Some automatic transmission DTCs cause the MIL to come on. If the MIL is on and no DTCs are indicated in the PGM-FI system, select the A/T system, and check for automatic transmission DTCs.
(1) These DTCs are indicated by a blinking MIL when the SCS line is jumped with the HDS. Some DTCs do not cause the MIL to blink when the SCS line is jumped. The last four characters of these DTCs are shown in the gauge display. (2) Without SH-AWD (3) With SH-AWD (4) M/T (5) A/T (6) '09 model with SH-AWD
NOTE
The above DTCs are indicated when the PGM-FI system is selected with the HDS. Some automatic transmission DTCs cause the MIL to come on. If the MIL is on and no DTCs are indicated in the PGM-FI system, select the A/T system, and check for automatic transmission DTCs.
(1)These DTCs are indicated by a blinking MIL when the SCS line is jumped with the HDS. Some DTCs do not cause the MIL to blink when the SCS line is jumped. The last four characters of these DTCs are shown in the gauge display.
(2)Without SH-AWD
(3)With SH-AWD
(4)M/T
(5)A/T
(6)'09 model with SH-AWD

DTC TROUBLESHOOTING CHART

Symptom Troubleshooting Index

When the vehicle has one of these symptoms, check for a diagnostic trouble code (DTC) with the HDS. If there is no DTC, do the diagnostic procedure for the symptom, in the sequence listed, until you find the cause.

SymptomDiagnostic procedureAlso check for
Engine will not start (MIL works OK, no DTCs set)Test the battery (see BATTERY TEST ) Test the starter (see STARTER PERFORMANCE TEST ) Check the fuel pressure (see FUEL PRESSURE TEST ) '09 model without SH-AWD, '10 model: Troubleshoot the fuel pump circuit (see FUEL PUMP CIRCUIT TROUBLESHOOTING )Low compression No ignition spark Intake air leaks Locked up engine Broken timing belt Fuel contamination
Engine will not start (MIL comes on and stays on, no DTCs set)Troubleshoot the DLC circuit (see DLC CIRCUIT TROUBLESHOOTING .No power to ECM/PCM No ground to ECM/PCM
MIL comes on and stays on, or never comes on at all, no DTCs setTroubleshoot the MIL circuit (see MIL CIRCUIT TROUBLESHOOTING ).
Engine will not start (MIL works OK, no DTCs set, immobilizer indicator stays on or flashes)Check the immobilizer system: Without keyless access system (see SYMPTOM TROUBLESHOOTING INFORMATION ). With keyless access system (see SYMPTOM TROUBLESHOOTING INFORMATION ).
Engine starts but stalls immediately (MIL works OK, no DTCs set, immobilizer indicator stays on or flashes)Check the immobilizer system: Without keyless access system (see SYMPTOM TROUBLESHOOTING INFORMATION ). With keyless access system (see SYMPTOM TROUBLESHOOTING INFORMATION ).
Engine is hard to start (MIL works OK, no DTCs set)Test the battery (see BATTERY TEST ) Check the fuel pressure (see FUEL PRESSURE TEST ) Clean the throttle body (see THROTTLE BODY CLEANING )Low compression Intake air leaks Fuel contamination Weak spark
Cold fast idle too low (MIL works OK, no DTCs set)Do the PCM idle learn procedure (see PCM IDLE LEARN PROCEDURE ) Check the idle speed (see IDLE SPEED INSPECTION ) Clean the throttle body (see THROTTLE BODY CLEANING )
Cold fast idle too high (MIL works OK, no DTCs set)Do the PCM idle learn procedure (see PCM IDLE LEARN PROCEDURE ) Check the idle speed (see IDLE SPEED INSPECTION ) Do the throttle position learning check (see THROTTLE BODY TEST )Intake air leaks
Idle speed fluctuates (MIL works OK, no DTCs set)Do the PCM idle learn procedure (see PCM IDLE LEARN PROCEDURE ) Check the idle speed (see IDLE SPEED INSPECTION ) Do the carbon accumulation check (see THROTTLE BODY TEST ) Troubleshoot the A/C signal circuit (see A/C SIGNAL CIRCUIT TROUBLESHOOTING )Incorrect valve timing or clearance adjustment Intake air leaks
After warming up, idle speed is below specification without load (MIL works OK, no DTCs set)Troubleshoot the alternator FR signal circuit (see ALTERNATOR FR SIGNAL CIRCUIT TROUBLESHOOTING ) Do the carbon accumulation check (see THROTTLE BODY TEST )Incorrect valve adjustment
After warming up, idle speed is above specification without load (MIL works OK, no DTCs set)Troubleshoot the alternator FR signal circuit (see ALTERNATOR FR SIGNAL CIRCUIT TROUBLESHOOTING ) Inspect the APP sensor (see APP SENSOR SIGNAL INSPECTION )Intake air leaks
Low power (MIL works OK, no DTCs set)Check the fuel pressure (see FUEL PRESSURE TEST ).Low compression Incorrect camshaft timing Incorrect engine oil level Exhaust restriction
Engine stalls (MIL works OK, no DTCs set)Do the PCM idle learn procedure (see PCM IDLE LEARN PROCEDURE ) Check the fuel pressure (see FUEL PRESSURE TEST ) Check the idle speed (see IDLE SPEED INSPECTION ) Troubleshoot the brake pedal position switch signal circuit (see BRAKE PEDAL POSITION SWITCH SIGNAL CIRCUIT TROUBLESHOOTING )Intake air leaks Faulty harness and sensor connections
Difficult to refuel (MIL works OK, no DTCs set)Check the fuel vent tube between the EVAP canister and the fuel tank. Check the fuel tank vapor recirculation tube between the fuel pipe and the fuel tank. Replace the fuel tank: Without SH-AWD (see FUEL TANK REPLACEMENT ) With SH-AWD (see WITH SH-AWD )Malfunctioning gas station filling nozzle
Fuel overflows during refueling (No DTCs set)Replace the fuel tank.Malfunctioning gas station filling nozzle
Fuel cap warning message stays on (MIL works OK, no DTCs set)Troubleshoot the fuel cap warning message system (see FUEL CAP WARNING MESSAGE SYSTEM TROUBLESHOOTING )
HDS does not communicate with the ECM/PCM or the vehicleTroubleshoot the DLC circuit (see DLC CIRCUIT TROUBLESHOOTING .Correct HDS software

SYMPTOM TROUBLESHOOTING CHART

Scheme 110

Scheme 110: Fuel and Emissions Systems Diagram

Scheme 111

Scheme 111: Vacuum Hose Routing

Electronic Control Systems

The functions of the fuel and emission control systems are managed by the engine control module (ECM) on vehicle with manual transmissions or the powertrain control module (PCM) on vehicle with automatic transmissions.

Self-diagnosis

The ECM/PCM detects the failure of a signal from a sensor or from another control unit and stores a Pending DTC or a Confirmed DTC. Depending on the failure, a Confirmed DTC is stored in either the first or the second drive cycle. When a Confirmed DTC is stored, the ECM/PCM turns on the malfunction indicator lamp (MIL) by a signal sent to the gauge via F-CAN.

  1. One Drive Cycle Detection Method When an abnormality occurs in the signal from a sensor or from another control unit, the ECM/PCM stores a Confirmed DTC and turns on the MIL immediately.
  2. Two Drive Cycle Detection Method When an abnormality occurs in the signal from a sensor or from another control unit in the first drive cycle, the ECM/PCM stores a Pending DTC. The MIL does not come on at this time. If the failure continues in the second drive cycle, the ECM/PCM stores a Confirmed DTC and turns on the MIL.

Fail-safe Function

When an abnormality occurs in the signal from a sensor or from another control unit, the ECM/PCM ignores that signal and substitutes a pre-programmed value for them that allows the engine to continue running. This causes a Confirmed DTC to be stored and the MIL to come on.

MIL Bulb Check and Readiness Code Condition

When the ignition switch is turned to ON (II), or press the engine start/stop button to select the ON mode, the ECM/PCM turns on the MIL via the F-CAN circuit for about 15 to 20 seconds to check the bulb condition. If any readiness codes are not set to complete, the MIL flashes five times. If all readiness codes are set to complete, the MIL goes off.

Self Shut Down (SSD) Mode

After the ignition switch is turned to LOCK (0), or the engine start/stop button is pressed to select the OFF mode, the ECM/PCM stays on (about 40 minutes). If the ECM/PCM connector is disconnected during this time, the ECM/PCM may be damaged. To cancel this mode, disconnect the negative cable from the battery or jump the SCS line with the HDS after the ignition switch is turned to LOCK (0), or the engine start/stop button is pressed to select the OFF mode.

Scheme 112

Scheme 112: ECM/PCM Inputs and Outputs at ECM/PCM Connector A ([]) (49P)
Terminal numberWire colorTerminal nameDescriptionSignal
1 (2)PURVBSOL2 (POWER SOURCE FOR SOLENOID VALVES)Power source for solenoid valveWith ignition switch ON (II)/vehicle in ON mode: battery voltage
2 (1)WHTRVS (REVERSE LOCKOUT SOLENOID)Drives reverse lockout solenoidWith vehicle speed below 9 mph (15 km/h): battery voltage With vehicle speed above 12 mph (20 km/h): about 0 V
2 (2)PNKSLS (SHIFT LOCK SOLENOID)Drives shift lock solenoidWith ignition switch ON (II)/vehicle in ON mode, in P, brake pedal pressed, and accelerator pedal released: about 0 V
3LT GRNSTRLY (STARTER RELAY)Drives starter cut relayWith ignition switch ON (II)/vehicle in ON mode: about 0 V
4GRNFANL (RADIATOR FAN CONTROL)Drives A/C condenser fan relayWith condenser fan running: about 0 V With condenser fan stopped: battery voltage
5BRNFANH (RADIATOR FAN CONTROL)Drives radiator fan relayWith radiator fan running at high speed: about 0 V With radiator fan stopped or running at low speed: battery voltage
6REDMRLY (PGM-FI MAIN RELAY 1)Drives PGM-FI main relay 1With ignition switch ON (II)/vehicle in ON mode: about 0 V With ignition switch in LOCK (0)/vehicle in OFF mode: battery voltage
7ORNBKSWNC (BRAKE PEDAL POSITION SWITCH)Detects brake pedal position switch signalWith ignition switch ON (II)/vehicle in ON mode and brake pedal released: battery voltage With ignition switch ON (II)/vehicle in ON mode and brake pedal pressed: about 0 V
8LT GRNBKSW (BRAKE PEDAL POSITION SWITCH)Detects brake pedal position switch signalWith brake pedal released: about 0 V With brake pedal pressed: battery voltage
9LT BLUVG - (MASS AIR FLOW (MAF) SENSOR-SIDE)Ground for MAF sensor signal
10BLUELD (ELECTRICAL LOAD DETECTOR (ELD))Detects ELD signalWith ignition switch ON (II)/vehicle in ON mode: about 0.1-4.8 V (depending on electrical load)
11GRYIMOFPR (IMMOBILIZER FUEL PUMP RELAY)Drives PGM-FI main relay 20 V for 2 seconds after turning ignition switch ON (II)/vehicle in ON mode, then battery voltage
12LT BLUMCS (ENGINE MOUNT CONTROL SOLENOID VALVE)Drives engine mount control solenoid valveAt idle: about 0 V Above idle: battery voltage
13GRYACC (A/C CLUTCH RELAY)Drives A/C clutch relayWith compressor ON: about 0 V With compressor OFF: battery voltage
16REDATPP (TRANSMISSION RANGE SWITCH P)Detects transmission range switch P position signalIn P: about 0 V In any position other than P: more than 5.0 V
17 (1)PNKMTCLSW (CLUTCH PEDAL POSITION SWITCH A)Detects clutch pedal position switch A signalWith vehicle in ON mode and clutch pedal pressed: about 0 V With vehicle in ON mode and clutch pedal released: battery voltage
18GRNAPSA (ACCELERATOR PEDAL POSITION (APP) SENSOR A)Detects APP sensor A signalWith ignition switch ON (II)/vehicle in ON mode and accelerator pedal pressed: about 4.7 V With ignition switch ON (II)/vehicle in ON mode and accelerator pedal released: about 1.0 V
19PNKAPSB (ACCELERATOR PEDAL POSITION (APP) SENSOR B)Detects APP sensor B signalWith ignition switch ON (II)/vehicle in ON mode and accelerator pedal pressed: about 2.3 V With ignition switch ON (II)/vehicle in ON mode and accelerator pedal released: about 0.5 V
20BRNVG+(MASS AIR FLOW (MAF) SENSOR +SIDE)Detects MAF sensor signalAt idle with warmed up engine and no electrical load: about 1.1-1.6V (between VG+ terminal and VG- terminal)
21REDECT2 (ENGINE COOLANT TEMPERATURE (ECT) SENSOR 2)Detects ECT sensor 2 signalWith ignition switch ON (II)/vehicle in ON mode: about 0.1-4.8 V (depending on engine coolant temperature)
22REDVSV (EVAPORATIVE EMISSION (EVAP) CANISTER VENT SHUT VALVE)Drives EVAP canister vent shut valveWith ignition switch ON (II)/vehicle in ON mode: battery voltage
23YELVBUM (VOLTAGE BACK UP)Power source for ECM/PCM memoryBattery voltage at all times
24REDVCC3 (SENSOR VOLTAGE)Provides sensor reference voltageWith ignition switch ON (II)/vehicle in ON mode: about 5.0 V
25BRNVCC4 (SENSOR VOLTAGE)Provides sensor reference voltageWith ignition switch ON (II)/vehicle in ON mode: about 5.0 V
26BLUSG3 (SENSOR GROUND)Sensor groundLess than 0.2 V at all times
27GRNSG4 (SENSOR GROUND)Sensor groundLess than 0.2 V at all times
28PNKSTRLDDetects starter cut relayWith starter ON: battery voltage
29WHTETCSRLY (ELECTRONIC THROTTLE CONTROL SYSTEM (ETCS) CONTROL RELAY)Drives electronic throttle control system (ETCS) control relayWith ignition switch ON (II)/vehicle in ON mode: about 0 V
30BLUVSSOUT (VEHICLE SPEED SIGNAL OUTPUT)Sends vehicle speed signalDepending on vehicle speed: pulses
31LT GRNSTS (STARTER SWITCH SIGNAL)Detects starter switch signalWith ignition switch in START (III)/vehicle in START mode: battery voltage With ignition switch in any position other than START (III)/vehicle in any mode other than START mode: about 0 V
32ORNSCS (SERVICE CHECK SIGNAL)Detects service check signalWith service check signal shorted with the HDS: about 0 V With service check signal opened: about 5.0 V
33BLUNEP (ENGINE SPEED PULSE)Outputs engine speed pulseWith engine running: pulses
36 (2)BRNSUPP (PADDLE SHIFTER + (UPSHIFT SWITCH))Detects paddle shifter+ (upshift switch) signalWith ignition switch ON (II)/vehicle in ON mode, and paddle shifter+ (upshift switch) pressed: about 0 V With ignition switch ON (II)/vehicle in ON mode, and paddle shifter+ (upshift switch) released: battery voltage
37 (2)PURSDNP (PADDLE SHIFTER - (DOWNSHIFT SWITCH))Detects paddle shifter- (downshift switch) signalWith ignition switch ON (II)/vehicle in ON mode, and paddle shifter- (downshift switch) pressed: about 0 V With ignition switch ON (II)/vehicle in ON mode, and paddle shifter- (downshift switch) released: battery voltage
39LT GRNFTP (FUEL TANK PRESSURE (FTP) SENSOR)Detects FTP sensor signalWith ignition switch ON (II)/vehicle in ON mode, and fuel fill cap removed: about 2.5 V
40GRYSUBRLY (PGM-FI SUBRELAY)Drives PGM-FI subrelayWith ignition switch ON (II)/vehicle in ON mode: about 0 V
41BRNLG3 (LOGIC GROUND)Ground circuit for ECM/PCMLess than 0.2 V at all times
42 (3)LT BLUFPCD (FUEL PUMP CONTROL MODULE DIAGNOSIS)Detects fuel pump control module diagnosisWith ignition switch ON (II)/vehicle in ON mode: about 5.0 V At idle: about 10.0 V
43 (3)PNKFPC (FUEL PUMP CONTROL)Sends fuel pump control module control signalWith ignition switch ON (II)/vehicle in ON mode: pulses With ignition switch OFF/vehicle in OFF mode: about 0 V
44REDWEN (WRITE ENABLE SIGNAL)Detects write enable signalWith ignition switch ON (II)/vehicle in ON mode: about 0 V
46LT GRNS-NET5V (SERIAL COMMUNICATION FOR IMMOBILIZER)Sends serial communication signalWith ignition switch ON (II)/vehicle in ON mode: pulses (about 4.4 V) With key removed from ignition switch or vehicle in OFF mode: about 1.4 V
47 (1)BRNCRMTCLS (CLUTCH PEDAL POSITION SWITCH B)Detects clutch pedal position switch B signalWith vehicle in ON mode and clutch pedal pressed: battery voltage With vehicle in ON mode and clutch pedal released: about 0 V
48WHTCANH (CAN COMMUNICATION SIGNAL HIGH)Sends communication signalWith ignition switch ON (II)/vehicle in ON mode: pulses
49BLKCANL (CAN COMMUNICATION SIGNAL LOW)Sends communication signalWith ignition switch ON (II)/vehicle in ON mode: pulses
(1) M/T (2) A/T (3) '09 model with SH-AWD
(1)M/T
(2)A/T
(3)'09 model with SH-AWD

TERMINAL DESCRIPTION CHART

Scheme 113

Scheme 113: ECM/PCM Inputs and Outputs at ECM/PCM Connector B (delta) (49P)
Terminal numberWire colorTerminal nameDescriptionSignal
1BLKPG2 (POWER GROUND)Ground circuit for ECM/PCMLess than 0.2 V at all times
2BLK/YELVBSOL (POWER SOURCE FOR SOLENOID VALVES)Power source for solenoid valvesWith ignition switch ON (II)/vehicle in ON mode: battery voltage
3YEL/BLKIGP (POWER SOURCE)Power source for ECM/PCM circuitWith ignition switch ON (II)/vehicle in ON mode: battery voltage
4BRNINJ1 (No. 1 INJECTOR)Drives No. 1 injectorAt idle: duty controlled With ignition switch ON (II)/vehicle in ON mode: battery voltage
5BLK/REDINJ5 (No. 5 INJECTOR)Drives No. 5 injector
6YELINJ4 (No. 4 INJECTOR)Drives No. 4 injector
7BLUINJ3 (No. 3 INJECTOR)Drives No. 3 injector
8REDINJ2 (No. 2 INJECTOR)Drives No. 2 injector
9WHT/BLUINJ6 (No. 6 INJECTOR)Drives No. 6 injector
10 (1)BRN/WHTLSB (A/T CLUTCH PRESSURE CONTROL SOLENOID VALVE B)Drives A/T clutch pressure control solenoid valve BWith ignition switch ON (II)/vehicle in ON mode: current controlled
11BLK/REDIGPLS5 (No. 5 IGNITION COIL PULSE)Drives No. 5 ignition coilWith ignition switch ON (II)/vehicle in ON mode: about 0 V With engine running: pulses
12BRN/WHTIGPLS6 (No. 6 IGNITION COIL PULSE)Drives No. 6 ignition coil
13BLUVSB1 (VS CELL + BANK 1)Detects rear A/F sensor (Bank 1, sensor 1) VS CELL signalWith warmed up engine running: about 3.4-4.8 V
14RED/BLUVSB2 (VS CELL + BANK 2)Detects front A/F sensor (Bank 2, sensor 1) VS CELL signalWith warmed up engine running: about 3.4-4.8 V
15REDVCENTB1 (VIRTUAL GROUND BANK 1)Reference voltage for rear A/F sensor (Bank 1, sensor 1)With warmed up engine at idle: about 3.4-3.8 V
16WHTSHO2SB2 (FRONT SECONDARY HEATED OXYGEN SENSOR (FRONT SECONDARY HO2S) (BANK 2, SENSOR 2))Detects front secondary HO2S (Bank 2, sensor 2) signalWith throttle fully opened from idle and warmed up engine: about 0.6 V With throttle quickly closed: below 0.4 V
17RED/BLKTPSA (THROTTLE POSITION (TP) SENSOR A)Detects TP sensor A signalWith throttle fully open: about 3.9 V With throttle fully closed: about 0.6 V
18BLUVCC5 (SENSOR VOLTAGE)Provides sensor reference voltageWith ignition switch ON (II)/vehicle in ON mode: about 5.0 V
19WHT/BLKIMTM (INTAKE MANIFOLD TUNING (IMT) VALVE MONITOR)Detects IMT valve positionWith ignition switch ON (II)/vehicle in ON mode: about 5.0 V With engine speed above 3,950 rpm (J35Z6 engine) or 4,000 rpm (J37A4 engine): about 0 V
20BLU/BLKVTPSW (ROCKER ARM OIL PRESSURE SWITCH)Detects rocker arm oil pressure switch signalAt idle: about 0 V
21 (1)GRN/REDLSC (ATT CLUTCH PRESSURE CONTROL SOLENOID VALVE C)Drives A/T clutch pressure control solenoid valve CWith ignition switch ON (II)/vehicle in ON mode: current controlled
22WHT/BLUIGPLS3 (No. 3 IGNITION COIL PULSE)Drives No. 3 ignition coilWith ignition switch ON (II)/vehicle in ON mode: about 0 V With engine running: pulses
23BRNIGPLS4 (No. 4 IGNITION COIL PULSE)Drives No. 4 ignition coil
24RED/WHTVCENTB2 (VIRTUAL GROUND BANK 2)Reference voltage for front A/F sensor (Bank 2, sensor 1)With warmed up engine at idle: about 3.4-4.8 V
25GRNSHO2SB1 (REAR SECONDARY HEATED OXYGEN SENSOR (REAR SECONDARY HO2S) (BANK 1, SENSOR 2))Detects rear secondary HO2S (Bank 1, sensor 2) signalWith throttle fully opened from idle and warmed up engine: about 0.6 V With throttle quickly closed: below 0.4 V
26RED/BLUTPSB (THROTTLE POSITION (TP) SENSOR B)Detects TP sensor B signalWith throttle fully open: about 4.1 V With throttle fully closed: about 1.7 V
29YEL/GRNIGPLS1 (No. 1 IGNITION COIL PULSE)Drives No. 1 ignition coilWith ignition switch ON (II)/vehicle in ON mode: about 0 V With engine running: pulses
30BLU/REDIGPLS2 (No. 2 IGNITION COIL PULSE)Drives No. 2 ignition coil
31GRNIPB1 (IP CELL+ BANK 1)Detects rear A/F sensor (Bank 1, sensor 1) pump cellWith engine running: about 2.0-5.6 V
32GRN/REDIPB2 (IP CELL+ BANK 2)Detects front A/F sensor (Bank 2, sensor 1) pump cellWith engine running: about 2.0-5.6 V
33GRNSG5 (SENSOR GROUND)Sensor groundLess than 0.2 V at all times
34GRN/WHTSGI (SENSOR GROUND)Sensor groundLess than 0.2 V at all times
35GRN/REDMAP (MANIFOLD ABSOLUTE PRESSURE (MAP) SENSOR)Detects MAP sensor signalWith ignition switch ON (II)/vehicle in ON mode: about 3.0 V At idle: about 1.0 V (depending on engine speed)
36YEL/REDVCC1 (SENSOR VOLTAGE)Provides sensor reference voltageWith ignition switch ON (II)/vehicle in ON mode: about 5.0 V
37REDNM (INPUT SHAFT (MAINSHAFT) SPEED SENSOR)Detects input shaft (mainshaft) speed sensor signalsWith ignition switch ON (II)/vehicle in ON mode: about 0 V or about 5.0 V With engine running in N: about 2.5 V
38BLUNC(OUTPUT SHAFT (COUNTERSHAFT) SPEED SENSOR)Detects output shaft (countershaft) speed sensor signalWith ignition switch ON (II)/vehicle in ON mode: about 0 V or about 5.0 V While driving: about 2.5 V (pulses)
39GRN/YELVTS (ROCKER ARM OIL CONTROL SOLENOID)Drives rocker arm oil control solenoid)At idle: about 0 V
40BLKPG1 (POWER GROUND)Ground circuit for ECM/PCMLess than 0.2 V at all times
41BRN/YELLG2 (LOGIC GROUND)Ground circuit for ECM/PCMLess than 0.2 V at all times
42BLK/YELIG1 (IGNITION SIGNAL)Detects ignition signalWith ignition switch ON (II)/vehicle in ON mode: battery voltage
45BLUCKP (CRANKSHAFT POSITION (CKP) SENSOR)Detects CKP sensor signalWith engine running: pulses
46GRNCMP (CAMSHAFT POSITION (CMP) SENSOR)Detects CMP sensor signalWith engine running: pulses
(1) A/T
(1)A/T

TERMINAL DESCRIPTION CHART

Scheme 114

Scheme 114: ECM/PCM Inputs and Outputs at ECM/PCM Connector C (o) (49P)
Terminal numberWire colorTerminal nameDescriptionSignal
1BLKPGMETCS (POWER GROUND ETCS)Ground circuit for ECM/PCMLess than 0.2 V at all times
2BLUETCSM+ (THROTTLE ACTUATOR +SIDE)Drives throttle actuatorWith ignition switch ON (II)/vehicle in ON mode: about 0 V
3GRNETCSM - (THROTTLE ACTUATOR-SIDE)Ground for throttle actuatorWith ignition switch ON (II)/vehicle in ON mode: about 0 V
4YEL/GRNIG1 ETCS (IGNITION SIGNAL ETCS)Detects ignition signalWith ignition switch ON (II)/vehicle in ON mode: battery voltage
5BLK/WHTSO2SHTCB1 (REAR SECONDARY HEATED OXYGEN SENSOR (REAR SECONDARY HO2S) (BANK 1, SENSOR 2) HEATER CONTROL)Drives rear secondary HO2S (Bank 1, sensor 2) heaterWith ignition switch ON (II)/vehicle in ON mode: battery voltage With warmed up engine running: duty controlled
6BLK/WHTAFSHTCB1 (REAR AIR FUEL RATIO (REAR A/F) SENSOR (BANK 1, SENSOR 1) HEATER CONTROL)Drives rear A/F sensor (Bank 1, sensor 1) heaterWith ignition switch ON (II)/vehicle in ON mode: battery voltage With warmed up engine running: about 0 V or duty controlled
7GRN/REDSO2SHTCB2 (FRONT SECONDARY HEATED OXYGEN SENSOR (SECONDARY HO2S) (BANK 2, SENSOR 2) HEATER CONTROL)Drives front secondary HO2S (Bank 2, sensor 2) heaterWith ignition switch ON (II)/vehicle in ON mode: battery voltage With warmed up engine running: duty controlled
8GRN/WHTAFSHTCB2 (FRONT AIR FUEL RATIO (FRONT A/F) SENSOR (BANK 2, SENSOR 1) HEATER CONTROL)Drives front A/F sensor (Bank 2, sensor 1) heaterWith ignition switch ON (II)/vehicle in ON mode: battery voltage With warmed up engine running: about 0 V or duty controlled
9 (1)GRN/REDSHD (SHIFT SOLENOID VALVE D)Drives shift solenoid valve DWith engine running in N, in D and S during no lock-up condition: about 0 V With engine running in P and R, and in D and S during lock-up condition: battery voltage
10BLU/REDEGR (EXHAUST GAS RECIRCULATION (EGR) VALVE)Drives EGR valveWith EGR operating: duty controlled With EGR not operating: about 0 V
11YEL/BLUVCC6 (SENSOR VOLTAGE)Provides sensor reference voltageWith ignition switch ON (II)/vehicle in ON mode: about 5.0 V
12YEL/BLUVCC2 (SENSOR VOLTAGE)Provides sensor reference voltageWith ignition switch ON (II)/vehicle in ON mode: about 5.0 V
15GRN/REDSG6 (SENSOR GROUND)Sensor groundLess than 0.2 V at all times
16GRN/YELSG2 (SENSOR GROUND)Sensor groundLess than 0.2 V at all times
17 (1)YEL/GRNATPD (TRANSMISSION RANGE SWITCH D)Detects transmission range switch D position signalIn D: about 0 V In any position other than D: about 5.0 V
18 (1)BLU/YELATPFWD (TRANSMISSION RANGE SWITCH FWD)Detects transmission range switch FWD position signalIn D and S: about 0 V In any position other than D and S: about 5.0 V
19 (1)RED/WHTATPRVS (TRANSMISSION RANGE SWITCH RVS)Detects transmission range switch RVS position signalIn P, R, and N: about 0 V In any position other than P, R, and N: about 5.0 V
20 (1)BLU/YELSHA (SHIFT SOLENOID VALVE A)Drives shift solenoid valve AWith engine running in D, S (in 2nd and 3rd gears) and R: battery voltage With engine running in P, N, and D (in 1st, 4th, and 5th gears), and S (in 1st and 4th gears): about 0 V
21 (1)REDLSA (A/T CLUTCH PRESSURE CONTROL SOLENOID VALVE A)Drives A/T clutch pressure control solenoid valve AWith ignition switch ON (II)/vehicle in ON mode: current controlled
24RED/YELIAT (INTAKE AIR TEMPERATURE (IAT) SENSOR)Detects IAT sensor signalWith ignition switch ON (II)/vehicle in ON mode: about 0.1-4.8 V (depending on intake air temperature)
25 (1)WHTATPR (TRANSMISSION RANGE SWITCH R)Detects transmission range switch R position signalIn R: about 0 V In any position other than R: more than 5.0 V
26 (1)RED/BLKATPN (TRANSMISSION RANGE SWITCH N)Detects transmission range switch N position signalIn N: about 0 V In any position other than N: battery voltage
27 (1)BLU/BLKOP2SW (TRANSMISSION FLUID PRESSURE SWITCH A (2ND CLUTCH)Detects transmission fluid pressure switch A (2nd clutch)With ignition switch ON (II)/vehicle in ON mode: Without 2nd clutch pressure: battery voltage With 2nd clutch pressure: about 0 V
28 (1)GRN/WHTSHB (SHIFT SOLENOID VALVE B)Drives shift solenoid valve BWith engine running in P, R, N, D (in 1st, 2nd, and 5th gears), and S (1st and 2nd gears): battery voltage With engine running in D and S (in 3rd and 4th gears): about 0 V
32RED/WHTECT1 (ENGINE COOLANT TEMPERATURE SENSOR (ECT) SENSOR 1)Detects ECT sensor 1 signalWith ignition switch ON (II)/vehicle in ON mode: about 0.1-4.8 V (depending on engine coolant temperature)
33 (1)BLU/YELTATF (ATF TEMPERATURE SENSOR)Detects ATF temperature signalWith ignition switch ON (II)/vehicle in ON mode: about 0.2-4.0 V (about 1.8 V at operating temperature, depending on ATF temperature)
34WHT/BLKEGRP (EXHAUST GAS RECIRCULATION (EGR) VALVE POSITION SENSOR)Detects EGR valve position sensor signalWith engine running: about 1.2-3.0 V (depending on EGR valve lift)
37 (1)BLU/YELOP4SW (4TH CLUTCH TRANSMISSION FLUID PRESSURE SWITCH)Detects 4th clutch transmission fluid pressure switchWith ignition switch ON (II)/vehicle in ON mode: Without 4th clutch pressure: battery voltage With 4th clutch pressure: about 0 V
38 (1)BLU/WHTOP3SW (TRANSMISSION FLUID PRESSURE SWITCH B (3RD CLUTCH))Detects transmission fluid pressure switch B (3rd clutch)With ignition switch ON (II)/vehicle in ON mode: Without 3rd clutch pressure: battery voltage With 3rd clutch pressure: about 0 V
39 (1)GRNSHC (SHIFT SOLENOID VALVE C)Drives shift solenoid valve CWith engine running in D and S (in 1st, 3rd, and 5th gears): battery voltage With engine running in P, R, N, D, and S (in 2nd and 4th gears): about 0 V
40RED/YELPCS (EVAPORATIVE EMISSION (EVAP) CANISTER PURGE VALVE)Drives EVAP canister purge valveWith engine running, engine coolant below 140°F (60°C): battery voltage With engine running, engine coolant above 140°F (60°C): duty controlled
41BRN/YELLG1 (LOGIC GROUND)Ground circuit for ECM/PCMLess than 0.2 V at all times
42WHT/BLUALTL (ALTERNATOR L SIGNAL)Detects alternator L signalWith ignition switch ON (II)/vehicle in ON mode: about 0 V With engine running: battery voltage
43WHT/GRNALTC (ALTERNATOR CONTROL)Sends alternator control signalWith warmed up engine running: about 7.5 V (depending on electrical load)
44WHT/REDALTF (ALTERNATOR FR SIGNAL)Detects alternator FR signalWith engine running: about 0-5.0 V (depending on electrical load)
45BLU/YELOPSW (OIL PRESSURE SWITCH)Detects engine oil pressure signalWith ignition switch ON (II)/vehicle in ON mode: battery voltage With engine running: about 0 V
46 (1)REDATPS (TRANSMISSION RANGE SWITCH S)Detects transmission switch S position signalIn S: about 0 V In any position other than S: about 5.0 V
47RED/BLUKS (KNOCK SENSOR)Detects knock sensor signalWith engine knocking: pulses
48WHT/BLUIMT+ (INTAKE MANIFOLD TUNING (IMT) ACTUATOR +SIDE)Drives IMT actuatorWith ignition switch ON (II)/vehicle in ON mode: about 0 V
49WHT/REDIMT - (INTAKE MANIFOLD TUNING (IMT) ACTUATOR-SIDE)Drives IMT actuatorWith ignition switch ON (II)/vehicle in ON mode: about 0 V
(1) A/T
(1)A/T

TERMINAL DESCRIPTION CHART

Scheme 115

Scheme 115: ECM/PCM Electrical Connections

Scheme 116

Scheme 116

Scheme 117

Scheme 117

Scheme 118

Scheme 118

Scheme 119

Scheme 119

Scheme 120

Scheme 120

Scheme 121

Scheme 121

Scheme 122

Scheme 122: ECM/PCM Circuit Diagram

Scheme 123

Scheme 123

Scheme 124

Scheme 124

Scheme 125

Scheme 125

Scheme 126

Scheme 126

Scheme 127

Scheme 127

Scheme 128

Scheme 128

Scheme 129

Scheme 129

Scheme 130

Scheme 130

Scheme 131

Scheme 131

Scheme 132

Scheme 132

Scheme 133

Scheme 133

Scheme 134

Scheme 134

Scheme 135

Scheme 135

Scheme 136

Scheme 136

Scheme 137

Scheme 137

Scheme 138

Scheme 138

Scheme 139

Scheme 139

PGM-FI System

The programmed fuel injection (PGM-FI) system is a sequential multiport fuel injection system.

Alternator Control

The alternator signals the ECM/PCM during charging. The ECM/PCM then controls the voltage generated at the alternator according to the electrical load determined by the electrical load detector (ELD) and the driving mode. This reduces engine load to improve fuel economy.

Air Conditioning (A/C) Compressor Clutch Relay

When the ECM/PCM receives a demand for cooling from the A/C system, it delays the compressor from being energized, and enriches the mixture to assure a smooth transition to the A/C mode.

Air Fuel Ratio (A/F) Sensor

The A/F sensor operates over a wide air/fuel range. The A/F sensor is installed upstream of the warm up three way catalytic converter (WU-TWC), and it sends signals to the ECM/PCM which varies the duration of fuel injection accordingly.

Scheme 140

Scheme 140: Air Fuel Ratio (A/F) Sensor

Barometric Pressure (BARO) Sensor

The BARO sensor is inside the ECM/PCM. It converts atmospheric pressure into a voltage signal that is used by the ECM/PCM to modify the basic duration of the fuel injection discharge.

Camshaft Position (CMP) Sensor

The CMP sensor detects the position of the No. 1 cylinder as a reference for sequential fuel injection to each cylinder.

Scheme 141

Scheme 141: Camshaft Position (CMP) Sensor

Crankshaft Position (CKP) Sensor

The CKP sensor detects crankshaft speed, and is used by the ECM/PCM to determine ignition timing, timing for the fuel injection of each cylinder, and engine misfire detection.

Scheme 142

Scheme 142: Crankshaft Position (CKP) Sensor

Engine Coolant Temperature (ECT) Sensors 1 and 2

ECT sensors 1 and 2 are temperature dependent resistors (thermistors). The resistance decreases as the engine coolant temperature increases.

Scheme 143

Scheme 143: Engine Coolant Temperature (ECT) Sensors 1 and 2

Ignition Timing Control

The ECM/PCM contains the memory for basic ignition timing at various engine speeds and manifold absolute pressures. It also adjusts the timing according to engine coolant temperature and intake air temperature.

Injector Timing and Duration

The ECM/PCM contains the memory for basic discharge duration at various engine speeds and manifold pressures. The basic discharge duration, after being read out from the memory, is further modified by signals sent from various sensors to obtain the final discharge duration.

By monitoring long term fuel trim, the ECM/PCM detects long term malfunctions in the fuel system and sets diagnostic trouble codes (DTCs) if needed.

Input Shaft (Mainshaft) Speed Sensor

This sensor detects input shaft (mainshaft) speed.

Scheme 144

Scheme 144: Input Shaft (Mainshaft) Speed Sensor

Knock Sensor

The knock control system adjusts the ignition timing to minimize knock.

Scheme 145

Scheme 145: Knock Sensor

Malfunction Indicator Lamp (MIL) Indication (In relation to Readiness Codes)

The vehicle has certain readiness codes that are part of the on-board diagnostics for the emissions systems. If the vehicle's battery has been disconnected or gone dead, if DTCs have been cleared, or if the ECM/PCM has been reset, these codes are reset. In some states, part of the emissions testing is to make sure these codes are set to complete. If all of them are not set to complete, the vehicle may fail the test, or the test cannot be finished.

To check if the readiness codes are set to complete, turn the ignition switch to ON (II) or press the engine start/stop button to select the ON mode, but do not start the engine. The MIL will come on for 15-20 seconds. If it then goes off, the readiness codes are complete. If it flashes five times, one or more readiness codes are not set to complete. To set each code, drive the vehicle or run the engine as described in the procedures (see PROCEDURE ).

Manifold Absolute Pressure (MAP) Sensor

The MAP sensor converts manifold absolute pressure into electrical signals that are sent to the ECM/PCM.

Scheme 146

Scheme 146: Manifold Absolute Pressure (MAP) Sensor

Mass Air Flow (MAF) Sensor/Intake Air Temperature (IAT) Sensor

The mass air flow (MAF) sensor/intake air temperature (IAT) sensor contains a hot wire sensor, a cold wire sensor, and a thermistor. It is located in the intake air passage. The resistance of the hot wire sensor, a cold wire sensor, and the thermistor changes due to intake air temperature and airflow. The control circuit in the MAF sensor controls the current to keep the hot wire at a set temperature. The current is converted to voltage in the control circuit, then output to the ECM/PCM.

Scheme 147

Scheme 147: Mass Air Flow (MAF) Sensor/Intake Air Temperature (IAT) Sensor

Output Shaft (Countershaft) Speed Sensor

This sensor detects countershaft speed.

Scheme 148

Scheme 148: Output Shaft (Countershaft) Speed Sensor

Secondary Heated Oxygen Sensor (Secondary HO2S)

The secondary HO2S detects the oxygen content in the exhaust gas downstream of the warm up three way catalytic converter (WU-TWC), and sends signals to the ECM/PCM. To stabilize its output, the sensor has an internal heater. The ECM/PCM compares the HO2S output with the A/F sensor output to determine catalyst efficiency. A secondary HO2S is installed in each bank downstream of the WU-TWC.

Scheme 149

Scheme 149: Secondary Heated Oxygen Sensor (Secondary HO2S)

M/T

The starter control system controls the starter motor.

Scheme 150

Scheme 150: M/T
  1. When the engine start/stop button pressed to select the START mode, the ECM applies current to starter cut relay 1 and starter cut relay 2, and the +B cut relay is turned on. Then battery voltage is applied to the starter solenoid, and starter motor runs.
  2. Once the engine start/stop botton is released, the ECM keeps the starter motor running until the engine starts. If the ECM detects that the engine starts, the ECM stops applying current to the relays, and the starter motor stops.
  3. If you press the engine start/stop button to select START mode while the engine is running, the starter motor does not operate.
  4. In the following cases, the ECM stops the starter motor: After the starter motor operates for 10 seconds (to prevent the starter motor from overheating). If the engine rpm is too high during starter motor operation.
  5. If there is a problem with the starter control system, a message appears on the gauge display. When the warning message is on, the engine can only be started by pressing and holding the engine start/stop button until the engine starts.

A/T

The starter control system controls the starter motor.

Scheme 151

Scheme 151: A/T
  1. When the ignition switch is turned to START (III), or the engine start/stop button pressed to select the START mode, the PCM applies current to starter cut relay 1 and starter cut relay 2, then battery voltage is applied to the starter solenoid, and starter motor runs.
  2. Once the ignition switch or the engine start/stop botton is released, the PCM keeps the starter motor running until the engine starts. If the PCM detects that the engine starts, the PCM stops applying current to the relays, and the starter motor stops.
  3. If you turn the ignition switch to START (III), or press the engine start/stop button to select START mode while the engine is running, the starter motor does not operate.
  4. In the following cases, the PCM stops the starter motor: After the starter motor operates for 10 seconds (to prevent the starter motor from overheating). If the engine rpm is too high during starter motor operation.
  5. If there is a problem with the starter control system, a message appears on the gauge display. When the warning message is on, the engine can only be started by turning and holding the ignition switch in the start position until the engine starts, or pressing and holding the engine start/stop button until the engine starts.

Electronic Throttle Control System

The throttle is electronically controlled. Refer to the system diagram to see a functional layout of the system.

Idle control: When the engine is idling, the ECM/PCM controls the throttle actuator to maintain the proper idle speed according to engine loads.

Acceleration control: When the accelerator pedal is pressed, the ECM/PCM opens the throttle valve based on the accelerator pedal position (APP) sensor signal.

Cruise control: The ECM/PCM controls the throttle actuator to maintain the set speed when cruise control is operating. The throttle actuator takes the place of the cruise control actuator.

Accelerator Pedal Position (APP) Sensor

As the accelerator pedal position changes, the sensor varies the signal voltage to the ECM/PCM which then controls the throttle position.

Scheme 152

Scheme 152: Accelerator Pedal Position (APP) Sensor

Throttle Body

The throttle body is a single-barrel side draft type. The lower portion of the throttle valve is heated by engine coolant from the cylinder head to prevent icing of the throttle plate.

Scheme 153

Scheme 153: Throttle Body

Electronic Throttle Control System Diagram

The electronic throttle control system consists of the throttle actuator, throttle position (TP) sensor A/B, accelerator pedal position (APP) sensor A/B, the electronic throttle control system (ETCS) control relay, and the ECM/PCM.

Scheme 154

Scheme 154: Electronic Throttle Control System Diagram

Scheme 155

Scheme 155: VTEC System (J35Z6 engine)
  1. The VTEC system changes the cam profile to correspond to engine speed. It maximizes torque at low engine speed and output at high engine speed. The low lift cam is used at low engine speeds, and the high lift cam is used at high engine speeds.
  2. The intake valve side has primary and secondary rocker arms. These rocker arms are locked and separated to change the cam profile by switching the oil passages. Roller rockers are used to minimize mechanical friction.
  3. The VTEC system oil pressure is switched by the rocker arm oil control valve changing the hydraulic circuit. The rocker arm oil control valve is controlled by the rocker arm oil control solenoid. The rocker arm oil pressure switch detects VTEC system oil pressure and sends this information to the PCM. ROCKER ARM OIL CONTROL SOLENOID REFERENCE CHART ENGINE SPEED ROCKER ARM OIL CONTROL SOLENOID INTAKE VALVE LIFT LOW OFF LOW HIGH ON HIGH

At low engine speed

The rocker arm oil control solenoid is turned off by the PCM. Oil pressure from the rocker arm oil control valve does not enter the rocker shaft. The intake primary and secondary rocker arms are separated by a return spring and lifted by the low lift cam lobe.

Scheme 156

Scheme 156: At low engine speed

At high engine speed

The rocker arm oil control solenoid is turned on by the PCM. Oil pressure from the rocker arm control solenoid enters into the intake secondary rocker arm via the rocker shaft, and it moves the VTEC switching piston in the intake secondary rocker arm. This causes the VTEC switching piston to slide into the primary rocker arm, locking the primary and secondary rocker arms together. Both intake rocker arms are lifted by the high lift cam lobe.

Scheme 157

Scheme 157: At high engine speed

Scheme 158

Scheme 158: VTEC System (J37A4 engine)
  1. The VTEC system changes the cam profile to correspond to engine speed. It maximizes torque at low engine speed and output at high engine speed. The low lift cam is used at low engine speeds, and the high lift cam is used at high engine speeds.
  2. Both the intake valve side and the exhaust valve side have primary and secondary rocker arms. These rocker arms are locked and separated to change the cam profile by switching the oil passages. Roller rockers are used to minimize mechanical friction.
  3. The VTEC system oil pressure switched by the rocker arm oil control valve changing the hydraulic circuit. The rocker arm oil control valve is controlled by the rocker arm oil control solenoid. The rocker arm oil pressure switch detects VTEC system oil pressure and sends this information to the ECM/PCM. ROCKER ARM OIL CONTROL SOLENOID REFERENCE CHART ENGINE SPEED ROCKER ARM OIL CONTROL SOLENOID INTAKE and EXHAUST VALVE LIFT LOW OFF LOW HIGH ON HIGH

The rocker arm oil control solenoid is turned off by the ECM/PCM. Oil pressure from the rocker arm oil control valve does not enter the rocker shaft. The primary and secondary rocker arms are separated by a return spring and lifted by the low lift cam lobe.

Scheme 159

Scheme 159: At low engine speed

The rocker arm oil control solenoid is turned on by the ECM/PCM. Oil pressure from the rocker arm control solenoid enters into the intake secondary rocker arm and the exhaust primary rocker arm via the rocker shaft, and it moves the VTEC switching piston into the intake secondary rocker arm and the exhaust primary rocker arm. This causes the VTEC switching pistons to lock both rocker arms (primary and secondary) together. Both rocker arms are then lifted by the high lift cam lobe.

Scheme 160

Scheme 160: At high engine speed

Idle Control System

When the engine is cold, if the A/C compressor is on, the transmission is in gear, the brake pedal is pressed, the power steering load is high, or the alternator is charging, the ECM/PCM controls current to the throttle actuator to maintain the correct idle speed.

Brake Pedal Position Switch

The brake pedal position switch signals the ECM/PCM when the brake pedal is pressed.

Fuel Cutoff Control

During deceleration with the throttle valve closed, current to the injectors is cut off to improve fuel economy at engine speeds over 850 rpm. Fuel cutoff control also occurs when the engine speed exceeds 6,900 rpm (J35Z6 engine) or 6,800 rpm (J37A4 engine), regardless of the position of the throttle valve, to protect the engine from over-revving. When the vehicle is stopped, the PCM cuts the fuel at engine speeds over 4,000 rpm (M/T) or 5,000 rpm (A/T). On a cold engine, fuel cut occurs at a lower engine speed.

Fuel Pump Control (09 model without SH-AWD, '10 model)

When the ignition switch is turned to ON (II) or when the engine start/stop button is in ON mode, the ECM/PCM grounds PGM-FI main relay 2 which feeds current to the fuel pump for 2 seconds to pressurize the fuel system. When the engine starts, the ECM/PCM grounds PGM-FI main relay 2 and feeds current to the fuel pump. When the engine is not running and the ignition is ON (II) or the vehicle in ON mode, the ECM/PCM cuts ground to PGM-FI main relay 2 which cuts current to the fuel pump.

Fuel Pump Control ('09 model with SH-AWD)

When the ignition switch is turned to ON (II) or when the engine start/stop button is in ON mode, the PCM grounds PGM-FI main relay 2 which feeds current to the fuel pump control module. The PCM sends a signal to the fuel pump control module to operate the fuel pump for 2 seconds to pressurize the fuel system. When the engine starts, the fuel pump speed is controlled in four levels by the fuel pump control module. The PCM selects the fuel pump speed based on calculating the injector activation time and the engine speed, and then sends an operation command signal to the fuel pump control module. This operation decreases fuel pump noise at low engine speed.

PGM-FI Main Relays 1 and 2

PGM-FI main relay 1 is energized whenever the ignition switch is ON (II) or whenever the vehicle is in ON mode to supply battery voltage to the ECM/PCM, power to the injectors, and power for PGM-FI main relay 2. PGM-FI main relay 2 is energized to supply power to the fuel pump (fuel pump control module) for 2 seconds when the ignition switch is turned to ON (II) or when the engine start/stop button is in the ON mode, and when the engine is cranking or running.

Intake Manifold Tuning (IMT) Valve

Engine power is adjusted by opening and closing the intake manifold tuning (IMT) valve. When the valve is closed, there is high torque at low engine speed. When the valve is open, there is high torque at high engine speed.

The intake manifold tuning (IMT) actuator contains a sensor that detects the IMT valve position and sends it to the ECM/PCM.

Scheme 161

Scheme 161: Intake Manifold Tuning (IMT) Valve

Warm Up Three Way Catalytic Converter (WU-TWC) and Under-floor Three Way Catalytic Converter (Under-floor TWC)

The WU-TWC/Under-floor TWC converts hydrocarbons (HC), carbon monoxide (CO), and oxides of nitrogen (NOx) in the exhaust gas to carbon dioxide (CO 2 ), nitrogen (N2), and water vapor.

WU-TWC

Scheme 162

Scheme 162: Warm Up Three Way Catalytic Converter (WU-TWC) and Under-floor Three Way Catalytic Converter (Under-

UNDER-FLOOR TWC

Scheme 163

Scheme 163

Exhaust Gas Recirculation (EGR) System

Refer to the system diagram to see a functional layout of the system.

EGR Valve

The EGR valve lowers peak combustion temperatures and reduces oxides of nitrogen emissions (NOx) by recirculating exhaust gas through the intake manifold and into the combustion chambers.

Exhaust Gas Recirculation (EGR) System Diagram

The EGR system reduces oxides of nitrogen (NOx) emissions by recirculating exhaust gas through the EGR pipe to the intake manifold, and into the combustion chambers. Routing the exhaust gas through the EGR pipe helps to prevent carbon deposits from forming in the intake manifold and the throttle body. The ECM/PCM memory includes the ideal EGR valve position for varying operating conditions.

The EGR valve position sensor detects the amount of EGR valve lift and sends it to the ECM/PCM. The ECM/PCM then compares it with the ideal lift in its memory (based on signals sent from other sensors). If there is any difference between the two, the ECM/PCM cuts current to the EGR valve.

Scheme 164

Scheme 164: Exhaust Gas Recirculation (EGR) System Diagram

Positive Crankcase Ventilation (PCV) System

The PCV valve prevents blow-by gasses from escaping into the atmosphere by venting them into the intake manifold.

Scheme 165

Scheme 165: Positive Crankcase Ventilation (PCV) System

Evaporative Emission (EVAP) Control System

Refer to the system diagram to see a functional layout of the system.

EVAP Canister

The EVAP canister temporarily stores fuel vapor from the fuel tank until it can be purged from the EVAP canister into the engine and burned.

EVAP Canister Purge Valve

When the engine coolant temperature is below 140°F (60°C), the ECM/PCM turns off the EVAP canister purge valve which cuts vacuum to the EVAP canister.

Scheme 166

Scheme 166: EVAP Canister Purge Valve

Fuel Tank Pressure (FTP) Sensor

The FTP sensor converts fuel tank absolute pressure into an electrical input to the ECM/PCM.

Scheme 167

Scheme 167: Fuel Tank Pressure (FTP) Sensor

EVAP Canister Vent Shut Valve

The EVAP canister vent shut valve is on the EVAP canister.

The EVAP canister vent shut valve controls the venting of the EVAP canister.

Scheme 168

Scheme 168: EVAP Canister Vent Shut Valve

Evaporative Emission (EVAP) Control Diagram

The EVAP controls minimize the amount of fuel vapor escaping to the atmosphere. Vapor from the fuel tank is temporarily stored in the EVAP canister until it can be purged from the canister into the engine and burned.

Scheme 169

Scheme 169: Evaporative Emission (EVAP) Control Diagram
  1. The EVAP canister is purged by drawing fresh air through it and into a port on the intake manifold. The purging vacuum is controlled by the EVAP canister purge valve, which operates whenever the engine coolant temperature is above 140°F (60°C).
  2. During refueling, the fuel tank vapor control valve opens from pressure in the fuel tank and feeds the fuel vapor to the EVAP canister.

Fuel Cap Warning Message

The ECM/PCM detects a loose or missing fuel fill cap as an evaporative system leak and alerts the driver by showing a warning message in the gauge display.

The first time a leak is detected a TIGHTEN FUEL CAP message appears on the gauge display (A). To scroll to another message, press the select/reset button. The "TIGHTEN FUEL CAP" message appears each time you restart the engine until the system turns the message off. Turn the engine off, then replace or tighten the fuel fill cap until it clicks at least once.

Scheme 170

Scheme 170: Fuel Cap Warning Message

Procedure

  1. Tighten the fuel fill cap until it clicks.
  2. Clear the Pending DTC with the HDS.
  3. Verify there is no leak by doing the EVAP FUNCTION TEST in the INSPECTION MENU with the HDS.
  1. Tighten the fuel fill cap until it clicks.
  2. Start the engine, then turn the ignition switch to LOCK (0), or press the engine start/stop button to select the OFF mode.
  3. Repeat step 2 two more times.

The vehicle has certain readiness codes that are part of the on-board diagnostics for the emissions systems. If the vehicle's battery has been disconnected or gone dead, if DTCs have been cleared, or if the ECM/PCM has been reset, these readiness codes are reset to incomplete. In some states, part of the emissions testing is to make sure these codes are set to complete. If all of them are not set to complete, the vehicle may fail the emission test, or the test cannot be finished.

To check if the readiness codes are set to complete, turn the ignition switch to ON (II), or press the engine start/stop button to select the ON mode, but do not start the engine. The MIL comes on for 15-20 seconds. If it then goes off, the readiness codes are set to complete. If it flashes five times, one or more readiness codes are not set to complete. To set readiness codes from incomplete to complete, do the procedure for the appropriate code.

To check the status of a specific DTC system, check the OBD status in the DTC MENU with the HDS (see OBD STATUS ). This screen displays the DTC, the current data list of the enable criteria, and the status of the readiness testing.

Catalytic Converter Monitor and Readiness Code

Note. During the procedure, do not turn the ignition switch to ACC (I) or to LOCK (0), or select the ACC or the OFF mode. All readiness codes are cleared when the battery is disconnected, if DTCs have been cleared, or if the ECM/PCM is reset with the HDS. Low ambient temperatures or excessive stop-and-go traffic may increase the drive time needed to switch the readiness code from incomplete to complete. The readiness code will not switch to complete until all the enable criteria are met. If a fault in the secondary HO2S system caused the MIL to come on, the readiness code cannot be set to complete until you correct the fault.

Enable Criteria

  1. ECT SENSOR 1 at 158°F (70°C) or more.
  2. IAT SENSOR at 20°F (-7°C) or more.
  3. Vehicle speed above 25 mph (40 km/h).
  1. Connect the HDS to the vehicle's data link connector (DLC), and bring up the READINESS CODEs screen for Catalyst in the DTCs MENU.
  2. Start the engine.
  3. Test-drive the vehicle under stop-and-go conditions with short periods of steady cruise. After about 5 miles (8 km), the readiness code should switch to complete.
  4. If the readiness code is still not set to complete, check for a Pending DTC with the HDS. If there is no DTC, one or more of the enable criteria were probably not met; repeat the procedure.

Evaporative Emission (EVAP) Control System Monitor and Readiness Code

Note. All readiness codes are cleared when the battery is disconnected, if DTCs have been cleared, or if the ECM/PCM is reset with the HDS.

  1. Battery voltage is more than 10.5 V.
  2. Engine at idle.
  3. ECT SENSOR 1 and 2 between 176°F (80°C) and 212°F(100°C).
  4. MAP sensor less than 46.6 kPa (14 in.Hg, 350 mmHg).
  5. Vehicle speed 0 mph (0 km/h).
  6. IAT SENSOR between 32°F (0°C) and 212°F (100°C).
  1. Connect the HDS to the DLC.
  2. Start the engine.
  3. Select the EVAP TEST in the INSPECTION MENU with the HDS, then select the FUNCTION TEST in the EVAP TEST MENU. If the result is normal, readiness is complete. If the result is not normal, go to the next step.
  4. Check for a Pending DTC. If there is no DTC, one or more of the enable criteria were probably not met; repeat the procedure.

Air Fuel Ratio (A/F) Sensor Monitor and Readiness Code

Note. During the procedure, do not turn the ignition switch to ACC (I) or to LOCK (0), or select the ACC or the OFF mode. All readiness codes are cleared when the battery is disconnected, if DTCs have been cleared, or if the ECM/PCM is reset with the HDS.

ECT SENSOR 1 at 140°F (60°C) or more.

  1. Start the engine.
  2. Test-drive the vehicle under stop-and-go conditions with short periods of steady cruise. During the drive, decelerate (with the throttle fully closed) for 5 seconds. After about 3.5 miles (5.6 km), the readiness code should switch from incomplete to complete.
  3. Check the readiness codes screen for the AIR FUEL RATIO (A/F) SENSOR in the DTCs MENU with the HDS. If the screen shows complete, readiness is complete. If the screen shows not complete, go to the next step.
  4. Check for a Pending DTC. If there is no DTC, the enable criteria was probably not met. Select the DATA LIST Menu. Check the ECT SENSOR in the ALL DATA LIST with the HDS. If the ECT is less than 140°F (60°C), run the engine until it is more than 140°F (60°C), then repeat the procedure.

Air Fuel Ratio (A/F) Sensor Heater Monitor Readiness Code

Note. All readiness codes are cleared when the battery is disconnected, if DTCs have been cleared, or if the ECM/PCM is reset with the HDS.

  1. Start the engine, and let it idle for 1 minute. The readiness code should switch from incomplete to complete.
  2. If the readiness code is still not set to complete, check for a Pending DTC. If there is no DTC, repeat the procedure.

Misfire Monitor and Readiness Code

  1. This readiness code is always set to available because misfiring is continuously monitored.
  2. Monitoring pauses, and the misfire counter resets, if the vehicle is driven over a rough road.
  3. Monitoring also pauses, and the misfire counter holds at its current value, if the throttle position changes more than a predetermined value, or if driving conditions fall outside the range of any related enable criteria.

Fuel System Monitor and Readiness Code

  1. This readiness code is always set to available because the fuel system is continuously monitored during closed loop operation.
  2. Monitoring pauses when the catalytic converter, the EVAP control system, and the A/F sensor monitors are active.
  3. Monitoring also pauses when any related enable criteria are not being met. Monitoring resumes when the enable criteria is again being met.

Comprehensive Component Monitor and Readiness Code

This readiness code is always set to available because the comprehensive component monitor is continuously running whenever the engine is cranking or running.

EGR Monitor and Readiness Code

Note. During the procedure, do not turn the ignition switch to ACC (I) or to LOCK (0), or select the ACC or the OFF mode. All readiness codes are cleared when the battery is disconnected, if DTCs have been cleared, or if the ECM/PCM is reset with the HDS.

ECT SENSOR 1 at 176°F (80°C) or more.

  1. Connect the HDS to the DLC.
  2. Start the engine.
  3. Drive at a steady speed with the A/T in D, or M/T in 4th at 50-62 mph (80-100 km/h) or above for more than 10 seconds.
  4. With the A/T in D or M/T in 4th, decelerate from 62 mph (100 km/h) or above by completely releasing the throttle for at least 5 seconds. If the engine is stopped during this procedure, go to step 3 and do the procedure again.
  5. Check the OBD status screen for DTC P0401 in the DTCs MENU with the HDS. If it is passed, readiness is complete. If it is not passed, go to step 3 and retest.

See also:
DLC CIRCUIT TROUBLESHOOTING
MIL CIRCUIT TROUBLESHOOTING
PCM IDLE LEARN PROCEDURE
THROTTLE BODY CLEANING
ECM/PCM UPDATE
DTC P0101: MAF SENSOR CIRCUIT RANGE/PERFORMANCE PROBLEM
DTC P0102: MAF SENSOR CIRCUIT LOW VOLTAGE
DTC P0103: MAF SENSOR CIRCUIT HIGH VOLTAGE
DTC P0107: MAP SENSOR CIRCUIT LOW VOLTAGE
DTC P0108: MAP SENSOR CIRCUIT HIGH VOLTAGE
DTC P0111: IAT SENSOR CIRCUIT RANGE/PERFORMANCE PROBLEM
DTC P0112: IAT SENSOR CIRCUIT LOW VOLTAGE
DTC P0113: IAT SENSOR CIRCUIT HIGH VOLTAGE
DTC P0116: ECT SENSOR 1 CIRCUIT RANGE/PERFORMANCE PROBLEM
DTC P0117: ECT SENSOR 1 CIRCUIT LOW VOLTAGE
DTC P0118: ECT SENSOR 1 CIRCUIT HIGH VOLTAGE
DTC P0122: TP Sensor A Circuit Low Voltage
DTC P0123: TP SENSOR A CIRCUIT HIGH VOLTAGE
DTC P0125: ECT SENSOR 1 MALFUNCTION/SLOW RESPONSE
DTC P0128: COOLING SYSTEM MALFUNCTION
DTC P0133: REAR A/F SENSOR (BANK 1, SENSOR 1) MALFUNCTION/SLOW RESPONSE; DTC P0153: FRONT A/F SENSOR (BANK 2, SENSOR 1) MALFUNCTION/SLOW RESPONSE
DTC P0134: REAR A/F SENSOR (BANK 1, SENSOR 1) HEATER SYSTEM MALFUNCTION; DTC P0154: FRONT A/F SENSOR (BANK 2, SENSOR 1) HEATER SYSTEM MALFUNCTION
DTC P0135: REAR A/F SENSOR (BANK 1, SENSOR 1) HEATER CIRCUIT MALFUNCTION; DTC P0155: FRONT A/F SENSOR (BANK 2, SENSOR 1) HEATER CIRCUIT MALFUNCTION
DTC P0137: REAR SECONDARY HO2S (BANK 1, SENSOR 2) CIRCUIT LOW VOLTAGE; DTC P0157: FRONT SECONDARY HO2S (BANK 2, SENSOR 2) CIRCUIT LOW VOLTAGE
DTC P0138: REAR SECONDARY HO2S (BANK 1, SENSOR 2) CIRCUIT HIGH VOLTAGE; DTC P0158: FRONT SECONDARY HO2S (BANK 2, SENSOR 2) CIRCUIT HIGH VOLTAGE
DTC P0139: REAR SECONDARY HO2S (BANK 1, SENSOR 2) SLOW RESPONSE; DTC P0159: FRONT SECONDARY HO2S (BANK 2, SENSOR 2) SLOW RESPONSE
DTC P0141: REAR SECONDARY HO2S (BANK 1, SENSOR 2) HEATER CIRCUIT MALFUNCTION; DTC P0161: FRONT SECONDARY HO2S (BANK 2, SENSOR 2) HEATER CIRCUIT MALFUNCTION
DTC P0171: REAR BANK (BANK 1) FUEL SYSTEM TOO LEAN; DTC P0172: REAR BANK (BANK 1) FUEL SYSTEM TOO RICH; DTC P0174: FRONT BANK (BANK 2) FUEL SYSTEM TOO LEAN; DTC P0175: FRONT BANK (BANK 2) FUEL SYSTEM TOO RICH
DTC P0222 TP SENSOR B CIRCUIT LOW VOLTAGE
DTC P0223: TP SENSOR B CIRCUIT HIGH VOLTAGE
DTC P0300: RANDOM MISFIRE AND ANY COMBINATION OF THE FOLLOWING:; DTC P0301: NO. 1 CYLINDER MISFIRE DETECTED; DTC P0302: NO. 2 CYLINDER MISFIRE DETECTED; DTC P0303: NO. 3 CYLINDER MISFIRE DETECTED; DTC P0304: NO. 4 CYLINDER MISFIRE DETECTED; DTC P0305: NO. 5 CYLINDER MISFIRE DETECTED; DTC P0306: NO. 6 CYLINDER MISFIRE DETECTED
DTC P0301: NO. 1 CYLINDER MISFIRE DETECTED; DTC P0302: NO. 2 CYLINDER MISFIRE DETECTED; DTC P0303: NO. 3 CYLINDER MISFIRE DETECTED; DTC P0304: NO. 4 CYLINDER MISFIRE DETECTED; DTC P0305: NO. 5 CYLINDER MISFIRE DETECTED; DTC P0306: NO. 6 CYLINDER MISFIRE DETECTED
DTC P0325: KNOCK SENSOR CIRCUIT MALFUNCTION
DTC P0335: CKP SENSOR NO SIGNAL
DTC P0339: CKP SENSOR CIRCUIT INTERMITTENT INTERRUPTION
DTC P0351: NO. 1 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0352: NO. 2 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0353: NO. 3 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0354: NO. 4 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0355: NO. 5 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION; DTC P0356: NO. 6 CYLINDER IGNITION COIL CIRCUIT MALFUNCTION
DTC P0365: CMP SENSOR CIRCUIT NO SIGNAL
DTC P0369: CMP SENSOR CIRCUIT INTERMITTENT INTERRUPTION
DTC P0400: EGR SYSTEM LEAK DETECTED
DTC P0401: EGR INSUFFICIENT FLOW
DTC P0404: EGR CIRCUIT RANGE/PERFORMANCE PROBLEM
DTC P0406: EGR VALVE POSITION SENSOR CIRCUIT HIGH VOLTAGE
DTC P0420: REAR BANK CATALYST SYSTEM EFFICIENCY BELOW THRESHOLD (BANK 1)
DTC P0443: EVAP CANISTER PURGE VALVE CIRCUIT MALFUNCTION
DTC P0451: FTP SENSOR CIRCUIT RANGE/PERFORMANCE PROBLEM
DTC P0452: FTP SENSOR CIRCUIT LOW VOLTAGE
DTC P0453: FTP SENSOR CIRCUIT HIGH VOLTAGE
DTC P0455: EVAP SYSTEM LARGE LEAK DETECTED
DTC P0461: FUEL LEVEL SENSOR (FUEL GAUGE SENDING UNIT) CIRCUIT RANGE/PERFORMANCE PROBLEM
DTC P0462: FUEL LEVEL SENSOR (FUEL GAUGE SENDING UNIT) CIRCUIT LOW VOLTAGE (WITHOUT SH-AWD)
DTC P0463: FUEL LEVEL SENSOR (FUEL GAUGE SENDING UNIT) CIRCUIT HIGH VOLTAGE (WITHOUT SH-AWD)
DTC P0498: EVAP CANISTER VENT SHUT VALVE CIRCUIT LOW VOLTAGE
DTC P0499: EVAP CANISTER VENT SHUT VALVE CIRCUIT HIGH VOLTAGE
DTC P0506: IDLE CONTROL SYSTEM RPM LOWER THAN EXPECTED
DTC P050A: COLD START IDLE AIR CONTROL SYSTEM PERFORMANCE PROBLEM
DTC P050B: COLD START IGNITION TIMING CONTROL SYSTEM PERFORMANCE PROBLEM
DTC P0560: PCM POWER SOURCE CIRCUIT UNEXPECTED VOLTAGE
DTC P0562: CHARGING SYSTEM LOW VOLTAGE
DTC P0563: ECM/PCM POWER SOURCE CIRCUIT UNEXPECTED VOLTAGE
DTC P0602: ECM/PCM PROGRAMMING ERROR
DTC P060A: ECM/PCM INTERNAL CONTROL MODULE MALFUNCTION
DTC P0615: STARTER CUT RELAY STR LD CIRCUIT MALFUNCTION (M/T)
DTC P0627: FUEL PUMP CONTROL MODULE SYSTEM MALFUNCTION
DTC P062F: ECM/PCM INTERNAL CONTROL MODULE KEEP ALIVE MEMORY (KAM) ERROR
DTC P0630: VIN NOT PROGRAMMED OR MISMATCH
DTC P0641: SENSOR REFERENCE VOLTAGE A MALFUNCTION
DTC P0651: SENSOR REFERENCE VOLTAGE B MALFUNCTION
DTC P0685: ECM/PCM POWER CONTROL CIRCUIT/INTERNAL CIRCUIT MALFUNCTION
DTC P0715: INPUT SHAFT (MAINSHAFT) SPEED SENSOR CIRCUIT MALFUNCTION
DTC P0720: OUTPUT SHAFT (COUNTERSHAFT) SPEED SENSOR CIRCUIT MALFUNCTION
DTC P0831: CLUTCH PEDAL POSITION SWITCH A CIRCUIT HIGH VOLTAGE
DTC P0835: CLUTCH PEDAL POSITION SWITCH B CIRCUIT LOW VOLTAGE
DTC P1077: IMT VALVE STUCK IN HIGH RPM POSITION
DTC P1078: IMT VALVE STUCK IN LOW RPM POSITION
DTC P1116: ECT SENSOR 1 CIRCUIT RANGE/PERFORMANCE PROBLEM
DTC P1128: MAP SENSOR SIGNAL LOWER THAN EXPECTED
DTC P1129: MAP SENSOR SIGNAL HIGHER THAN EXPECTED
DTC P1172: REAR A/F SENSOR (BANK 1, SENSOR 1) CIRCUIT OUT OF RANGE HIGH
DTC P1297: ELD CIRCUIT LOW VOLTAGE
DTC P1298: ELD CIRCUIT HIGH VOLTAGE
DTC P1454: FTP SENSOR CIRCUIT RANGE/PERFORMANCE PROBLEM
DTC P1549: CHARGING SYSTEM HIGH VOLTAGE
DTC P1658: ETCS CONTROL RELAY ON MALFUNCTION
DTC P1659: ETCS CONTROL RELAY OFF MALFUNCTION
DTC P1683: THROTTLE VALVE DEFAULT POSITION SPRING PERFORMANCE PROBLEM
DTC P1684: THROTTLE VALVE RETURN SPRING PERFORMANCE PROBLEM
DTC P16BB: ALTERNATOR B TERMINAL CIRCUIT LOW VOLTAGE
DTC P16BC: ALTERNATOR FR TERMINAL CIRCUIT/IGP CIRCUIT LOW VOLTAGE
DTC P16BD: STARTER CUT RELAY 2 MALFUNCTION (M/T)
DTC P16BE: STARTER CUT RELAY 1 MALFUNCTION (M/T)
DTC P16BF: STARTER CUT RELAY STRLY CIRCUIT MALFUNCTION (M/T)
DTC P16E1: +B CUT RELAY CIRCUIT MALFUNCTION
DTC P2101: ETCS MALFUNCTION
DTC P2118: THROTTLE ACTUATOR CURRENT RANGE/PERFORMANCE PROBLEM
DTC P2122: APP SENSOR A (TP SENSOR D) CIRCUIT LOW VOLTAGE
DTC P2123: APP SENSOR A (TP SENSOR D) CIRCUIT HIGH VOLTAGE
DTC P2127: APP SENSOR B (TP SENSOR E) CIRCUIT LOW VOLTAGE
DTC P2128: APP SENSOR B (TP SENSOR E) CIRCUIT HIGH VOLTAGE
DTC P2135: TP SENSOR A/B INCORRECT VOLTAGE CORRELATION
DTC P2138: APP SENSOR A/B (TP SENSOR D/E) INCORRECT VOLTAGE CORRELATION
DTC P2176: THROTTLE ACTUATOR CONTROL SYSTEM IDLE POSITION NOT LEARNED
DTC P2183: ECT SENSOR 2 CIRCUIT RANGE/PERFORMANCE PROBLEM
DTC P2184: ECT SENSOR 2 CIRCUIT LOW VOLTAGE
DTC P2185: ECT SENSOR 2 CIRCUIT HIGH VOLTAGE
DTC P2195: REAR A/F SENSOR (BANK 1, SENSOR 1) SIGNAL STUCK LEAN; DTC P2197: FRONT A/F SENSOR (BANK 2, SENSOR 1) SIGNAL STUCK LEAN
DTC P2227: BARO SENSOR CIRCUIT RANGE/PERFORMANCE PROBLEM
DTC P2228: BARO SENSOR CIRCUIT LOW VOLTAGE
DTC P2237: REAR A/F SENSOR (BANK 1, SENSOR 1) IP CIRCUIT HIGH VOLTAGE; DTC P2240: FRONT A/F SENSOR (BANK 2, SENSOR 1) IP CIRCUIT HIGH VOLTAGE
DTC P2238: REAR A/F SENSOR (BANK 1, SENSOR 1) IP CIRCUIT LOW VOLTAGE; DTC P2241: FRONT A/F SENSOR (BANK 2, SENSOR 1) IP CIRCUIT LOW VOLTAGE
DTC P2243: REAR A/F SENSOR (BANK 1, SENSOR 1) VCENT CIRCUIT HIGH VOLTAGE; DTC P2247: FRONT A/F SENSOR (BANK 2, SENSOR 1) VCENT CIRCUIT HIGH VOLTAGE
DTC P2245: REAR A/F SENSOR (BANK 1, SENSOR 1) VCENT CIRCUIT LOW VOLTAGE; DTC P2249: FRONT A/F SENSOR (BANK 2, SENSOR 1) VCENT CIRCUIT LOW VOLTAGE
DTC P2251: REAR A/F SENSOR (BANK 1, SENSOR 1) VS CIRCUIT HIGH VOLTAGE; DTC P2254: FRONT A/F SENSOR (BANK 2, SENSOR 1) VS CIRCUIT HIGH VOLTAGE
DTC P2252: REAR A/F SENSOR (BANK 1, SENSOR 1) VS CIRCUIT LOW VOLTAGE; DTC P2255: FRONT A/F SENSOR (BANK 2, SENSOR 1) VS CIRCUIT LOW VOLTAGE
DTC P2279: INTAKE AIR SYSTEM LEAK
DTC P2610: ECM/PCM IGNITION OFF INTERNAL TIMER MALFUNCTION
DTC P2646: ROCKER ARM OIL PRESSURE SWITCH CIRCUIT LOW VOLTAGE
DTC P2647: ROCKER ARM OIL PRESSURE SWITCH CIRCUIT HIGH VOLTAGE
DTC P2648: ROCKER ARM OIL CONTROL SOLENOID CIRCUIT LOW VOLTAGE
DTC P2649: ROCKER ARM OIL CONTROL SOLENOID CIRCUIT HIGH VOLTAGE
DTC U0029: F-CAN MALFUNCTION (BUS-OFF (ECM/PCM))
DTC U0114: F-CAN MALFUNCTION (ECM/PCM-SH-AWD CONTROL UNIT)
DTC U0122: F-CAN MALFUNCTION (ECM/PCM-VSA MODULATOR-CONTROL UNIT)
DTC U0131: F-CAN MALFUNCTION (ECM/PCM-EPS CONTROL UNIT)
DTC U0155: F-CAN MALFUNCTION (ECM/PCM-GAUGE CONTROL MODULE)
BATTERY TEST
STARTER PERFORMANCE TEST
FUEL PRESSURE TEST
FUEL PUMP CIRCUIT TROUBLESHOOTING
SYMPTOM TROUBLESHOOTING INFORMATION
SYMPTOM TROUBLESHOOTING INFORMATION
IDLE SPEED INSPECTION
THROTTLE BODY TEST
APP SENSOR SIGNAL INSPECTION
FUEL TANK REPLACEMENT
FUEL CAP WARNING MESSAGE SYSTEM TROUBLESHOOTING
MALFUNCTION INDICATOR LAMP (MIL) INDICATION (IN RELATION TO READINESS CODES)
INDICATED DTC'S TROUBLESHOOTING
OBD STATUS