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Difference between revisions of "Ford Diagnostic Codes List"
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− | + | __NOTOC__ | |
==P0102== | ==P0102== | ||
Line 131: | Line 131: | ||
Check harness and connection. | Check harness and connection. | ||
− | P0112 | + | ==P0112== |
===Error Description=== | ===Error Description=== | ||
Intake Air Temperature (IAT) Circuit Low Input Indicates the sensor signal is less than Self-Test minimum. The IAT sensor minimum is 0.2 volts or 121°C (250°F). Grounded circuit in harness | Intake Air Temperature (IAT) Circuit Low Input Indicates the sensor signal is less than Self-Test minimum. The IAT sensor minimum is 0.2 volts or 121°C (250°F). Grounded circuit in harness | ||
Line 139: | Line 139: | ||
IAT V PID reading less than 0.2 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. | IAT V PID reading less than 0.2 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. | ||
− | P0113 | + | ==P0113== |
===Error Description=== | ===Error Description=== | ||
Intake Air Temperature (IAT) Circuit High Input Indicates the sensor signal is greater than Self-Test maximum. The IAT sensor maximum is 4.6 volts or -50°C (-58°F). Open circuit in harness | Intake Air Temperature (IAT) Circuit High Input Indicates the sensor signal is greater than Self-Test maximum. The IAT sensor maximum is 4.6 volts or -50°C (-58°F). Open circuit in harness | ||
Line 148: | Line 148: | ||
IAT V PID reading greater than 4.6 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. | IAT V PID reading greater than 4.6 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. | ||
− | P0116 | + | ==P0116== |
===Error Description=== | ===Error Description=== | ||
Engine Coolant Temperature Circuit Range/Performance Failure Indicates the engine coolant temperature rationality test has failed. The PCM logic that sets this DTC indicates that engine coolant temperature sensor (ECT or CHT) drifted higher than the nominal sensor calibration curve and could prevent one or more OBD II monitors from executing. | Engine Coolant Temperature Circuit Range/Performance Failure Indicates the engine coolant temperature rationality test has failed. The PCM logic that sets this DTC indicates that engine coolant temperature sensor (ECT or CHT) drifted higher than the nominal sensor calibration curve and could prevent one or more OBD II monitors from executing. | ||
Line 160: | Line 160: | ||
Ensure IAT and engine coolant temperature are similar when engine is cold. Also ensure engine coolant temperature sensor (ECT or CHT) and actual engine operating temperature are the same. | Ensure IAT and engine coolant temperature are similar when engine is cold. Also ensure engine coolant temperature sensor (ECT or CHT) and actual engine operating temperature are the same. | ||
− | P0117 | + | ==P0117== |
===Error Description=== | ===Error Description=== | ||
Engine Coolant Temperature (ECT) Circuit Low Input Indicates the sensor signal is less than Self-Test minimum. The ECT sensor minimum is 0.2 volts or 121°C (250°F). Note on some vehicles that are not equipped with an ECT sensor, CHT can be used and can set this DTC. Grounded circuit in harness | Engine Coolant Temperature (ECT) Circuit Low Input Indicates the sensor signal is less than Self-Test minimum. The ECT sensor minimum is 0.2 volts or 121°C (250°F). Note on some vehicles that are not equipped with an ECT sensor, CHT can be used and can set this DTC. Grounded circuit in harness | ||
Line 168: | Line 168: | ||
ECT V PID reading less than 0.2 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. | ECT V PID reading less than 0.2 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. | ||
− | P0118 | + | ==P0118== |
===Error Description=== | ===Error Description=== | ||
Engine Coolant Temperature (ECT) Circuit High Input Indicates the sensor signal is greater than Self-Test maximum. The ECT sensor maximum is 4.6 volts or -50°C (-58°F). Note on some vehicles that are not equipped with an ECT sensor, CHT can be used and can set this DTC. Open circuit in harness | Engine Coolant Temperature (ECT) Circuit High Input Indicates the sensor signal is greater than Self-Test maximum. The ECT sensor maximum is 4.6 volts or -50°C (-58°F). Note on some vehicles that are not equipped with an ECT sensor, CHT can be used and can set this DTC. Open circuit in harness | ||
Line 177: | Line 177: | ||
ECT V PID reading greater than 4.6 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. | ECT V PID reading greater than 4.6 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. | ||
− | P0121 | + | ==P0121== |
===Error Description=== | ===Error Description=== | ||
Throttle Position (TP) Circuit Performance Problem The TP sensor circuit is monitored by the PCM for a non closed throttle position at idle. If key ON engine running self-test terminates upon placing the transmission range selector in gear (DRIVE or REVERSE) or when closing the throttle (idle) after opening it (in PARK or NEUTRAL) the TP closed throttle position is not attained, the test fails. Binding throttle linkage | Throttle Position (TP) Circuit Performance Problem The TP sensor circuit is monitored by the PCM for a non closed throttle position at idle. If key ON engine running self-test terminates upon placing the transmission range selector in gear (DRIVE or REVERSE) or when closing the throttle (idle) after opening it (in PARK or NEUTRAL) the TP closed throttle position is not attained, the test fails. Binding throttle linkage | ||
Line 186: | Line 186: | ||
Drive vehicle, bring to a stop, turn key OFF. Start vehicle, run key ON engine running self-test at idle. Access KOER diagnostic trouble codes on scan tool. | Drive vehicle, bring to a stop, turn key OFF. Start vehicle, run key ON engine running self-test at idle. Access KOER diagnostic trouble codes on scan tool. | ||
− | P0122 | + | ==P0122== |
===Error Description=== | ===Error Description=== | ||
Throttle Position (TP) Circuit Low Input The TP sensor circuit is monitored by the PCM for a low TP rotation angle (or voltage) input through the comprehensive component monitor (CCM). If during key ON engine OFF or key ON engine running the TP rotation angle (or voltage) changes below a minimum calibrated limit, the test fails. TP sensor not seated properly | Throttle Position (TP) Circuit Low Input The TP sensor circuit is monitored by the PCM for a low TP rotation angle (or voltage) input through the comprehensive component monitor (CCM). If during key ON engine OFF or key ON engine running the TP rotation angle (or voltage) changes below a minimum calibrated limit, the test fails. TP sensor not seated properly | ||
Line 196: | Line 196: | ||
A TP PID (TP V PID) reading less than 3.42% (0.17 volt) in key ON engine OFF, continuous memory or key ON engine running indicates a hard fault. | A TP PID (TP V PID) reading less than 3.42% (0.17 volt) in key ON engine OFF, continuous memory or key ON engine running indicates a hard fault. | ||
− | P0123 | + | ==P0123== |
===Error Description=== | ===Error Description=== | ||
Throttle Position (TP) Circuit High Input The TP sensor circuit is monitored by the PCM for a high TP rotation angle (or voltage) input through the comprehensive component monitor (CCM). If during key ON engine OFF or key ON engine running the TP rotation angle (or voltage) changes above maximum calibrated limit, the test fails. TP sensor not seated properly | Throttle Position (TP) Circuit High Input The TP sensor circuit is monitored by the PCM for a high TP rotation angle (or voltage) input through the comprehensive component monitor (CCM). If during key ON engine OFF or key ON engine running the TP rotation angle (or voltage) changes above maximum calibrated limit, the test fails. TP sensor not seated properly | ||
Line 206: | Line 206: | ||
A TP PID (TP V PID) reading greater than 93% (4.65 volts) in key ON engine OFF, continuous memory or key ON engine running indicates a hard fault. | A TP PID (TP V PID) reading greater than 93% (4.65 volts) in key ON engine OFF, continuous memory or key ON engine running indicates a hard fault. | ||
− | P0125 | + | ==P0125== |
===Error Description=== | ===Error Description=== | ||
Insufficient Coolant Temperature For Closed Loop Fuel Control Indicates the ECT or CHT sensor has not achieved the required temperature level to enter closed loop operating conditions within a specified amount of time after starting engine. Insufficient warm up time | Insufficient Coolant Temperature For Closed Loop Fuel Control Indicates the ECT or CHT sensor has not achieved the required temperature level to enter closed loop operating conditions within a specified amount of time after starting engine. Insufficient warm up time | ||
Line 215: | Line 215: | ||
Refer to Thermostat Monitor in Section 1, Description and Operation, for system information. | Refer to Thermostat Monitor in Section 1, Description and Operation, for system information. | ||
− | P0127 | + | ==P0127== |
===Error Description=== | ===Error Description=== | ||
Intake Air Temperature Too High Indicates that IAT2 sensor has detected a potential abnormality in the intercooler system. This condition will cause the boost from the supercharger to be bypassed to avoid potential engine damage. Blockage of heat exchangers | Intake Air Temperature Too High Indicates that IAT2 sensor has detected a potential abnormality in the intercooler system. This condition will cause the boost from the supercharger to be bypassed to avoid potential engine damage. Blockage of heat exchangers | ||
Line 224: | Line 224: | ||
Monitor IAT2 PID. Typical IAT2 temperature should be greater than IAT1. Refer to Section 6 : Reference Values for ranges. | Monitor IAT2 PID. Typical IAT2 temperature should be greater than IAT1. Refer to Section 6 : Reference Values for ranges. | ||
− | P0131 | + | ==P0131== |
===Error Description=== | ===Error Description=== | ||
HO2S Sensor Circuit Out of Range Low Voltage (HO2S-11) The HO2S sensor is monitored for a negative voltage known as characteristic shift downward (CSD). If the sensor is thought to be switching from 0 volts to -1 volts during testing, the PCM will use this input and remain in fuel control. Contaminated HO2S (water, fuel, etc) | HO2S Sensor Circuit Out of Range Low Voltage (HO2S-11) The HO2S sensor is monitored for a negative voltage known as characteristic shift downward (CSD). If the sensor is thought to be switching from 0 volts to -1 volts during testing, the PCM will use this input and remain in fuel control. Contaminated HO2S (water, fuel, etc) | ||
Crossed HO2S signal/signal return wiring | Crossed HO2S signal/signal return wiring | ||
− | P0133 | + | ==P0133== |
===Error Description=== | ===Error Description=== | ||
HO2S Sensor Circuit Slow Response (HO2S-11) The HEGO Monitor checks the HO2S Sensor frequency and amplitude. If during testing the frequency and amplitude were to fall below a calibrated limit, the test will fail. Contaminated HO2S sensor. | HO2S Sensor Circuit Slow Response (HO2S-11) The HEGO Monitor checks the HO2S Sensor frequency and amplitude. If during testing the frequency and amplitude were to fall below a calibrated limit, the test will fail. Contaminated HO2S sensor. | ||
Line 240: | Line 240: | ||
Access HO2S test results from the Generic OBD-II menu to verify DTC. | Access HO2S test results from the Generic OBD-II menu to verify DTC. | ||
− | P0135 | + | ==P0135== |
===Error Description=== | ===Error Description=== | ||
HO2S Sensor Circuit Malfunction (HO2S-11) During testing the HO2S Heaters are checked for opens/shorts and excessive current draw. The test fails when current draw exceeds a calibrated limit and/or an open or short is detected. Short to VPWR in harness or HO2S. | HO2S Sensor Circuit Malfunction (HO2S-11) During testing the HO2S Heaters are checked for opens/shorts and excessive current draw. The test fails when current draw exceeds a calibrated limit and/or an open or short is detected. Short to VPWR in harness or HO2S. | ||
Line 254: | Line 254: | ||
Damaged PCM. | Damaged PCM. | ||
− | P0136 | + | ==P0136== |
===Error Description=== | ===Error Description=== | ||
HO2S Sensor Circuit Malfunction (HO2S-12) The downstream HO2S sensor(s) are continuously checked for maximum and minimum voltages. The test fails when the voltages fail to meet the calibrated limits. Pinched, shorted, and corroded wiring and pins. | HO2S Sensor Circuit Malfunction (HO2S-12) The downstream HO2S sensor(s) are continuously checked for maximum and minimum voltages. The test fails when the voltages fail to meet the calibrated limits. Pinched, shorted, and corroded wiring and pins. | ||
Line 261: | Line 261: | ||
Contaminated or damaged sensor. | Contaminated or damaged sensor. | ||
− | P0141 | + | ==P0141== |
===Error Description=== | ===Error Description=== | ||
HO2S Sensor Circuit Malfunction (HO2S-125) See DTC P0135 | HO2S Sensor Circuit Malfunction (HO2S-125) See DTC P0135 | ||
− | P0148 | + | ==P0148== |
===Error Description=== | ===Error Description=== | ||
Fuel Delivery Error At least one bank lean at wide open throttle. Severely restricted fuel filter. | Fuel Delivery Error At least one bank lean at wide open throttle. Severely restricted fuel filter. | ||
Severely restricted fuel supply line. | Severely restricted fuel supply line. | ||
− | P0151 | + | ==P0151== |
===Error Description=== | ===Error Description=== | ||
HO2S Sensor Circuit Out of Range Low Voltage (HO2S-21) See DTC P0131 | HO2S Sensor Circuit Out of Range Low Voltage (HO2S-21) See DTC P0131 | ||
− | P0153 | + | ==P0153== |
===Error Description=== | ===Error Description=== | ||
HO2S Sensor Circuit Slow Response (HO2S-21) See DTC P0133 | HO2S Sensor Circuit Slow Response (HO2S-21) See DTC P0133 | ||
− | P0155 | + | ==P0155== |
===Error Description=== | ===Error Description=== | ||
HO2S Sensor Circuit Malfunction (HO2S-21) See DTC P0135 | HO2S Sensor Circuit Malfunction (HO2S-21) See DTC P0135 | ||
− | P0156 | + | ==P0156== |
===Error Description=== | ===Error Description=== | ||
HO2S Sensor Circuit Malfunction (HO2S-22) See DTC P0136 | HO2S Sensor Circuit Malfunction (HO2S-22) See DTC P0136 | ||
− | P0161 | + | ==P0161== |
===Error Description=== | ===Error Description=== | ||
HO2S Sensor Circuit Malfunction (HO2S-22) See DTC P0135 | HO2S Sensor Circuit Malfunction (HO2S-22) See DTC P0135 | ||
− | P0171 | + | ==P0171== |
===Error Description=== | ===Error Description=== | ||
System to Lean (Bank 1) The Adaptive Fuel Strategy continuously monitors fuel delivery hardware. The test fails when the adaptive fuel tables reach a rich calibrated limit. For lean and rich DTCs: | System to Lean (Bank 1) The Adaptive Fuel Strategy continuously monitors fuel delivery hardware. The test fails when the adaptive fuel tables reach a rich calibrated limit. For lean and rich DTCs: | ||
Line 315: | Line 315: | ||
A SHRTFT-1,2 PID value between -25% to +35% and a LONGFT-1,2 PID value between -35% to +35% is acceptable. Reading beyond these values indicate a failure. | A SHRTFT-1,2 PID value between -25% to +35% and a LONGFT-1,2 PID value between -35% to +35% is acceptable. Reading beyond these values indicate a failure. | ||
− | P0172 | + | ==P0172== |
===Error Description=== | ===Error Description=== | ||
System to Rich (Bank 1) The Adaptive Fuel Strategy continuously monitors the fuel delivery hardware. The test fails when the adaptive fuel tables reach a lean calibrated limit. See Possible Causes for DTC P0171 See Diagnostic Aides for DTC P0171 | System to Rich (Bank 1) The Adaptive Fuel Strategy continuously monitors the fuel delivery hardware. The test fails when the adaptive fuel tables reach a lean calibrated limit. See Possible Causes for DTC P0171 See Diagnostic Aides for DTC P0171 | ||
− | P0174 | + | ==P0174== |
===Error Description=== | ===Error Description=== | ||
System to Lean (Bank 2) The Adaptive Fuel Strategy continuously monitors the fuel delivery hardware. The test fails when the adaptive fuel tables reach a rich calibrated limit. See Possible Causes for DTC P0171. See Diagnostic Aides for DTC P0171 | System to Lean (Bank 2) The Adaptive Fuel Strategy continuously monitors the fuel delivery hardware. The test fails when the adaptive fuel tables reach a rich calibrated limit. See Possible Causes for DTC P0171. See Diagnostic Aides for DTC P0171 | ||
− | P0175 | + | ==P0175== |
===Error Description=== | ===Error Description=== | ||
System to Rich (Bank 2) The Adaptive Fuel Strategy continuously monitors the fuel delivery hardware. The test fails when the adaptive fuel tables reach a lean calibrated limit. See Possible Causes for DTC P0171. See Diagnostic Aides for DTC P0171 | System to Rich (Bank 2) The Adaptive Fuel Strategy continuously monitors the fuel delivery hardware. The test fails when the adaptive fuel tables reach a lean calibrated limit. See Possible Causes for DTC P0171. See Diagnostic Aides for DTC P0171 | ||
− | P0176 | + | ==P0176== |
===Error Description=== | ===Error Description=== | ||
Flexible Fuel (FF) Sensor Circuit Malfunction The FF sensor input signal to PCM is continuously monitored. The test fails when the signal falls out of a maximum or minimum calibrated range. Open or short in FF sensor VPWR circuit | Flexible Fuel (FF) Sensor Circuit Malfunction The FF sensor input signal to PCM is continuously monitored. The test fails when the signal falls out of a maximum or minimum calibrated range. Open or short in FF sensor VPWR circuit | ||
Line 341: | Line 341: | ||
A flex fuel (FF) PID reading of 0 Hz with the key ON and engine OFF or with engine at idle indicates a hard fault. | A flex fuel (FF) PID reading of 0 Hz with the key ON and engine OFF or with engine at idle indicates a hard fault. | ||
− | P0180 | + | ==P0180== |
===Error Description=== | ===Error Description=== | ||
Engine Fuel Temperature Sensor A Circuit Low Input (EFT) The comprehensive component monitor (CCM) monitors the EFT sensor circuit to the PCM for low and high voltage. If voltage were to fall below or exceed a calibrated limit and amount of time during testing, the test will fail. Open or short in harness. | Engine Fuel Temperature Sensor A Circuit Low Input (EFT) The comprehensive component monitor (CCM) monitors the EFT sensor circuit to the PCM for low and high voltage. If voltage were to fall below or exceed a calibrated limit and amount of time during testing, the test will fail. Open or short in harness. | ||
Line 350: | Line 350: | ||
Verify EFT-PID value to determine open or short. | Verify EFT-PID value to determine open or short. | ||
− | P0181 | + | ==P0181== |
===Error Description=== | ===Error Description=== | ||
Engine Fuel Temperature Sensor A Circuit Range/ Performance (EFT) The comprehensive component monitor (CCM) monitors the EFT Temperature for acceptable operating temperature. If during testing voltage were to fall below or exceed a calibrated limit, a calibrated amount of time the test will fail. Open or short in harness. | Engine Fuel Temperature Sensor A Circuit Range/ Performance (EFT) The comprehensive component monitor (CCM) monitors the EFT Temperature for acceptable operating temperature. If during testing voltage were to fall below or exceed a calibrated limit, a calibrated amount of time the test will fail. Open or short in harness. | ||
Line 359: | Line 359: | ||
Verify EFT-PID value to determine open or short. | Verify EFT-PID value to determine open or short. | ||
− | P0182 | + | ==P0182== |
===Error Description=== | ===Error Description=== | ||
Engine Fuel Temperature Sensor A Circuit Low Input (EFT) The comprehensive component monitor (CCM) monitors the EFT sensor circuit to the PCM for low voltage. If voltage were to fall below a calibrated limit and amount of time during testing, the test will fail. Short in harness. | Engine Fuel Temperature Sensor A Circuit Low Input (EFT) The comprehensive component monitor (CCM) monitors the EFT sensor circuit to the PCM for low voltage. If voltage were to fall below a calibrated limit and amount of time during testing, the test will fail. Short in harness. | ||
Line 369: | Line 369: | ||
Verify EFT-PID and VREF values to determine open or short. | Verify EFT-PID and VREF values to determine open or short. | ||
− | P0183 | + | ==P0183== |
===Error Description=== | ===Error Description=== | ||
Engine Fuel Temperature Sensor A Circuit High Input (EFT) The comprehensive component monitor (CCM) monitors the EFT sensor circuit to the PCM for high voltage. If voltage were to exceed a calibrated limit and a calibrated amount of time during testing, the test will fail. Open or short to PWR in harness. | Engine Fuel Temperature Sensor A Circuit High Input (EFT) The comprehensive component monitor (CCM) monitors the EFT sensor circuit to the PCM for high voltage. If voltage were to exceed a calibrated limit and a calibrated amount of time during testing, the test will fail. Open or short to PWR in harness. | ||
Line 377: | Line 377: | ||
Verify EFT-PID value to determine open or short. | Verify EFT-PID value to determine open or short. | ||
− | P0186 | + | ==P0186== |
===Error Description=== | ===Error Description=== | ||
Engine Fuel Temperature Sensor B Circuit Range/Performance (EFT) See DTC P0181. | Engine Fuel Temperature Sensor B Circuit Range/Performance (EFT) See DTC P0181. | ||
− | P0187 | + | ==P0187== |
===Error Description=== | ===Error Description=== | ||
Engine Fuel Temperature Sensor B Circuit Low Input (EFT). See DTC P0182. | Engine Fuel Temperature Sensor B Circuit Low Input (EFT). See DTC P0182. | ||
− | P0188 | + | ==P0188== |
===Error Description=== | ===Error Description=== | ||
Engine Fuel Temperature Sensor B Circuit High Input (EFT) See DTC P0183. | Engine Fuel Temperature Sensor B Circuit High Input (EFT) See DTC P0183. | ||
− | P0190 | + | ==P0190== |
===Error Description=== | ===Error Description=== | ||
Fuel Rail Pressure Sensor Circuit Malfunction (FRP) The comprehensive component monitor (CCM) monitors the FRP sensor to the PCM for VREF voltage. The test fails when the VREF voltage from the PCM drops to a voltage less than a minimum calibrated value. VREF open in harness. | Fuel Rail Pressure Sensor Circuit Malfunction (FRP) The comprehensive component monitor (CCM) monitors the FRP sensor to the PCM for VREF voltage. The test fails when the VREF voltage from the PCM drops to a voltage less than a minimum calibrated value. VREF open in harness. | ||
Line 396: | Line 396: | ||
Verify VREF voltage between 4.0 and 6.0V. | Verify VREF voltage between 4.0 and 6.0V. | ||
− | P0191 | + | ==P0191== |
===Error Description=== | ===Error Description=== | ||
Fuel Rail Pressure Sensor Circuit Performance (FRP) The comprehensive component monitor (CCM) monitors the FRP pressure for acceptable fuel pressure. The test fails when the fuel pressure falls below or exceeds a minimum/maximum calibrated value for a calibrated period of time. High fuel pressure. | Fuel Rail Pressure Sensor Circuit Performance (FRP) The comprehensive component monitor (CCM) monitors the FRP pressure for acceptable fuel pressure. The test fails when the fuel pressure falls below or exceeds a minimum/maximum calibrated value for a calibrated period of time. High fuel pressure. | ||
Line 405: | Line 405: | ||
A FRP PID value during KOER of 138 kpa (20 psi) and 413 kpa (60 psi) for gasoline or 586 kpa (85 psi) and 725 kpa (105 psi) for natural gas vehicles (NG) is acceptable. | A FRP PID value during KOER of 138 kpa (20 psi) and 413 kpa (60 psi) for gasoline or 586 kpa (85 psi) and 725 kpa (105 psi) for natural gas vehicles (NG) is acceptable. | ||
− | P0192 | + | ==P0192== |
===Error Description=== | ===Error Description=== | ||
Fuel Rail Pressure Sensor Circuit Low Input (FRP) The comprehensive component monitor (CCM) monitors the FRP sensor circuit to the PCM for low voltage. If voltage were to fall below a calibrated limit and amount of time during testing, the test will fail. FRP signal shorted to SIG RTN or PWR GND. | Fuel Rail Pressure Sensor Circuit Low Input (FRP) The comprehensive component monitor (CCM) monitors the FRP sensor circuit to the PCM for low voltage. If voltage were to fall below a calibrated limit and amount of time during testing, the test will fail. FRP signal shorted to SIG RTN or PWR GND. | ||
Line 414: | Line 414: | ||
A FRP PID value during KOER or KOEO less than 0.3 volts for gasoline or 0.5 volts for natural gas vehicles (NG) would indicate a hard fault. | A FRP PID value during KOER or KOEO less than 0.3 volts for gasoline or 0.5 volts for natural gas vehicles (NG) would indicate a hard fault. | ||
− | P0193 | + | ==P0193== |
===Error Description=== | ===Error Description=== | ||
Fuel Rail Pressure Sensor Circuit High Input (FRP) The comprehensive component monitor (CCM) monitors the FRP sensor circuit to the PCM for high voltage. If voltage were to fall below a calibrated limit and a calibrated amount of time during testing, the test will fail. FRP signal shorted to VREF or VPWR. | Fuel Rail Pressure Sensor Circuit High Input (FRP) The comprehensive component monitor (CCM) monitors the FRP sensor circuit to the PCM for high voltage. If voltage were to fall below a calibrated limit and a calibrated amount of time during testing, the test will fail. FRP signal shorted to VREF or VPWR. | ||
Line 424: | Line 424: | ||
A FRP PID value during KOER or KOEO less than 0.3 volts for gasoline or 0.5 volts for natural gas vehicles (NG) would indicate a hard fault. | A FRP PID value during KOER or KOEO less than 0.3 volts for gasoline or 0.5 volts for natural gas vehicles (NG) would indicate a hard fault. | ||
− | P0201 through P0212 | + | ==P0201== through P0212 |
===Error Description=== | ===Error Description=== | ||
Cylinder #1 through Cylinder #12 Injector Circuits The comprehensive component monitor (CCM) monitors the operation of the fuel injector drivers in the PCM. The test fails when the fuel injector does not operate electrically even though the harness assembly and fuel injectors test satisfactorily. Faulty fuel injector driver within the PCM. | Cylinder #1 through Cylinder #12 Injector Circuits The comprehensive component monitor (CCM) monitors the operation of the fuel injector drivers in the PCM. The test fails when the fuel injector does not operate electrically even though the harness assembly and fuel injectors test satisfactorily. Faulty fuel injector driver within the PCM. | ||
PID Data Monitor INJ1F-INJ12F fault flags = YES. | PID Data Monitor INJ1F-INJ12F fault flags = YES. | ||
− | P0217 | + | ==P0217== |
===Error Description=== | ===Error Description=== | ||
Engine Coolant Over-Temperature Condition Indicates an engine overheat condition was detected by the cylinder head temperature (CHT) sensor. This condition will cause the boost from the supercharger to be bypassed to avoid potential engine damage. Engine cooling system concerns. | Engine Coolant Over-Temperature Condition Indicates an engine overheat condition was detected by the cylinder head temperature (CHT) sensor. This condition will cause the boost from the supercharger to be bypassed to avoid potential engine damage. Engine cooling system concerns. | ||
Line 436: | Line 436: | ||
Monitor CHT PID for overheat condition. Typical CHT temperature should be close to cooling system thermostat opening specification. | Monitor CHT PID for overheat condition. Typical CHT temperature should be close to cooling system thermostat opening specification. | ||
− | P0230 | + | ==P0230== |
===Error Description=== | ===Error Description=== | ||
Fuel Pump Primary Circuit Malfunction NOTE: For natural gas applications, the following description applies to the fuel shutoff valve (FSV) circuit. | Fuel Pump Primary Circuit Malfunction NOTE: For natural gas applications, the following description applies to the fuel shutoff valve (FSV) circuit. | ||
Line 448: | Line 448: | ||
During KOEO and KOER self-test, the fuel pump output command will be cycled ON and OFF. | During KOEO and KOER self-test, the fuel pump output command will be cycled ON and OFF. | ||
− | P0231 | + | ==P0231== |
===Error Description=== | ===Error Description=== | ||
Fuel Pump Secondary Circuit Low NOTE: For natural gas applications, the following description applies to the fuel shutoff valve monitor (FSVM) and the fuel shutoff valve power (FSV PWR) circuits. | Fuel Pump Secondary Circuit Low NOTE: For natural gas applications, the following description applies to the fuel shutoff valve monitor (FSVM) and the fuel shutoff valve power (FSV PWR) circuits. | ||
Line 459: | Line 459: | ||
During KOEO self-test, the PCM will command the fuel pump ON so this test can be performed. | During KOEO self-test, the PCM will command the fuel pump ON so this test can be performed. | ||
− | P0232 | + | ==P0232== |
===Error Description=== | ===Error Description=== | ||
Fuel Pump Secondary Circuit High NOTE: For natural gas applications, the following description applies to the fuel shutoff valve monitor (FSVM) and the fuel shutoff valve power (FSV PWR) circuits. | Fuel Pump Secondary Circuit High NOTE: For natural gas applications, the following description applies to the fuel shutoff valve monitor (FSVM) and the fuel shutoff valve power (FSV PWR) circuits. | ||
Line 474: | Line 474: | ||
Continuous memory P0232 can be set if the IFS switch was tripped, then reset, or if the fuel pump circuit is activated when the PCM expected the circuit to be off (i.e. fuel system test or prime procedure). | Continuous memory P0232 can be set if the IFS switch was tripped, then reset, or if the fuel pump circuit is activated when the PCM expected the circuit to be off (i.e. fuel system test or prime procedure). | ||
− | P0234 | + | ==P0234== |
===Error Description=== | ===Error Description=== | ||
Supercharger Overboost Condition The PCM disables (bypasses) the supercharger boost and sets a diagnostic trouble code (DTC) to keep from damaging the powertrain (engine or transmission) during potential harmful operating conditions. Brake torque (brake on and throttle at wide open) | Supercharger Overboost Condition The PCM disables (bypasses) the supercharger boost and sets a diagnostic trouble code (DTC) to keep from damaging the powertrain (engine or transmission) during potential harmful operating conditions. Brake torque (brake on and throttle at wide open) | ||
Line 484: | Line 484: | ||
Check for other diagnostic trouble codes accompanying the P0234 or check appropriate and available PIDs related to above possible causes. | Check for other diagnostic trouble codes accompanying the P0234 or check appropriate and available PIDs related to above possible causes. | ||
− | P0243 | + | ==P0243== |
===Error Description=== | ===Error Description=== | ||
Supercharger (Boost) Bypass Solenoid Circuit Malfunction The PCM monitors the supercharger (boost) bypass (SCB) solenoid circuit for an electrical failure. The test fails when the signal moves outside the minimum or maximum allowable calibrated parameters for a specified SCB solenoid duty cycle (100% or 0%) by PCM command. VPWR circuit open to SCB solenoid | Supercharger (Boost) Bypass Solenoid Circuit Malfunction The PCM monitors the supercharger (boost) bypass (SCB) solenoid circuit for an electrical failure. The test fails when the signal moves outside the minimum or maximum allowable calibrated parameters for a specified SCB solenoid duty cycle (100% or 0%) by PCM command. VPWR circuit open to SCB solenoid | ||
Line 494: | Line 494: | ||
Disconnect SCB solenoid. Connect test lamp to SCB solenoid harness connector. Cycle SCB driver in PCM by Output Test Mode. Test lamp cycle on and off - SCB solenoid is suspect. Test lamp always on - SCB signal short in harness or PCM. Test always off - SCB signal or VPWR open in harness or PCM. | Disconnect SCB solenoid. Connect test lamp to SCB solenoid harness connector. Cycle SCB driver in PCM by Output Test Mode. Test lamp cycle on and off - SCB solenoid is suspect. Test lamp always on - SCB signal short in harness or PCM. Test always off - SCB signal or VPWR open in harness or PCM. | ||
− | P0298 | + | ==P0298== |
===Error Description=== | ===Error Description=== | ||
Engine Oil Over Temperature Condition Indicates the Engine Oil Temperature Protection strategy in the PCM has been activated. This will temporarily prohibit high engine speed operation by disabling injectors, therefore reducing the risk of engine damage from high engine oil temperature. Note: On engines which are equipped with an oil temperature sensor, the PCM reads oil temperature to determine if it is excessive. When an oil temperature sensor is not present, the PCM uses an oil algorithm to infer actual temperature. Engine shutdown strategy function is the same on vehicles with and without oil temperature sensors. Very high engine rpm for extended period of time. | Engine Oil Over Temperature Condition Indicates the Engine Oil Temperature Protection strategy in the PCM has been activated. This will temporarily prohibit high engine speed operation by disabling injectors, therefore reducing the risk of engine damage from high engine oil temperature. Note: On engines which are equipped with an oil temperature sensor, the PCM reads oil temperature to determine if it is excessive. When an oil temperature sensor is not present, the PCM uses an oil algorithm to infer actual temperature. Engine shutdown strategy function is the same on vehicles with and without oil temperature sensors. Very high engine rpm for extended period of time. | ||
Line 502: | Line 502: | ||
Engine operating in high rpm range, due to improper gear selection. May cause Lack/Loss of Power or Surge customer concern. | Engine operating in high rpm range, due to improper gear selection. May cause Lack/Loss of Power or Surge customer concern. | ||
− | P0300 | + | ==P0300== |
===Error Description=== | ===Error Description=== | ||
Random Misfire The random misfire DTC indicates multiple cylinders are misfiring or the PCM cannot identify which cylinder is misfiring. Camshaft position sensor (CMP) | Random Misfire The random misfire DTC indicates multiple cylinders are misfiring or the PCM cannot identify which cylinder is misfiring. Camshaft position sensor (CMP) | ||
Line 510: | Line 510: | ||
One or more EGR passages may be blocked or partially blocked. If this is the case the Misfire Detection Monitor will indicate the EGR port to check for possible blockage. | One or more EGR passages may be blocked or partially blocked. If this is the case the Misfire Detection Monitor will indicate the EGR port to check for possible blockage. | ||
− | P0301 through P0310 | + | ==P0301== through P0310 |
===Error Description=== | ===Error Description=== | ||
Misfire Detection Monitor The misfire detection monitor is designed to monitor engine misfire and identify the specific cylinder in which the misfire has occurred. Misfire is defined as lack of combustion in a cylinder due to absence of spark, poor fuel metering, poor compression, or any other cause. Ignition system | Misfire Detection Monitor The misfire detection monitor is designed to monitor engine misfire and identify the specific cylinder in which the misfire has occurred. Misfire is defined as lack of combustion in a cylinder due to absence of spark, poor fuel metering, poor compression, or any other cause. Ignition system | ||
Line 521: | Line 521: | ||
The MIL will blink once per second when a misfire is detected severe enough to cause catalyst damage. If the MIL is on steady state, due to a misfire, this will indicate the threshold for emissions was exceeded and cause the vehicle to fail an inspection and maintenance tailpipe test. | The MIL will blink once per second when a misfire is detected severe enough to cause catalyst damage. If the MIL is on steady state, due to a misfire, this will indicate the threshold for emissions was exceeded and cause the vehicle to fail an inspection and maintenance tailpipe test. | ||
− | P0320 | + | ==P0320== |
===Error Description=== | ===Error Description=== | ||
Ignition Engine Speed Input Circuit Malfunction The ignition engine speed sensor input signal to PCM is continuously monitored. The test fails when the signal indicates that two successive erratic profile ignition pickup (PIP) pulses have occurred. Loose wires/connectors. | Ignition Engine Speed Input Circuit Malfunction The ignition engine speed sensor input signal to PCM is continuously monitored. The test fails when the signal indicates that two successive erratic profile ignition pickup (PIP) pulses have occurred. Loose wires/connectors. | ||
Line 528: | Line 528: | ||
The DTC indicates that two successive erratic PIP pulses occurred. | The DTC indicates that two successive erratic PIP pulses occurred. | ||
− | P0325 | + | ==P0325== |
===Error Description=== | ===Error Description=== | ||
Knock Sensor 1 Circuit Malfunction (Bank 1) See DTC P0326 | Knock Sensor 1 Circuit Malfunction (Bank 1) See DTC P0326 | ||
− | P0326 | + | ==P0326== |
===Error Description=== | ===Error Description=== | ||
Knock Sensor 1 Circuit Range/ Performance (Bank 1) The knock sensor detects vibrations upon increase and decrease in engine rpm. The knock sensor generates a voltage based on this vibration. Should this voltage go outside a calibrated level a DTC will set. Knock sensor circuit short to GND | Knock Sensor 1 Circuit Range/ Performance (Bank 1) The knock sensor detects vibrations upon increase and decrease in engine rpm. The knock sensor generates a voltage based on this vibration. Should this voltage go outside a calibrated level a DTC will set. Knock sensor circuit short to GND | ||
Line 541: | Line 541: | ||
A knock sensor voltage greater than 0.5V with the key ON and engine OFF indicates a hard fault. | A knock sensor voltage greater than 0.5V with the key ON and engine OFF indicates a hard fault. | ||
− | P0330 | + | ==P0330== |
===Error Description=== | ===Error Description=== | ||
Knock Sensor 2 Circuit Malfunction (Bank 2) See DTC P0331 | Knock Sensor 2 Circuit Malfunction (Bank 2) See DTC P0331 | ||
− | P0331 | + | ==P0331== |
===Error Description=== | ===Error Description=== | ||
Knock Sensor 2 Circuit Range/performance (Bank 2) The knock sensor detects vibration upon increase and decrease in engine rpm. The knock sensor generates a voltage based on this vibration. Should this voltage go outside a calibrated level a DTC will set. Knock sensor circuit short to GND | Knock Sensor 2 Circuit Range/performance (Bank 2) The knock sensor detects vibration upon increase and decrease in engine rpm. The knock sensor generates a voltage based on this vibration. Should this voltage go outside a calibrated level a DTC will set. Knock sensor circuit short to GND | ||
Line 554: | Line 554: | ||
A knock sensor voltage greater than 0.5V with the key ON and engine OFF indicates a hard fault. | A knock sensor voltage greater than 0.5V with the key ON and engine OFF indicates a hard fault. | ||
− | P0340 | + | ==P0340== |
===Error Description=== | ===Error Description=== | ||
Camshaft Position (CMP) Sensor Circuit Malfunction The test fails when the PCM can no longer detect the signal from the CMP sensor. CMP circuit open | Camshaft Position (CMP) Sensor Circuit Malfunction The test fails when the PCM can no longer detect the signal from the CMP sensor. CMP circuit open | ||
Line 567: | Line 567: | ||
Harness routing, harness alterations, improper shielding, or electrical interference from other improperly functioning systems may have intermittent impact on the CMP signal. | Harness routing, harness alterations, improper shielding, or electrical interference from other improperly functioning systems may have intermittent impact on the CMP signal. | ||
− | P0350 | + | ==P0350== |
===Error Description=== | ===Error Description=== | ||
Ignition Coil (Undetermined) Primary/ Secondary Circuit Malfunction Each ignition primary circuit is continuously monitored. The test fails when the PCM does not receive a valid IDM pulse signal from the ignition module (integrated in PCM). Open or short in Ignition START/RUN circuit | Ignition Coil (Undetermined) Primary/ Secondary Circuit Malfunction Each ignition primary circuit is continuously monitored. The test fails when the PCM does not receive a valid IDM pulse signal from the ignition module (integrated in PCM). Open or short in Ignition START/RUN circuit | ||
Line 576: | Line 576: | ||
Coil driver circuit shorted to VPWR | Coil driver circuit shorted to VPWR | ||
− | P0351 Through P0360 | + | ==P0351== Through P0360 |
===Error Description=== | ===Error Description=== | ||
Ignition Coil A through J Primary/ Secondary Circuit Malfunction Each ignition primary circuit is continuously monitored. The test fails when the PCM does not receive a valid IDM pulse signal from the ignition module (integrated in PCM). Open or short in Ignition START/RUN circuit | Ignition Coil A through J Primary/ Secondary Circuit Malfunction Each ignition primary circuit is continuously monitored. The test fails when the PCM does not receive a valid IDM pulse signal from the ignition module (integrated in PCM). Open or short in Ignition START/RUN circuit | ||
Line 585: | Line 585: | ||
Coil driver circuit shorted to PWR | Coil driver circuit shorted to PWR | ||
− | P0400 | + | ==P0400== |
===Error Description=== | ===Error Description=== | ||
EGR Flow Failure (outside the minimum or maximum limits) The EEGR system is monitored once per drive cycle during steady state conditions above 48 mph . The test will fail when a malfunction is detected by PCM calculations indicating the EGR flow is less or greater than expected. EEGR valve stuck open or closed | EGR Flow Failure (outside the minimum or maximum limits) The EEGR system is monitored once per drive cycle during steady state conditions above 48 mph . The test will fail when a malfunction is detected by PCM calculations indicating the EGR flow is less or greater than expected. EEGR valve stuck open or closed | ||
Line 599: | Line 599: | ||
All of the following sensors input data to the PCM for proper operation of the EEGR system: ECT, CPS, IAT, MAF, TP, MAP. Any DTC relating to these sensors must be resolved prior to addressing P0400 code. | All of the following sensors input data to the PCM for proper operation of the EEGR system: ECT, CPS, IAT, MAF, TP, MAP. Any DTC relating to these sensors must be resolved prior to addressing P0400 code. | ||
− | P0401 | + | ==P0401== |
===Error Description=== | ===Error Description=== | ||
EGR Flow Insufficient Detected The EGR system is monitored during steady state driving conditions while the EGR is commanded on. The test fails when the signal from the DPF EGR sensor indicates that EGR flow is less than the desired minimum. Vacuum supply | EGR Flow Insufficient Detected The EGR system is monitored during steady state driving conditions while the EGR is commanded on. The test fails when the signal from the DPF EGR sensor indicates that EGR flow is less than the desired minimum. Vacuum supply | ||
Line 617: | Line 617: | ||
Perform KOER self-test and look for DTC P1408 as an indication of a hard fault. If P1408 is not present, look for contamination, restrictions, leaks, and intermittents. | Perform KOER self-test and look for DTC P1408 as an indication of a hard fault. If P1408 is not present, look for contamination, restrictions, leaks, and intermittents. | ||
− | P0402 | + | ==P0402== |
===Error Description=== | ===Error Description=== | ||
EGR Flow Excessive Detected The EGR system is monitored for undesired EGR flow during idle. The EGR monitor looks at the DPF EGR signal at idle and compares it to the stored signal measured during key ON and engine OFF. The test fails when the signal at idle is greater than at key ON engine OFF by a calibrated amount. EGR valve stuck open | EGR Flow Excessive Detected The EGR system is monitored for undesired EGR flow during idle. The EGR monitor looks at the DPF EGR signal at idle and compares it to the stored signal measured during key ON and engine OFF. The test fails when the signal at idle is greater than at key ON engine OFF by a calibrated amount. EGR valve stuck open | ||
Line 631: | Line 631: | ||
A DPFEGR PID reading that is greater at idle than during key ON and engine OFF by 0.5 volt or a rough engine idle, may indicate a hard fault. | A DPFEGR PID reading that is greater at idle than during key ON and engine OFF by 0.5 volt or a rough engine idle, may indicate a hard fault. | ||
− | P0403 | + | ==P0403== |
===Error Description=== | ===Error Description=== | ||
EEGR Electric Motor Windings Or Circuits To The PCM Shorted Or Open The EEGR system is continously monitored to check the 4 EEGR motor coils, circuits, and the PCM for opens, shorts to power and ground. If a malfunction is detected the EEGR system will be disabled and additional monitoring will be suspended for the remainder of the drive until the next drive cycle. EEGR motor windings open | EEGR Electric Motor Windings Or Circuits To The PCM Shorted Or Open The EEGR system is continously monitored to check the 4 EEGR motor coils, circuits, and the PCM for opens, shorts to power and ground. If a malfunction is detected the EEGR system will be disabled and additional monitoring will be suspended for the remainder of the drive until the next drive cycle. EEGR motor windings open | ||
Line 642: | Line 642: | ||
If an intermittent condition is suspected the most effective methoid of wiring fault isolation is to use the wiggle test methoid while measuring for shorts and open circuits. | If an intermittent condition is suspected the most effective methoid of wiring fault isolation is to use the wiggle test methoid while measuring for shorts and open circuits. | ||
− | P0411 | + | ==P0411== |
===Error Description=== | ===Error Description=== | ||
Secondary Air Injection (AIR) system upstream flow See DTC P1411 | Secondary Air Injection (AIR) system upstream flow See DTC P1411 | ||
− | P0412 | + | ==P0412== |
===Error Description=== | ===Error Description=== | ||
Secondary Air Injection System (AIR) circuit malfunction The PCM attempts to control when air is injected in the exhaust. The DTC indicates a Secondary Air injection system AIR circuit fault. AIR circuit open | Secondary Air Injection System (AIR) circuit malfunction The PCM attempts to control when air is injected in the exhaust. The DTC indicates a Secondary Air injection system AIR circuit fault. AIR circuit open | ||
Line 656: | Line 656: | ||
The AIR circuit is normally held high through the AIR bypass solenoid and SSR when the output driver is off. Therefore, a low AIR circuit indicates a driver is always on and a high circuit indicates an open in the PCM. | The AIR circuit is normally held high through the AIR bypass solenoid and SSR when the output driver is off. Therefore, a low AIR circuit indicates a driver is always on and a high circuit indicates an open in the PCM. | ||
− | P0420 | + | ==P0420== |
===Error Description=== | ===Error Description=== | ||
Catalyst System Efficiency Below Threshold (Bank 1) Indicates Bank 1 catalyst system efficiency is below the acceptable threshold Use of leaded fuel | Catalyst System Efficiency Below Threshold (Bank 1) Indicates Bank 1 catalyst system efficiency is below the acceptable threshold Use of leaded fuel | ||
Line 672: | Line 672: | ||
Compare HO2S upstream and downstream switch rate and amplitude. Under normal closed loop fuel conditions, high efficiency catalysts have oxygen storage which makes the switching frequency of the downstream HO2S very slow and reduces the amplitude of those switches as compared to the upstream HO2S. As catalyst efficiency deteriorates, its ability to store oxygen declines and the downstream HO2S signal begins to switch more rapidly with increase amplitude, approaching the switching rate and amplitude of the upstream HO2S. Once beyond an acceptable limit the DTC is set. | Compare HO2S upstream and downstream switch rate and amplitude. Under normal closed loop fuel conditions, high efficiency catalysts have oxygen storage which makes the switching frequency of the downstream HO2S very slow and reduces the amplitude of those switches as compared to the upstream HO2S. As catalyst efficiency deteriorates, its ability to store oxygen declines and the downstream HO2S signal begins to switch more rapidly with increase amplitude, approaching the switching rate and amplitude of the upstream HO2S. Once beyond an acceptable limit the DTC is set. | ||
− | P0430 | + | ==P0430== |
===Error Description=== | ===Error Description=== | ||
Catalyst System Efficiency Below Threshold (Bank 2) Indicates Bank 2 catalyst system efficiency is below the acceptable threshold. Use of leaded fuel | Catalyst System Efficiency Below Threshold (Bank 2) Indicates Bank 2 catalyst system efficiency is below the acceptable threshold. Use of leaded fuel | ||
Line 688: | Line 688: | ||
Compare HO2S upstream and downstream switch rate and amplitude. Under normal closed loop fuel conditions, high efficiency catalysts have oxygen storage which makes the switching frequency of the downstream HO2S very slow and reduces the amplitude of those switches as compared to the upstream HO2S. As catalyst efficiency deteriorates, its ability to store oxygen declines and the downstream HO2S signal begins to switch more rapidly with increase amplitude, approaching the switching rate and amplitude of the upstream HO2S. Once beyond an acceptable limit the DTC is set. | Compare HO2S upstream and downstream switch rate and amplitude. Under normal closed loop fuel conditions, high efficiency catalysts have oxygen storage which makes the switching frequency of the downstream HO2S very slow and reduces the amplitude of those switches as compared to the upstream HO2S. As catalyst efficiency deteriorates, its ability to store oxygen declines and the downstream HO2S signal begins to switch more rapidly with increase amplitude, approaching the switching rate and amplitude of the upstream HO2S. Once beyond an acceptable limit the DTC is set. | ||
− | P0442 | + | ==P0442== |
===Error Description=== | ===Error Description=== | ||
EVAP Control System Leak Detected (Small Leak) The PCM monitors the complete EVAP control system for presence of a small fuel vapor leak. The system failure occurs when a fuel vapor leak from an opening as small as 1.016 mm (0.04 inch) is detected by the EVAP running loss monitor test. After-market EVAP hardware (such as fuel filler cap) non-conforming to required specifications | EVAP Control System Leak Detected (Small Leak) The PCM monitors the complete EVAP control system for presence of a small fuel vapor leak. The system failure occurs when a fuel vapor leak from an opening as small as 1.016 mm (0.04 inch) is detected by the EVAP running loss monitor test. After-market EVAP hardware (such as fuel filler cap) non-conforming to required specifications | ||
Line 697: | Line 697: | ||
EVAP system component seals leaking (EVAP canister purge valve, fuel tank pressure sensor, canister vent solenoid, fuel vapor control valve tube assembly or fuel vapor vent valve assembly) | EVAP system component seals leaking (EVAP canister purge valve, fuel tank pressure sensor, canister vent solenoid, fuel vapor control valve tube assembly or fuel vapor vent valve assembly) | ||
− | P0443 | + | ==P0443== |
===Error Description=== | ===Error Description=== | ||
EVAP Control System Canister Purge Valve Circuit Malfunction The PCM monitors the EVAP canister purge valve circuit for an electrical failure. The test fails when the signal moves outside the minimum or maximum allowable calibrated parameters for a specified purge duty cycle by PCM command. VPWR circuit open | EVAP Control System Canister Purge Valve Circuit Malfunction The PCM monitors the EVAP canister purge valve circuit for an electrical failure. The test fails when the signal moves outside the minimum or maximum allowable calibrated parameters for a specified purge duty cycle by PCM command. VPWR circuit open | ||
Line 707: | Line 707: | ||
Monitor EVAPPDC PID and voltage between EVAP canister valve signal and PWR GND in output test mode with key ON engine OFF (or in key ON engine RUNNING mode). EVAPPDC PID at 0% and voltage less than 1.0 volts (or EVAPPDC PID at 100% and voltage less than 0.5 volts) indicates a hard fault. | Monitor EVAPPDC PID and voltage between EVAP canister valve signal and PWR GND in output test mode with key ON engine OFF (or in key ON engine RUNNING mode). EVAPPDC PID at 0% and voltage less than 1.0 volts (or EVAPPDC PID at 100% and voltage less than 0.5 volts) indicates a hard fault. | ||
− | P0451 | + | ==P0451== |
===Error Description=== | ===Error Description=== | ||
FTP Sensor Circuit Noisy The fuel tank pressure changes greater than 14 inches of H 2 0 in 0.10 seconds. Intermittent open or short in the FTP sensor or the FTP sensor signal. | FTP Sensor Circuit Noisy The fuel tank pressure changes greater than 14 inches of H 2 0 in 0.10 seconds. Intermittent open or short in the FTP sensor or the FTP sensor signal. | ||
Monitor FTP PID and does it change from above 15 inches of H 2 0 to below a minus (-) 15 inches of H 2 0 often in 1.0 minute. | Monitor FTP PID and does it change from above 15 inches of H 2 0 to below a minus (-) 15 inches of H 2 0 often in 1.0 minute. | ||
− | P0452 | + | ==P0452== |
===Error Description=== | ===Error Description=== | ||
FTP Sensor Circuit Low Voltage Detected The PCM monitors the EVAP control system FTP sensor input signal to the PCM. The test fails when the signal average drops below a minimum allowable calibrated parameter. Contamination internal to FTP sensor connector | FTP Sensor Circuit Low Voltage Detected The PCM monitors the EVAP control system FTP sensor input signal to the PCM. The test fails when the signal average drops below a minimum allowable calibrated parameter. Contamination internal to FTP sensor connector | ||
Line 720: | Line 720: | ||
FTP V PID reading less than 0.22 volt with key ON and engine OFF or during any engine operating mode indicates a hard fault. | FTP V PID reading less than 0.22 volt with key ON and engine OFF or during any engine operating mode indicates a hard fault. | ||
− | P0453 | + | ==P0453== |
===Error Description=== | ===Error Description=== | ||
FTP Sensor Circuit High Voltage Detected The PCM monitors the EVAP control system FTP sensor input signal to the PCM. The test fails when the signal average jumps above a minimum allowable calibrated parameter. FTP circuit open | FTP Sensor Circuit High Voltage Detected The PCM monitors the EVAP control system FTP sensor input signal to the PCM. The test fails when the signal average jumps above a minimum allowable calibrated parameter. FTP circuit open | ||
Line 730: | Line 730: | ||
FTP V PID reading greater than 4.50 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. | FTP V PID reading greater than 4.50 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. | ||
− | P0455 | + | ==P0455== |
===Error Description=== | ===Error Description=== | ||
EVAP Control System Leak Detected (No Purge Flow or Large Leak) The PCM monitors the complete EVAP control system for no purge flow, the presence of a large fuel vapor leak or multiple small fuel vapor leaks. The system failure occurs when no purge flow (attributed to fuel vapor blockages or restrictions), a large fuel vapor leak or multiple fuel vapor leaks are detected by the EVAP running loss monitor test with the engine running (but not at idle). After-market EVAP hardware (such as fuel filler cap) non-conforming to required specifications | EVAP Control System Leak Detected (No Purge Flow or Large Leak) The PCM monitors the complete EVAP control system for no purge flow, the presence of a large fuel vapor leak or multiple small fuel vapor leaks. The system failure occurs when no purge flow (attributed to fuel vapor blockages or restrictions), a large fuel vapor leak or multiple fuel vapor leaks are detected by the EVAP running loss monitor test with the engine running (but not at idle). After-market EVAP hardware (such as fuel filler cap) non-conforming to required specifications | ||
Line 745: | Line 745: | ||
Check for audible vacuum noise or significant fuel odor in the engine compartment or near the EVAP canister and fuel tank. | Check for audible vacuum noise or significant fuel odor in the engine compartment or near the EVAP canister and fuel tank. | ||
− | P0456 | + | ==P0456== |
===Error Description=== | ===Error Description=== | ||
EVAP Control System Leak Detected (Very Small Leak) The PCM monitors the complete EVAP control system for the presence of a very small fuel vapor leak. The system failure occurs when a fuel vapor leak from an opening as small as 0.508 mm (0.020 inch) is detected by the EVAP running loss monitor test. Very small holes or cuts in fuel vapor hoses/tubes. | EVAP Control System Leak Detected (Very Small Leak) The PCM monitors the complete EVAP control system for the presence of a very small fuel vapor leak. The system failure occurs when a fuel vapor leak from an opening as small as 0.508 mm (0.020 inch) is detected by the EVAP running loss monitor test. Very small holes or cuts in fuel vapor hoses/tubes. | ||
Line 751: | Line 751: | ||
EVAP system component seals leaking (refer to Possible Causes under DTC P0442). | EVAP system component seals leaking (refer to Possible Causes under DTC P0442). | ||
− | P0457 | + | ==P0457== |
===Error Description=== | ===Error Description=== | ||
EVAP Control System Leak Detected (Fuel Filler Cap Loose/Off) A fuel tank pressure change greater than a minus (-) 7 inches of H 2 0 in 30 seconds has occurred after refueling; or there is excessive purge (fuel vapor) flow greater than 0.06 pounds per minute. Fuel filler cap not installed on refueling (storing continuous memory DTC) and "check Fuel Cap" light may also be illuminated. | EVAP Control System Leak Detected (Fuel Filler Cap Loose/Off) A fuel tank pressure change greater than a minus (-) 7 inches of H 2 0 in 30 seconds has occurred after refueling; or there is excessive purge (fuel vapor) flow greater than 0.06 pounds per minute. Fuel filler cap not installed on refueling (storing continuous memory DTC) and "check Fuel Cap" light may also be illuminated. | ||
Line 757: | Line 757: | ||
Check for missing fuel filler cap or integrity of the cap. If OK, clear continuous memory DTCs and re-initiate EVAP Emission Running Loss Monitor Drive Cycle. | Check for missing fuel filler cap or integrity of the cap. If OK, clear continuous memory DTCs and re-initiate EVAP Emission Running Loss Monitor Drive Cycle. | ||
− | P0460 | + | ==P0460== |
===Error Description=== | ===Error Description=== | ||
Fuel Level Sensor Circuit Malfunction The PCM monitors the fuel level input (FLI) circuit for electrical failure. The test fails when the signal moves outside the minimum or maximum allowable calibrated parameters for a specified fuel fill percentage in the fuel tank. Empty fuel tank | Fuel Level Sensor Circuit Malfunction The PCM monitors the fuel level input (FLI) circuit for electrical failure. The test fails when the signal moves outside the minimum or maximum allowable calibrated parameters for a specified fuel fill percentage in the fuel tank. Empty fuel tank | ||
Line 774: | Line 774: | ||
Monitor FLI PID and FLI V PID in key ON engine RUNNING. FLI PID at 25% fill (with non matching fuel gauge) and FLI V PID less than 0.90 volts [for FLI PID at 75% fill (with non matching fuel gauge) and FLI V PID greater than 2.45 volts] indicates a hard fault. | Monitor FLI PID and FLI V PID in key ON engine RUNNING. FLI PID at 25% fill (with non matching fuel gauge) and FLI V PID less than 0.90 volts [for FLI PID at 75% fill (with non matching fuel gauge) and FLI V PID greater than 2.45 volts] indicates a hard fault. | ||
− | P0500 | + | ==P0500== |
===Error Description=== | ===Error Description=== | ||
Vehicle Speed Sensor (VSS) Malfunction Indicates the powertrain control module (PCM) detected an error in the vehicle speed information. Vehicle speed data is received from either the vehicle speed sensor (VSS), transfer case speed sensor (TCSS), anti-lock brake system (ABS) control module, generic electronic module (GEM), or central timer module (CTM). If the engine rpm is above the torque converter stall speed (automatic transmission) and engine load is high, it can be inferred that the vehicle must be moving. If there is insufficient vehicle speed data input, a malfunction is indicated and a DTC is set. On most vehicle applications the malfunction indicator lamp (MIL) will be triggered when this DTC is set. Open in VSS+/VSS- harness circuit. | Vehicle Speed Sensor (VSS) Malfunction Indicates the powertrain control module (PCM) detected an error in the vehicle speed information. Vehicle speed data is received from either the vehicle speed sensor (VSS), transfer case speed sensor (TCSS), anti-lock brake system (ABS) control module, generic electronic module (GEM), or central timer module (CTM). If the engine rpm is above the torque converter stall speed (automatic transmission) and engine load is high, it can be inferred that the vehicle must be moving. If there is insufficient vehicle speed data input, a malfunction is indicated and a DTC is set. On most vehicle applications the malfunction indicator lamp (MIL) will be triggered when this DTC is set. Open in VSS+/VSS- harness circuit. | ||
Line 790: | Line 790: | ||
Monitor VSS PID while driving vehicle. This DTC is set when the PCM detects a sudden loss of vehicle speed signal over a period of time. If vehicle speed data is lost, check the source of where the vehicle speed input originates from: VSS, TCSS, ABS, GEM or CTM. Note: On some MSOF applications, VSS and TCSS PID can be monitor. However if no TCSS PID is available and VSS PID is zero, TCSS circuitry frequency must be checked for loss of sensor signal. If another vehicle electronic module has generated the P0500 and the vehicle does not receive its vehicle speed input from one of the above mention sources (VSS, TCSS, ABS, GEM or CTM). Check the PCM for Output Shaft Speed Sensor (OSS) DTCs. On OSS applications the PCM uses the OSS to calculated the vehicle speed. If no OSS DTCs are found check for correct PCM configuration. Check PCM configuration for correct tire size and axle ratio. | Monitor VSS PID while driving vehicle. This DTC is set when the PCM detects a sudden loss of vehicle speed signal over a period of time. If vehicle speed data is lost, check the source of where the vehicle speed input originates from: VSS, TCSS, ABS, GEM or CTM. Note: On some MSOF applications, VSS and TCSS PID can be monitor. However if no TCSS PID is available and VSS PID is zero, TCSS circuitry frequency must be checked for loss of sensor signal. If another vehicle electronic module has generated the P0500 and the vehicle does not receive its vehicle speed input from one of the above mention sources (VSS, TCSS, ABS, GEM or CTM). Check the PCM for Output Shaft Speed Sensor (OSS) DTCs. On OSS applications the PCM uses the OSS to calculated the vehicle speed. If no OSS DTCs are found check for correct PCM configuration. Check PCM configuration for correct tire size and axle ratio. | ||
− | P0501 | + | ==P0501== |
===Error Description=== | ===Error Description=== | ||
Vehicle Speed Sensor (VSS) Range/ Performance Indicates the powertrain control module (PCM) detected an error in the vehicle speed information. This DTC is set the same way as P0500, however the malfunction indicator lamp (MIL) is not triggered. Refer to possible causes for P0500. | Vehicle Speed Sensor (VSS) Range/ Performance Indicates the powertrain control module (PCM) detected an error in the vehicle speed information. This DTC is set the same way as P0500, however the malfunction indicator lamp (MIL) is not triggered. Refer to possible causes for P0500. | ||
Refer to diagnostic aids for P0500. | Refer to diagnostic aids for P0500. | ||
− | P0503 | + | ==P0503== |
===Error Description=== | ===Error Description=== | ||
Vehicle Speed Sensor (VSS) Intermittent Indicates poor or noisy VSS performance. Vehicle speed data is received from either the vehicle speed sensor (VSS), transfer case speed sensor (TCSS), anti-lock brake system (ABS) control module, generic electronic module (GEM), or central timer module (CTM). Noisy VSS/TCSS input signal from Radio Frequency Interference/ Electro-Magnetic Interference (RFI/EMI) external sources such as ignition components or charging circuit. | Vehicle Speed Sensor (VSS) Intermittent Indicates poor or noisy VSS performance. Vehicle speed data is received from either the vehicle speed sensor (VSS), transfer case speed sensor (TCSS), anti-lock brake system (ABS) control module, generic electronic module (GEM), or central timer module (CTM). Noisy VSS/TCSS input signal from Radio Frequency Interference/ Electro-Magnetic Interference (RFI/EMI) external sources such as ignition components or charging circuit. | ||
Line 805: | Line 805: | ||
Monitor VSS PID while driving vehicle, check for intermittent vehicle speed indication. Verify ignition and charging system are functioning correctly. | Monitor VSS PID while driving vehicle, check for intermittent vehicle speed indication. Verify ignition and charging system are functioning correctly. | ||
− | P0505 | + | ==P0505== |
===Error Description=== | ===Error Description=== | ||
Idle Air Control System Malfunction The PCM attempts to control engine speed during KOER self-test. The test fails when the desired rpm could not be reached or controlled during the self-test. IAC circuit open | Idle Air Control System Malfunction The PCM attempts to control engine speed during KOER self-test. The test fails when the desired rpm could not be reached or controlled during the self-test. IAC circuit open | ||
Line 815: | Line 815: | ||
The IAC solenoid resistance is from 6 to 13 ohms. | The IAC solenoid resistance is from 6 to 13 ohms. | ||
− | P0552 | + | ==P0552== |
===Error Description=== | ===Error Description=== | ||
Power Steering Pressure (PSP) Sensor Circuit Malfunction The PSP sensor input signal to the PCM is continuously monitored.The test fails when the signal is open or shorted to ground. PSP sensor damaged | Power Steering Pressure (PSP) Sensor Circuit Malfunction The PSP sensor input signal to the PCM is continuously monitored.The test fails when the signal is open or shorted to ground. PSP sensor damaged | ||
Line 824: | Line 824: | ||
The DTC indicates the PSP sensor circuit is open or shorted to ground. | The DTC indicates the PSP sensor circuit is open or shorted to ground. | ||
− | P0553 | + | ==P0553== |
===Error Description=== | ===Error Description=== | ||
Power Steering Pressure (PSP) Sensor Circuit Malfunction The PSP sensor input signal to PCM is continuously monitored. The test fails when the signal is shorted to power. PSP sensor damaged | Power Steering Pressure (PSP) Sensor Circuit Malfunction The PSP sensor input signal to PCM is continuously monitored. The test fails when the signal is shorted to power. PSP sensor damaged | ||
Line 833: | Line 833: | ||
The code indicates the PSP sensor circuit is shorted to power. | The code indicates the PSP sensor circuit is shorted to power. | ||
− | P0602 | + | ==P0602== |
===Error Description=== | ===Error Description=== | ||
Control Module Programming Error This Diagnostic Trouble Code (DTC) indicates programming error within Vehicle ID block (VID). VID data corrupted by the scan tool during VID reprogramming | Control Module Programming Error This Diagnostic Trouble Code (DTC) indicates programming error within Vehicle ID block (VID). VID data corrupted by the scan tool during VID reprogramming | ||
Using the scan tool, reprogram the VID block. If PCM does not allow reprogramming of the VID block, reflashing PCM will be required. | Using the scan tool, reprogram the VID block. If PCM does not allow reprogramming of the VID block, reflashing PCM will be required. | ||
− | P0603 | + | ==P0603== |
===Error Description=== | ===Error Description=== | ||
Powertrain Control Module KAM Test Error Indicates the PCM has experienced an internal memory fault. However there are external items that can cause this DTC. Reprogramming | Powertrain Control Module KAM Test Error Indicates the PCM has experienced an internal memory fault. However there are external items that can cause this DTC. Reprogramming | ||
Line 847: | Line 847: | ||
If KAPWR is interrupted to the PCM because of a battery or PCM disconnect, DTC can be generated on the first power-up. | If KAPWR is interrupted to the PCM because of a battery or PCM disconnect, DTC can be generated on the first power-up. | ||
− | P0605 | + | ==P0605== |
===Error Description=== | ===Error Description=== | ||
PCM read only memory (ROM) error Indicates the PCM ROM has been corupted. An attempt was made to change the calibration. | PCM read only memory (ROM) error Indicates the PCM ROM has been corupted. An attempt was made to change the calibration. | ||
Line 856: | Line 856: | ||
Check for other DTC's or drive symptoms for further action. | Check for other DTC's or drive symptoms for further action. | ||
− | P0703 | + | ==P0703== |
===Error Description=== | ===Error Description=== | ||
Brake Switch Circuit Input Malfunction Indicates PCM did not receive a brake pedal position (BPP) input. Open or short in BPP circuit | Brake Switch Circuit Input Malfunction Indicates PCM did not receive a brake pedal position (BPP) input. Open or short in BPP circuit | ||
Line 866: | Line 866: | ||
Check for proper function of stoplamps. Follow correct Self-Test procedures, refer to Section 2 of Quick Test. | Check for proper function of stoplamps. Follow correct Self-Test procedures, refer to Section 2 of Quick Test. | ||
− | P0704 | + | ==P0704== |
===Error Description=== | ===Error Description=== | ||
Clutch Pedal Position Switch Malfunction When the clutch pedal is depressed the voltage goes to low. If the PCM does not see this change from high to low the DTC is set. CPP circuit short to PWR | Clutch Pedal Position Switch Malfunction When the clutch pedal is depressed the voltage goes to low. If the PCM does not see this change from high to low the DTC is set. CPP circuit short to PWR | ||
Line 874: | Line 874: | ||
When depressing the CPP switch the voltage should cycle from 5.0V down. | When depressing the CPP switch the voltage should cycle from 5.0V down. | ||
− | P0720 | + | ==P0720== |
===Error Description=== | ===Error Description=== | ||
Insufficient input from Output Shaft Speed sensor The output shaft speed sensor inputs a signal to the PCM, based on the speed of the output shaft of the transmission. The PCM compares this signal with the signal of the VSS or TCSS and determines correct tire size and axle gear ratio. OSS sensor circuit short to GND | Insufficient input from Output Shaft Speed sensor The output shaft speed sensor inputs a signal to the PCM, based on the speed of the output shaft of the transmission. The PCM compares this signal with the signal of the VSS or TCSS and determines correct tire size and axle gear ratio. OSS sensor circuit short to GND | ||
Line 883: | Line 883: | ||
Verify sensor signal output varies with vehicle speed. | Verify sensor signal output varies with vehicle speed. | ||
− | P0721 | + | ==P0721== |
===Error Description=== | ===Error Description=== | ||
Noise interference on Output Shaft Speed sensor signal The output shaft speed sensor signal is very sensitive to noise. This noise distorts the input to the PCM. Wiring misrouted | Noise interference on Output Shaft Speed sensor signal The output shaft speed sensor signal is very sensitive to noise. This noise distorts the input to the PCM. Wiring misrouted | ||
Line 892: | Line 892: | ||
Check wiring and connector for damage. | Check wiring and connector for damage. | ||
− | P0722 | + | ==P0722== |
===Error Description=== | ===Error Description=== | ||
No signal from Output Shaft Speed sensor The output shaft speed sensor failed to provide a signal to the PCM upon initial movement of vehicle. Damaged OSS connector | No signal from Output Shaft Speed sensor The output shaft speed sensor failed to provide a signal to the PCM upon initial movement of vehicle. Damaged OSS connector | ||
Line 898: | Line 898: | ||
Harness intermittently shorted or open | Harness intermittently shorted or open | ||
− | P0723 | + | ==P0723== |
===Error Description=== | ===Error Description=== | ||
Output Shaft Speed sensor circuit intermittent failure The output shaft speed sensor signal to the PCM is irregular or interrupted. Harness connector not properly seated | Output Shaft Speed sensor circuit intermittent failure The output shaft speed sensor signal to the PCM is irregular or interrupted. Harness connector not properly seated | ||
Line 907: | Line 907: | ||
Verify OSS sensor proper installation | Verify OSS sensor proper installation | ||
− | P0812 | + | ==P0812== |
===Error Description=== | ===Error Description=== | ||
Reverse Switch (RS) input circuit malfunction The DTC indicates that the voltage is high when it should be low. Transmission shift not indicating neutral while in KOEO Self-Test | Reverse Switch (RS) input circuit malfunction The DTC indicates that the voltage is high when it should be low. Transmission shift not indicating neutral while in KOEO Self-Test | ||
Line 916: | Line 916: | ||
Check RS PID while exercising shift lever in and out of reverse. | Check RS PID while exercising shift lever in and out of reverse. | ||
− | P1000 | + | ==P1000== |
===Error Description=== | ===Error Description=== | ||
Monitor Testing Not Complete The on board diagnostic II (OBD II) monitors are performed during the OBD II Drive Cycle. The DTC will be stored in continuous memory if any of the OBD II monitors do not complete. Vehicle is new from the factory | Monitor Testing Not Complete The on board diagnostic II (OBD II) monitors are performed during the OBD II Drive Cycle. The DTC will be stored in continuous memory if any of the OBD II monitors do not complete. Vehicle is new from the factory | ||
Line 925: | Line 925: | ||
The DTC does not need to be cleared from the PCM except to pass an inspection/maintenance test. | The DTC does not need to be cleared from the PCM except to pass an inspection/maintenance test. | ||
− | P1001 | + | ==P1001== |
===Error Description=== | ===Error Description=== | ||
KOER Not Able To Complete, KOER Aborted This Non-MIL (Malfunction Indicator Lamp) code will be set when Key On Engine Running (KOER) Self-Test does not complete in the time intended. Incorrect Self-Test Procedure. | KOER Not Able To Complete, KOER Aborted This Non-MIL (Malfunction Indicator Lamp) code will be set when Key On Engine Running (KOER) Self-Test does not complete in the time intended. Incorrect Self-Test Procedure. | ||
Line 932: | Line 932: | ||
Rerun Self-Test following QT1 in Section 3 , Symptom Charts, STEP 1: PCM Quick Test. | Rerun Self-Test following QT1 in Section 3 , Symptom Charts, STEP 1: PCM Quick Test. | ||
− | P1100 | + | ==P1100== |
===Error Description=== | ===Error Description=== | ||
Mass Air Flow (MAF) Sensor Intermittent The MAF sensor circuit is monitored by the PCM for sudden voltage (or air flow) input change through the comprehensive component monitor (CCM). If during the last 40 warm-up cycles in key ON engine running the PCM detects a voltage (or air flow) change beyond the minimum or maximum calibrated limit, a continuous memory diagnostic trouble code (DTC) is stored. Poor continuity through the MAF sensor connectors | Mass Air Flow (MAF) Sensor Intermittent The MAF sensor circuit is monitored by the PCM for sudden voltage (or air flow) input change through the comprehensive component monitor (CCM). If during the last 40 warm-up cycles in key ON engine running the PCM detects a voltage (or air flow) change beyond the minimum or maximum calibrated limit, a continuous memory diagnostic trouble code (DTC) is stored. Poor continuity through the MAF sensor connectors | ||
Line 939: | Line 939: | ||
While accessing the MAF V PID on the scan tool, lightly tap on the MAF sensor or wiggle the MAF sensor connector and harness. If the MAF V PID suddenly changes below 0.23 volt or above 4.60 volts, an intermittent fault is indicated. | While accessing the MAF V PID on the scan tool, lightly tap on the MAF sensor or wiggle the MAF sensor connector and harness. If the MAF V PID suddenly changes below 0.23 volt or above 4.60 volts, an intermittent fault is indicated. | ||
− | P1101 | + | ==P1101== |
===Error Description=== | ===Error Description=== | ||
Mass Air Flow (MAF) Sensor Out of Self-Test Range The MAF sensor circuit is monitored by the PCM for an out of range air flow (or voltage) input. If during key ON engine OFF the air flow voltage signal is greater than 0.27 volts the test fails. Likewise, if during key ON engine running, an air flow voltage signal is not within 0.46 volt to 2.44 volts, the test fails. For voltage to air flow gm/sec conversion, GO to Pinpoint Test DC and refer to Voltage To Mass Air Flow Conversion Table. Low battery charge | Mass Air Flow (MAF) Sensor Out of Self-Test Range The MAF sensor circuit is monitored by the PCM for an out of range air flow (or voltage) input. If during key ON engine OFF the air flow voltage signal is greater than 0.27 volts the test fails. Likewise, if during key ON engine running, an air flow voltage signal is not within 0.46 volt to 2.44 volts, the test fails. For voltage to air flow gm/sec conversion, GO to Pinpoint Test DC and refer to Voltage To Mass Air Flow Conversion Table. Low battery charge | ||
Line 950: | Line 950: | ||
A MAF V PID reading greater than 0.27 volts (KOEO) or a MAF V PID reading outside the 0.46 volt to 2.44 volts range (KOER) indicates a hard fault. | A MAF V PID reading greater than 0.27 volts (KOEO) or a MAF V PID reading outside the 0.46 volt to 2.44 volts range (KOER) indicates a hard fault. | ||
− | P1112 | + | ==P1112== |
===Error Description=== | ===Error Description=== | ||
Intake Air Temperature (IAT) Sensor Intermittent Indicates IAT sensor signal was intermittent during the comprehensive component monitor. Damaged harness | Intake Air Temperature (IAT) Sensor Intermittent Indicates IAT sensor signal was intermittent during the comprehensive component monitor. Damaged harness | ||
Line 958: | Line 958: | ||
Monitor IAT on scan tool, look for sudden changes in reading when harness is wiggled or sensor is tapped. | Monitor IAT on scan tool, look for sudden changes in reading when harness is wiggled or sensor is tapped. | ||
− | P1114 | + | ==P1114== |
===Error Description=== | ===Error Description=== | ||
Intake Air Temperature 2 Circuit Low Input Indicates the sensor signal is less than Self-Test minimum. The IAT2 sensor minimum is 0.2 volts. Grounded circuit in harness | Intake Air Temperature 2 Circuit Low Input Indicates the sensor signal is less than Self-Test minimum. The IAT2 sensor minimum is 0.2 volts. Grounded circuit in harness | ||
Line 966: | Line 966: | ||
Monitor IAT2 PID. Typical IAT2 temperature should be greater than IAT1. Refer to Section 6 : Reference Values for ranges. | Monitor IAT2 PID. Typical IAT2 temperature should be greater than IAT1. Refer to Section 6 : Reference Values for ranges. | ||
− | P1115 | + | ==P1115== |
===Error Description=== | ===Error Description=== | ||
Intake Air Temperature 2 Circuit High Input Indicates the sensor signal is greater than Self-Test maximum. The IAT2 sensor maximum is 4.6 volts. Open circuit in harness | Intake Air Temperature 2 Circuit High Input Indicates the sensor signal is greater than Self-Test maximum. The IAT2 sensor maximum is 4.6 volts. Open circuit in harness | ||
Line 975: | Line 975: | ||
Monitor IAT2 PID. Typical IAT2 temperature should be greater than IAT1. Refer to Section 6 : Reference Values for ranges. | Monitor IAT2 PID. Typical IAT2 temperature should be greater than IAT1. Refer to Section 6 : Reference Values for ranges. | ||
− | P1116 | + | ==P1116== |
===Error Description=== | ===Error Description=== | ||
Engine Coolant Temperature (ECT) Sensor Out of Self-Test Range Indicates the ECT sensor is out of Self-Test range. Correct range is 0.3 to 3.7 volts. Overheating condition | Engine Coolant Temperature (ECT) Sensor Out of Self-Test Range Indicates the ECT sensor is out of Self-Test range. Correct range is 0.3 to 3.7 volts. Overheating condition | ||
Line 985: | Line 985: | ||
Engine coolant temperature must be greater than 10°C (50°F) to pass the KOEO Self-Test and greater than 82°C (180°F) to pass the KOER Self-Test. | Engine coolant temperature must be greater than 10°C (50°F) to pass the KOEO Self-Test and greater than 82°C (180°F) to pass the KOER Self-Test. | ||
− | P1117 | + | ==P1117== |
===Error Description=== | ===Error Description=== | ||
Engine Coolant Temperature (ECT) Sensor Intermittent Indicates ECT circuit became intermittently open or shorted while engine was running. Damaged harness | Engine Coolant Temperature (ECT) Sensor Intermittent Indicates ECT circuit became intermittently open or shorted while engine was running. Damaged harness | ||
Line 994: | Line 994: | ||
Monitor ECT on scan tool, look for sudden changes in reading when harness is wiggled or sensor is tapped. | Monitor ECT on scan tool, look for sudden changes in reading when harness is wiggled or sensor is tapped. | ||
− | P1120 | + | ==P1120== |
===Error Description=== | ===Error Description=== | ||
Throttle Position (TP) Sensor Out of Range Low (RATCH too Low) The TP sensor circuit is monitored by the PCM for a low TP rotation angle (or voltage) input below the closed throttle position through the comprehensive component monitor (CCM). If during key ON engine OFF or key ON engine running the TP rotation angle (or voltage) remains within the calibrated self-test range but falls between 3.42 and 9.85% (0.17 and 0.49 volt), the test fails. TP circuit with frayed wires | Throttle Position (TP) Sensor Out of Range Low (RATCH too Low) The TP sensor circuit is monitored by the PCM for a low TP rotation angle (or voltage) input below the closed throttle position through the comprehensive component monitor (CCM). If during key ON engine OFF or key ON engine running the TP rotation angle (or voltage) remains within the calibrated self-test range but falls between 3.42 and 9.85% (0.17 and 0.49 volt), the test fails. TP circuit with frayed wires | ||
Line 1,003: | Line 1,003: | ||
A TP PID (TP V PID) between 3.42 and 9.85% (0.17 and 0.49 volt) in key ON engine OFF, continuous memory or key ON engine running indicates a hard fault. | A TP PID (TP V PID) between 3.42 and 9.85% (0.17 and 0.49 volt) in key ON engine OFF, continuous memory or key ON engine running indicates a hard fault. | ||
− | P1121 | + | ==P1121== |
===Error Description=== | ===Error Description=== | ||
Throttle Position (TP) Sensor Inconsistent with MAF Sensor The PCM monitors a vehicle operation rationality check by comparing sensed throttle position to mass air flow readings. If during key ON engine running self-test the comparison of the TP sensor and MAF sensor readings are not consistent with calibrated load values, the test fails and a diagnostic trouble code is stored in continuous memory. Air leak between MAF sensor and throttle body | Throttle Position (TP) Sensor Inconsistent with MAF Sensor The PCM monitors a vehicle operation rationality check by comparing sensed throttle position to mass air flow readings. If during key ON engine running self-test the comparison of the TP sensor and MAF sensor readings are not consistent with calibrated load values, the test fails and a diagnostic trouble code is stored in continuous memory. Air leak between MAF sensor and throttle body | ||
Line 1,011: | Line 1,011: | ||
Drive vehicle and exercise throttle and TP sensor in all gears. A TP PID (TP V PID) less than 4.82 % (0.24 volt) with a LOAD PID greater than 55% or a TP V PID greater than 49.05% (2.44 volts) with a LOAD PID less than 30% indicates a hard fault. | Drive vehicle and exercise throttle and TP sensor in all gears. A TP PID (TP V PID) less than 4.82 % (0.24 volt) with a LOAD PID greater than 55% or a TP V PID greater than 49.05% (2.44 volts) with a LOAD PID less than 30% indicates a hard fault. | ||
− | P1124 | + | ==P1124== |
===Error Description=== | ===Error Description=== | ||
Throttle Position (TP) Sensor Out of Self-Test Range The TP sensor circuit is monitored by the PCM for an out of range TP rotation angle (or voltage) input. If during key ON engine OFF or key ON engine running the TP rotation angle (or voltage) reading is less than 13.27% (0.66 volt) or greater than 23.52% (1.17 volts), the test fails. Binding or bent throttle linkage | Throttle Position (TP) Sensor Out of Self-Test Range The TP sensor circuit is monitored by the PCM for an out of range TP rotation angle (or voltage) input. If during key ON engine OFF or key ON engine running the TP rotation angle (or voltage) reading is less than 13.27% (0.66 volt) or greater than 23.52% (1.17 volts), the test fails. Binding or bent throttle linkage | ||
Line 1,021: | Line 1,021: | ||
A TP PID (TP V PID) reading not between 13.27 and 23.52% (0.66 and 1.17 volts) in key ON engine OFF or key ON engine running indicates a hard fault. | A TP PID (TP V PID) reading not between 13.27 and 23.52% (0.66 and 1.17 volts) in key ON engine OFF or key ON engine running indicates a hard fault. | ||
− | P1125 | + | ==P1125== |
===Error Description=== | ===Error Description=== | ||
Throttle Position (TP) Sensor Intermittent The TP sensor circuit is monitored by the PCM for sudden TP rotation angle (or voltage) input change through the comprehensive component monitor (CCM). If during the last 80 warm-up cycles in key ON engine running the PCM detects a TP rotation angle (or voltage) changes beyond the minimum or maximum calibrated limit, a continuous diagnostic trouble code (DTC) is stored. Poor continuity through the TP sensor connectors | Throttle Position (TP) Sensor Intermittent The TP sensor circuit is monitored by the PCM for sudden TP rotation angle (or voltage) input change through the comprehensive component monitor (CCM). If during the last 80 warm-up cycles in key ON engine running the PCM detects a TP rotation angle (or voltage) changes beyond the minimum or maximum calibrated limit, a continuous diagnostic trouble code (DTC) is stored. Poor continuity through the TP sensor connectors | ||
Line 1,028: | Line 1,028: | ||
While accessing the TP V PID on the scan tool, lightly tap on the TP sensor or wiggle the TP sensor connector and harness. If the TP V PID suddenly changes below 0.49 volt or above 4.65 volts, an intermittent fault is indicated. | While accessing the TP V PID on the scan tool, lightly tap on the TP sensor or wiggle the TP sensor connector and harness. If the TP V PID suddenly changes below 0.49 volt or above 4.65 volts, an intermittent fault is indicated. | ||
− | P1127 | + | ==P1127== |
===Error Description=== | ===Error Description=== | ||
Exhaust Not Warm Enough, Downstream Sensor Not Tested The HEGO monitor uses an exhaust temperature model to determine when the HO2S heaters are cycled ON. The test fails when the inferred exhaust temperature is below a minimum calibrated value. Engine not operating long enough prior to performing KOER self-test. | Exhaust Not Warm Enough, Downstream Sensor Not Tested The HEGO monitor uses an exhaust temperature model to determine when the HO2S heaters are cycled ON. The test fails when the inferred exhaust temperature is below a minimum calibrated value. Engine not operating long enough prior to performing KOER self-test. | ||
Line 1,034: | Line 1,034: | ||
Monitor HO2S Heater PIDs to determine their ON/OFF state. DTC P1127 will be present if the exhaust is not hot. | Monitor HO2S Heater PIDs to determine their ON/OFF state. DTC P1127 will be present if the exhaust is not hot. | ||
− | P1128 | + | ==P1128== |
===Error Description=== | ===Error Description=== | ||
Upstream Oxygen Sensors Swapped from Bank to Bank (HO2S-11-21) The HEGO monitor checks and determines if the HO2S signal response for a fuel shift corresponds to the correct engine bank. The test fails when a response from the HO2S(s) being tested is not indicated. Crossed HO2S harness connectors (upstream). | Upstream Oxygen Sensors Swapped from Bank to Bank (HO2S-11-21) The HEGO monitor checks and determines if the HO2S signal response for a fuel shift corresponds to the correct engine bank. The test fails when a response from the HO2S(s) being tested is not indicated. Crossed HO2S harness connectors (upstream). | ||
Line 1,040: | Line 1,040: | ||
Crossed HO2S wiring at the 104-pin harness connectors (upstream). | Crossed HO2S wiring at the 104-pin harness connectors (upstream). | ||
− | P1129 | + | ==P1129== |
===Error Description=== | ===Error Description=== | ||
Downstream Oxygen Sensors Swapped from Bank to Bank (HO2S-12-22) The HEGO monitor checks and determines if the HO2S signal response for a fuel shift corresponds to the correct engine bank. The test fails when a response from the HO2S(s) being tested is not indicated. Crossed HO2S harness connectors (downstream). | Downstream Oxygen Sensors Swapped from Bank to Bank (HO2S-12-22) The HEGO monitor checks and determines if the HO2S signal response for a fuel shift corresponds to the correct engine bank. The test fails when a response from the HO2S(s) being tested is not indicated. Crossed HO2S harness connectors (downstream). | ||
Line 1,046: | Line 1,046: | ||
Crossed HO2S wiring at the 104-pin harness connectors (downstream). | Crossed HO2S wiring at the 104-pin harness connectors (downstream). | ||
− | P1130 | + | ==P1130== |
===Error Description=== | ===Error Description=== | ||
Lack of HO2S-11 Switch, Fuel Trim at Limit The HEGO Sensor is monitored for switching. The test fails when the HO2S fails to switch due to circuit or fuel at or exceeding a calibrated limit. Electrical: | Lack of HO2S-11 Switch, Fuel Trim at Limit The HEGO Sensor is monitored for switching. The test fails when the HO2S fails to switch due to circuit or fuel at or exceeding a calibrated limit. Electrical: | ||
Line 1,076: | Line 1,076: | ||
Exhaust leaks before or near the HO2S(s) | Exhaust leaks before or near the HO2S(s) | ||
A fuel control HO2S PID switching across 0.45 volt from 0.2 to 0.9 volt indicates a normal switching HO2S. | A fuel control HO2S PID switching across 0.45 volt from 0.2 to 0.9 volt indicates a normal switching HO2S. | ||
− | P1131 | + | ==P1131== |
− | P1132 | + | ===Error Description=== |
+ | |||
+ | Lack of HO2S-11 Switch, Sensor Indicates Lean A HEGO sensor indicating lean at the end of a test is trying to correct for an over-rich condition. The test fails when the fuel control system no longer detects switching for a calibrated amount of time. See Possible Causes for DTC P1130 | ||
+ | |||
+ | ==P1132== | ||
===Error Description=== | ===Error Description=== | ||
Lack of HO2S-11 Switch, Sensor Indicates Rich A HEGO sensor indicating rich at the end of a test is trying to correct for an over-lean condition. The test fails when the fuel control system no longer detects switching for a calibrated amount of time. See Possible Causes for DTC P1130 | Lack of HO2S-11 Switch, Sensor Indicates Rich A HEGO sensor indicating rich at the end of a test is trying to correct for an over-lean condition. The test fails when the fuel control system no longer detects switching for a calibrated amount of time. See Possible Causes for DTC P1130 | ||
− | P1137 | + | ==P1137== |
===Error Description=== | ===Error Description=== | ||
Lack of HO2S-12 Switch, Sensor Indicates Lean The downstream HO2S sensors are forced rich and lean and monitored by the PCM. The test fails if the PCM does not detect the output of the HO2S in a calibrated amount of time. Pinched, shorted, and corroded wiring and pins | Lack of HO2S-12 Switch, Sensor Indicates Lean The downstream HO2S sensors are forced rich and lean and monitored by the PCM. The test fails if the PCM does not detect the output of the HO2S in a calibrated amount of time. Pinched, shorted, and corroded wiring and pins | ||
Line 1,089: | Line 1,093: | ||
Contaminated or damaged sensor | Contaminated or damaged sensor | ||
− | P1138 | + | ==P1138== |
===Error Description=== | ===Error Description=== | ||
Lack of HO2S-12 Switch, Sensor Indicates Rich See DTC P1137 | Lack of HO2S-12 Switch, Sensor Indicates Rich See DTC P1137 | ||
− | P1150 | + | ==P1150== |
===Error Description=== | ===Error Description=== | ||
Lack of HO2S-21 Switch, Fuel Trim at Limit See DTC P1130 | Lack of HO2S-21 Switch, Fuel Trim at Limit See DTC P1130 | ||
− | P1151 | + | ==P1151== |
===Error Description=== | ===Error Description=== | ||
Lack of HO2S-21 Switch, Sensor Indicates Lean A HEGO sensor indicating lean at the end of a test is trying to correct for an over-rich condition. The test fails when fuel control system no longer detects switching for a calibrated amount of time. See Possible Causes for DTC P1130 | Lack of HO2S-21 Switch, Sensor Indicates Lean A HEGO sensor indicating lean at the end of a test is trying to correct for an over-rich condition. The test fails when fuel control system no longer detects switching for a calibrated amount of time. See Possible Causes for DTC P1130 | ||
− | P1152 | + | ==P1152== |
===Error Description=== | ===Error Description=== | ||
Lack of HO2S-21 Switch, Sensor Indicates Rich A HEGO sensor indicating rich at the end of a test is trying to correct for an over-lean condition. The test fails when the fuel control system no longer detects switching for a calibrated amount of time. See Possible Causes for DTC P1130 | Lack of HO2S-21 Switch, Sensor Indicates Rich A HEGO sensor indicating rich at the end of a test is trying to correct for an over-lean condition. The test fails when the fuel control system no longer detects switching for a calibrated amount of time. See Possible Causes for DTC P1130 | ||
− | P1157 | + | ==P1157== |
===Error Description=== | ===Error Description=== | ||
Lack of HO2S-22 Switch, Sensor Indicates Lean See DTC P1137 | Lack of HO2S-22 Switch, Sensor Indicates Lean See DTC P1137 | ||
− | P1158 | + | ==P1158== |
===Error Description=== | ===Error Description=== | ||
Lack of HO2S-22 Switch, Sensor Indicates Rich See DTC P1137 | Lack of HO2S-22 Switch, Sensor Indicates Rich See DTC P1137 | ||
− | P1168 | + | ==P1168== |
===Error Description=== | ===Error Description=== | ||
Fuel Rail Pressure Sensor in Range But Low The comprehensive component monitor (CCM) monitors the FRP pressure for acceptable fuel pressure. The test fails when the fuel pressure falls below a calibrated value. Low fuel pressure | Fuel Rail Pressure Sensor in Range But Low The comprehensive component monitor (CCM) monitors the FRP pressure for acceptable fuel pressure. The test fails when the fuel pressure falls below a calibrated value. Low fuel pressure | ||
Line 1,122: | Line 1,126: | ||
Low or no fuel | Low or no fuel | ||
A FRP PID value greater than 896 kpa (130 psi) indicates a failure | A FRP PID value greater than 896 kpa (130 psi) indicates a failure | ||
− | P1169 | + | ==P1169== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Fuel Rail Pressure (FRP) Sensor in Range But High The comprehensive component monitor (CCM) monitors the FRP pressure for acceptable fuel pressure. The test fails when the fuel pressure falls below or exceeds a minimum/maximum calibrated value for a calibrated period of time. High fuel pressure | ||
Low fuel pressure | Low fuel pressure | ||
Damaged FRP sensor | Damaged FRP sensor | ||
Excessive resistance in circuit | Excessive resistance in circuit | ||
− | P1180 | + | ==P1180== |
===Error Description=== | ===Error Description=== | ||
Fuel Delivery System - Low The PCM receives fuel tank pressure (FTP) information from the natural gas module (NG), which uses the information to infer fuel rail pressure (FRP). The test fails when the inferred pressure is less than a minimum calibrated value. Restriction in the fuel line | Fuel Delivery System - Low The PCM receives fuel tank pressure (FTP) information from the natural gas module (NG), which uses the information to infer fuel rail pressure (FRP). The test fails when the inferred pressure is less than a minimum calibrated value. Restriction in the fuel line | ||
Plugged fuel filter | Plugged fuel filter | ||
− | P1181 | + | ==P1181== |
===Error Description=== | ===Error Description=== | ||
Fuel Delivery System - High The PCM receives fuel tank pressure (FTP) information from the natural gas module (NG), which uses the information to infer fuel rail pressure (FRP). The test fails when the inferred pressure is higher than a maximum calibrated value. Fuel pressure regulator | Fuel Delivery System - High The PCM receives fuel tank pressure (FTP) information from the natural gas module (NG), which uses the information to infer fuel rail pressure (FRP). The test fails when the inferred pressure is higher than a maximum calibrated value. Fuel pressure regulator | ||
− | P1183 | + | ==P1183== |
===Error Description=== | ===Error Description=== | ||
Engine Oil Temperature (EOT) Sensor Circuit Malfunction Indicates EOT circuit became intermittently open or shorted while engine was running. Damaged harness | Engine Oil Temperature (EOT) Sensor Circuit Malfunction Indicates EOT circuit became intermittently open or shorted while engine was running. Damaged harness | ||
Line 1,144: | Line 1,152: | ||
EOT V PID reading less than 0.2 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault short to ground. EOT V PID reading greater than 4.5 volts with key ON and engine OFF or during any engine operating mode indicates an open circuit hard fault. | EOT V PID reading less than 0.2 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault short to ground. EOT V PID reading greater than 4.5 volts with key ON and engine OFF or during any engine operating mode indicates an open circuit hard fault. | ||
− | P1184 | + | ==P1184== |
===Error Description=== | ===Error Description=== | ||
Engine Oil Temperature (EOT) Sensor Out of Self-Test Range Indicates EOT signal was out of Self-Test range. Correct range for KOER is 0.3-1.2 volts. Damaged harness | Engine Oil Temperature (EOT) Sensor Out of Self-Test Range Indicates EOT signal was out of Self-Test range. Correct range for KOER is 0.3-1.2 volts. Damaged harness | ||
Line 1,152: | Line 1,160: | ||
Engine should be at operating temperature before running self-test. | Engine should be at operating temperature before running self-test. | ||
− | P1229 | + | ==P1229== |
===Error Description=== | ===Error Description=== | ||
Supercharger Intercooler Pump (ICP) Pump Not Operating The ICP DTC will be set when the PCM is calling for the pump to be operating but no current is being detected. Pump motor open circuited | Supercharger Intercooler Pump (ICP) Pump Not Operating The ICP DTC will be set when the PCM is calling for the pump to be operating but no current is being detected. Pump motor open circuited | ||
Line 1,163: | Line 1,171: | ||
Check for voltage at relay, check fuse in power feed, check ground connection of pump motor, PID reading is on/off. | Check for voltage at relay, check fuse in power feed, check ground connection of pump motor, PID reading is on/off. | ||
− | P1232 | + | ==P1232== |
===Error Description=== | ===Error Description=== | ||
Low Speed Fuel Pump Primary Circuit Malfunction The PCM monitors the low speed fuel pump (LFP) primary circuit output from the PCM. The test fails if: When the LFP circuit is commanded on (grounded), excessive current draw is detected on the LFP circuit; or when the LFP circuit is commanded off, voltage is not detected on the LFP circuit (the PCM expects to detect VPWR voltage coming through the low speed fuel pump relay coil to the LFP circuit). Open or shorted low fuel pump (LFP) circuit | Low Speed Fuel Pump Primary Circuit Malfunction The PCM monitors the low speed fuel pump (LFP) primary circuit output from the PCM. The test fails if: When the LFP circuit is commanded on (grounded), excessive current draw is detected on the LFP circuit; or when the LFP circuit is commanded off, voltage is not detected on the LFP circuit (the PCM expects to detect VPWR voltage coming through the low speed fuel pump relay coil to the LFP circuit). Open or shorted low fuel pump (LFP) circuit | ||
Line 1,173: | Line 1,181: | ||
During KOEO and KOER Self-Test, the low speed fuel pump output command will be cycled on and off. | During KOEO and KOER Self-Test, the low speed fuel pump output command will be cycled on and off. | ||
− | P1233 | + | ==P1233== |
===Error Description=== | ===Error Description=== | ||
Fuel System Disabled or Offline LS6/LS8: | Fuel System Disabled or Offline LS6/LS8: | ||
Line 1,193: | Line 1,201: | ||
The PCM expects to see one of the following duty cycle signals from the FPDM on the FPM circuit: 1) 50% (500 msec on, 500 msec off), all OK. 2) 25% (250 msec on, 750 msec off), FPDM did not receive a fuel pump (FP) duty cycle command from the PCM, or the duty cycle that was received was invalid. 3) 75% (750 msec ON, 250 OFF), the FPDM has detected a fault in the circuits between the FPDM and the fuel pump. | The PCM expects to see one of the following duty cycle signals from the FPDM on the FPM circuit: 1) 50% (500 msec on, 500 msec off), all OK. 2) 25% (250 msec on, 750 msec off), FPDM did not receive a fuel pump (FP) duty cycle command from the PCM, or the duty cycle that was received was invalid. 3) 75% (750 msec ON, 250 OFF), the FPDM has detected a fault in the circuits between the FPDM and the fuel pump. | ||
− | P1234 | + | ==P1234== |
===Error Description=== | ===Error Description=== | ||
Fuel System Disabled or Offline See DTC P1233. P1234 is identical to P1233 except P1234 will not illuminate the MIL. | Fuel System Disabled or Offline See DTC P1233. P1234 is identical to P1233 except P1234 will not illuminate the MIL. | ||
− | P1235 | + | ==P1235== |
===Error Description=== | ===Error Description=== | ||
Fuel Pump Control Out Of Range Note: For LS6/LS8, the FPDM functions are incorporated in the Rear Electronics Module (REM). Also, the REM does not use a FPM circuit. Diagnostic information will be sent through SCP. | Fuel Pump Control Out Of Range Note: For LS6/LS8, the FPDM functions are incorporated in the Rear Electronics Module (REM). Also, the REM does not use a FPM circuit. Diagnostic information will be sent through SCP. | ||
Line 1,205: | Line 1,213: | ||
The FPDM sends a 25% duty cycle (250 msec ON, 750 msec OFF) through the FPM circuit to the PCM while the fault is being detected by the FPDM. If the fault is no longer detected, the PDM will return to sending an "all OK" (50% duty cycle) message to the PCM. The PCM will keep P1235 stored in Continuous Memory. | The FPDM sends a 25% duty cycle (250 msec ON, 750 msec OFF) through the FPM circuit to the PCM while the fault is being detected by the FPDM. If the fault is no longer detected, the PDM will return to sending an "all OK" (50% duty cycle) message to the PCM. The PCM will keep P1235 stored in Continuous Memory. | ||
− | P1236 | + | ==P1236== |
===Error Description=== | ===Error Description=== | ||
Fuel Pump Control Out Of Range See DTC P1235. P1236 is identical to P1235 except P1236 will not illuminate the MIL. | Fuel Pump Control Out Of Range See DTC P1235. P1236 is identical to P1235 except P1236 will not illuminate the MIL. | ||
− | P1237 | + | ==P1237== |
===Error Description=== | ===Error Description=== | ||
Fuel Pump Secondary Circuit Malfunction Note: For LS6/LS8, the FPDM functions are incorporated in the rear electronics module (REM). Also, the REM does not use a FPM circuit. Diagnostic information will be set through SCP. | Fuel Pump Secondary Circuit Malfunction Note: For LS6/LS8, the FPDM functions are incorporated in the rear electronics module (REM). Also, the REM does not use a FPM circuit. Diagnostic information will be set through SCP. | ||
Line 1,221: | Line 1,229: | ||
The FPDM controls pump speed by supplying a "variable" ground on the RTN circuit. | The FPDM controls pump speed by supplying a "variable" ground on the RTN circuit. | ||
− | P1238 | + | ==P1238== |
===Error Description=== | ===Error Description=== | ||
Fuel Pump Secondary Circuit Malfunction See DTC P1237. P1238 is identical to P1237 except P1238 will not illuminate the MIL. | Fuel Pump Secondary Circuit Malfunction See DTC P1237. P1238 is identical to P1237 except P1238 will not illuminate the MIL. | ||
− | P1244 | + | ==P1244== |
===Error Description=== | ===Error Description=== | ||
Generator Load Input Low The PCM monitors the GLI circuit, and will set the DTC when the input is below calibrated limit for a calibrated amount of time. GLI circuit open or short | Generator Load Input Low The PCM monitors the GLI circuit, and will set the DTC when the input is below calibrated limit for a calibrated amount of time. GLI circuit open or short | ||
Line 1,232: | Line 1,240: | ||
Verify operation of charging system. | Verify operation of charging system. | ||
− | P1245 | + | ==P1245== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Generator Load Input High The PCM monitors the GLI circuit, and will set the DTC when the input is above a calibrated limit for a calibrated amount of time. GLI circuit open or short | ||
Damaged voltage regulator/generator | Damaged voltage regulator/generator | ||
Damaged PCM | Damaged PCM | ||
Verify operation of charging system. | Verify operation of charging system. | ||
− | P1246 | + | ==P1246== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Generator Load Input (2.0L Cougar) The PCM monitors the GLI circuit, and will set the DTC when the input is not within a calibrated limit for a calibrated amount of time. GLI circuit concern. | ||
Damaged voltage regulator/generator | Damaged voltage regulator/generator | ||
Damaged PCM. | Damaged PCM. | ||
Line 1,243: | Line 1,259: | ||
Verify battery is at proper charge. | Verify battery is at proper charge. | ||
− | P1246 | + | ==P1246== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Generator Load Input Failed (All Others) The PCM monitors generator load from the generator/regulator in the form of frequency. The frequency range is determined by the temperature of the voltage regulator where 97% represents full load, below 6% means no load. Generator circuit short to GND | ||
Generator circuit short to PWR | Generator circuit short to PWR | ||
Generator circuit open | Generator circuit open | ||
Line 1,252: | Line 1,272: | ||
Verify generator/regulator has the correct part number. | Verify generator/regulator has the correct part number. | ||
− | P1260 | + | ==P1260== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Theft Detected - Vehicle Immobilized Indicates that the passive anti-theft system (PATS) has determined a theft condition existed and the engine is disabled. This DTC is a good indicator to check the PATS for DTCs. Previous theft condition | ||
Anti-Theft System failure | Anti-Theft System failure | ||
Theft indicator flashing rapidly or on solid when ignition switch is in the ON position. Check anti-theft system for DTCs. Typical vehicle symptoms are: Start/Stall or Crank/No Start. NOTE: No crank symptom only on vehicles equipped with PATS starter disable feature. | Theft indicator flashing rapidly or on solid when ignition switch is in the ON position. Check anti-theft system for DTCs. Typical vehicle symptoms are: Start/Stall or Crank/No Start. NOTE: No crank symptom only on vehicles equipped with PATS starter disable feature. | ||
− | P1270 | + | ==P1270== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Engine RPM/Vehicle Speed Limiter Indicates the vehicle has been operated in a manner which caused the engine or vehicle to exceed a calibration limit. The engine rpm and vehicle speed are continuously monitored by the PCM. The DTC is set when the rpm or speed fall out of calibrated range. For additional information on the engine rpm/vehicle speed limiter, refer to Section 1, Electronic Engine Control (EC) System , Powertrain Control Software. Wheel slippage (water, ice, mud and snow) | ||
Excessive engine rpm in Neutral | Excessive engine rpm in Neutral | ||
Vehicle drive at a high rate of speed | Vehicle drive at a high rate of speed | ||
The DTC indicates the vehicle has been operated in a manner which caused the engine or vehicle speed to exceed a calibrated limit. | The DTC indicates the vehicle has been operated in a manner which caused the engine or vehicle speed to exceed a calibrated limit. | ||
− | P1285 | + | ==P1285== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Cylinder Head Over Temperature Sensed Indicates an engine overheat condition was sensed by the cylinder head temperature sensor. Low engine coolant level | ||
Base engine concerns | Base engine concerns | ||
Engine cooling system concerns | Engine cooling system concerns | ||
Line 1,267: | Line 1,299: | ||
On some applications when this fault occurs the Engine Temperature warning indicator will illuminate and/or force the temperature gauge to full H (Hot) zone by grounding the engine temperature warning circuit. | On some applications when this fault occurs the Engine Temperature warning indicator will illuminate and/or force the temperature gauge to full H (Hot) zone by grounding the engine temperature warning circuit. | ||
− | P1288 | + | ==P1288== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Cylinder Head Temperature (CHT) Sensor Circuit Out of Self-Test Range Indicates the CHT sensor is out of Self-Test range. Engine not at operating temperature. Cold engine | ||
Engine overheating | Engine overheating | ||
Damaged harness connector | Damaged harness connector | ||
Line 1,275: | Line 1,311: | ||
Bring engine to operating temperature. If cold, re-run self-test. If engine over-heats check cooling system. | Bring engine to operating temperature. If cold, re-run self-test. If engine over-heats check cooling system. | ||
− | P1289 | + | ==P1289== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Cylinder Head Temperature (CHT) Sensor Circuit High Input (PCM STRATEGIES UP TO AND INCLUDING 1998) Indicates a CHT sensor circuit malfunction (shorted). Grounded circuit in CHT harness | ||
Damaged CHT sensor | Damaged CHT sensor | ||
Improper harness connection | Improper harness connection | ||
Line 1,281: | Line 1,321: | ||
CHT V PID reading less than 0.2 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. Note: DTC P0117 may also be reported when this DTC is set, either of these DTC's will activate the MIL light. | CHT V PID reading less than 0.2 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. Note: DTC P0117 may also be reported when this DTC is set, either of these DTC's will activate the MIL light. | ||
− | P1289 | + | ==P1289== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Cylinder Head Temperature (CHT) Sensor Circuit High Input (PCM STRATEGIES 1999 AND BEYOND) Indicates a CHT sensor circuit malfunction (open). Open circuit in CHT harness | ||
Damaged CHT sensor | Damaged CHT sensor | ||
Improper harness connection | Improper harness connection | ||
Line 1,287: | Line 1,331: | ||
CHT V PID reading greater than 4.6 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. Note: DTC P0118 may also be reported when this DTC is set, either of these DTC's will activate the MIL light. | CHT V PID reading greater than 4.6 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. Note: DTC P0118 may also be reported when this DTC is set, either of these DTC's will activate the MIL light. | ||
− | P1290 | + | ==P1290== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Cylinder Head Temperature (CHT) Sensor Circuit Low Input (PCM STRATEGIES UP TO AND INCLUDING 1998) Indicates a CHT sensor circuit malfunction (open). Open circuit in CHT harness | ||
Damaged CHT sensor | Damaged CHT sensor | ||
Improper harness connection | Improper harness connection | ||
Line 1,293: | Line 1,341: | ||
CHT V PID reading greater than 4.6 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. Note: DTC P0118 may also be reported when this DTC is set, either of these DTC's will activate the MIL light. | CHT V PID reading greater than 4.6 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. Note: DTC P0118 may also be reported when this DTC is set, either of these DTC's will activate the MIL light. | ||
− | P1290 | + | ==P1290== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Cylinder Head Temperature (CHT) Sensor Circuit Low Input (PCM STRATEGIES 1999 AND BEYOND) Indicates a CHT sensor circuit malfunction (shorted). Grounded circuit in CHT harness | ||
Damaged CHT sensor | Damaged CHT sensor | ||
Improper harness connection | Improper harness connection | ||
Line 1,299: | Line 1,351: | ||
CHT V PID reading greater than 4.6 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. Note: DTC P0118 may also be reported when this DTC is set, either of these DTC's will activate the MIL light. | CHT V PID reading greater than 4.6 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. Note: DTC P0118 may also be reported when this DTC is set, either of these DTC's will activate the MIL light. | ||
− | P1299 | + | ==P1299== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Cylinder Head Over Temperature Protection Active Indicates an engine overheat condition was detected by the cylinder head temperature (CHT) sensor. An FMEM Strategy called Fail-safe Cooling was activated to cool the engine. Engine cooling system concerns | ||
Low engine coolant level | Low engine coolant level | ||
Base engine concerns | Base engine concerns | ||
Refer to Section 1, Powertrain Control Software , for more information on Fail-safe Cooling Strategy and cylinder head temperature sensor. | Refer to Section 1, Powertrain Control Software , for more information on Fail-safe Cooling Strategy and cylinder head temperature sensor. | ||
− | P1309 | + | ==P1309== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Misfire Monitor Disabled When the misfire monitor is disabled, usually due to the input signal generated by the camshaft position (CMP) sensor, by sensing the passage of teeth from the CMP wheel. Camshaft position sensor | ||
Powertrain control module | Powertrain control module | ||
ECT, MAF, and CKP sensors | ECT, MAF, and CKP sensors | ||
Verify the CMP is installed correctly and not out of synchronization. | Verify the CMP is installed correctly and not out of synchronization. | ||
− | P1380 | + | ==P1380== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Variable Cam Timing Solenoid A Circuit Malfunction The comprehensive component monitor(CCM) monitors the VCT circuit to the PCM for high and low voltage. If during testing voltage was to fall below a calibrated limit a calibrated amount of time the test will fail. Open or short VCT circuit | ||
Open VPWR circuit | Open VPWR circuit | ||
Damaged PCM | Damaged PCM | ||
Line 1,315: | Line 1,379: | ||
DTC P1380 is a VCT circuit check. Testing should include wires, solenoid coil and PCM. | DTC P1380 is a VCT circuit check. Testing should include wires, solenoid coil and PCM. | ||
− | P1381 | + | ==P1381== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Variable Cam Timing Over-advanced (Bank 1) The comprehensive component monitor (CCM) monitors the VCT position for an over-advanced camshaft timing. The test fails when the camshaft timing exceeds a maximum calibrated value or remains in an advanced position. Cam timing improperly set | ||
No oil flow to the VCT piston chamber | No oil flow to the VCT piston chamber | ||
Low oil pressure | Low oil pressure | ||
VCT solenoid valve stuck closed | VCT solenoid valve stuck closed | ||
Camshaft advance mechanism binding (VCT unit) | Camshaft advance mechanism binding (VCT unit) | ||
− | P1381 DTC is a check of the VCT unit. Testing should not include electrical checks. Diagnostics and repair for the VCT unit are located in the Workshop Manual. | + | ==P1381== DTC is a check of the VCT unit. Testing should not include electrical checks. Diagnostics and repair for the VCT unit are located in the Workshop Manual. |
− | P1383 | + | ==P1383== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Variable Cam Timing Over-retarded (Bank 1) The comprehensive component monitor (CCM) monitors the VCT position for over-retarded camshaft timing. The test fails when the camshaft timing exceeds a maximum calibrated value or remains in an retarded position. Cam timing improperly set | ||
Continuous oil flow to the VCT piston chamber | Continuous oil flow to the VCT piston chamber | ||
VCT solenoid valve stuck open | VCT solenoid valve stuck open | ||
Camshaft advance mechanism binding (VCT unit) | Camshaft advance mechanism binding (VCT unit) | ||
DTC P1383 is a check of the VCT unit. Testing should not include electrical checks. Engine will idle rough, hard starting and may stall. Diagnostics and repair for the VCT unit are located in the Workshop Manual. | DTC P1383 is a check of the VCT unit. Testing should not include electrical checks. Engine will idle rough, hard starting and may stall. Diagnostics and repair for the VCT unit are located in the Workshop Manual. | ||
− | P1400 | + | ==P1400== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | DPF EGR Sensor Circuit Low Voltage Detected The EGR monitor checks the DPF EGR sensor signal to the PCM for low voltage. The test fails when the average voltage to the PCM drops to a voltage less than the minimum calibrated value. DPFEGR circuit short to GND | ||
Damaged DPF EGR sensor | Damaged DPF EGR sensor | ||
VREF short to GND | VREF short to GND | ||
Line 1,333: | Line 1,409: | ||
A DPF EGR PID reading less than 0.2 volt with the key ON and engine OFF or running, indicates a hard fault. | A DPF EGR PID reading less than 0.2 volt with the key ON and engine OFF or running, indicates a hard fault. | ||
− | P1401 | + | ==P1401== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | DPF EGR Sensor Circuit High Voltage Detected The EGR monitor checks the DPF EGR sensor signal to the PCM for high voltage. The test fails when the average voltage to the PCM goes to a voltage greater than the maximum calibrated value. DPF EGR circuit open | ||
VREF short to PWR | VREF short to PWR | ||
Damaged DPF EGR sensor | Damaged DPF EGR sensor | ||
Line 1,341: | Line 1,421: | ||
A DPF EGR PID reading greater than 4.5 volts with the key ON and engine OFF or running, indicates a hard fault. | A DPF EGR PID reading greater than 4.5 volts with the key ON and engine OFF or running, indicates a hard fault. | ||
− | P1405 | + | ==P1405== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | DPF EGR Sensor Upstream Hose Off or Plugged While driving, the EGR monitor commands the EGR valve closed and checks the differential pressure across the EGR orifice. The test fails when the signal from the DPF EGR sensor indicates EGR flow is in the negative direction. Upstream hose is disconnected | ||
Upstream hose is plugged (ice) | Upstream hose is plugged (ice) | ||
Plugged or damaged EGR tube | Plugged or damaged EGR tube | ||
Line 1,348: | Line 1,432: | ||
Verify DPF EGR sensor proper mounting and function (view DPF EGR PID while applying and releasing vacuum directly to sensor with a hand pump) | Verify DPF EGR sensor proper mounting and function (view DPF EGR PID while applying and releasing vacuum directly to sensor with a hand pump) | ||
− | P1406 | + | ==P1406== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | DPF EGR Sensor Downstream Hose Off or Plugged While driving, the EGR monitor commands the EGR valve closed and checks the differential pressure across the EGR orifice. The test fails when the signal from the DPF EGR sensor continues to indicate EGR flow even after the EGR valve is commanded closed. Downstream hose is disconnected | ||
Downstream hose is plugged (ice) | Downstream hose is plugged (ice) | ||
Plugged or damaged EGR tube | Plugged or damaged EGR tube | ||
Line 1,355: | Line 1,443: | ||
Verify DPF EGR sensor proper mounting and function (view DPFEGR PID while applying and releasing vacuum directly to sensor with a hand pump) | Verify DPF EGR sensor proper mounting and function (view DPFEGR PID while applying and releasing vacuum directly to sensor with a hand pump) | ||
− | P1408 | + | ==P1408== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | EGR Flow Out of Self-Test Range (Non MIL) This test is performed during the KOER on demand self-test only. The EGR system is commanded ON at a fixed engine speed. The test fails and the DTC is output when the measured EGR flow falls above or below the required calibration . For vacuum activated systems see Possible Causes for DTC P0401.For electric motor system see Possible Causes DTC P0400. For Electric EGR, use the output state control function of the scan tool and monitor the MAP PID (MAP) and the EEGR PID (EGRMDSD) while commanding the EEGR on. If EGR is introduced into the engine at idle, the rpm will drop or stall out. For vacuum systems see Diagnostic Aids for P0401. | ||
+ | |||
+ | ==P1409== | ||
+ | |||
+ | ===Error Description=== | ||
− | + | EGR Vacuum Regulator Solenoid Circuit Malfunction This test checks the electrical function of the EGRVR solenoid. The test fails when the EGRVR circuit voltage is either too high or too low when compared to the expected voltage range. The EGR system must be enabled for the test to be completed. EGRVR circuit open | |
VPWR open to EGRVR solenoid | VPWR open to EGRVR solenoid | ||
EGRVR circuit short to VPWR or GND | EGRVR circuit short to VPWR or GND | ||
Line 1,364: | Line 1,460: | ||
The EGR vacuum regulator solenoid resistance is from 26 to 40 ohms. | The EGR vacuum regulator solenoid resistance is from 26 to 40 ohms. | ||
− | P1411 | + | ==P1411== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Secondary Air Injection (AIR) system downstream flow The secondary air injection system does not detect the presence of air in the exhaust when introduced by the secondary air injection system Electric AIR Pump | ||
Hose from AIR pump leak | Hose from AIR pump leak | ||
AIR bypass solenoid leak/blocked | AIR bypass solenoid leak/blocked | ||
Line 1,371: | Line 1,471: | ||
In order to test the AIR pump, it must be capable of driving the HO2S lean. | In order to test the AIR pump, it must be capable of driving the HO2S lean. | ||
− | P1413 Secondary Air Injection System Monitor Circuit Low The secondary air injection system monitor circuit is low, indicating the electrical AIR pump is off although the electrical AIR pump was commanded on by the PCM. Open B+ circuit | + | ==P1413== Secondary Air Injection System Monitor Circuit Low The secondary air injection system monitor circuit is low, indicating the electrical AIR pump is off although the electrical AIR pump was commanded on by the PCM. Open B+ circuit |
Open AIR circuit | Open AIR circuit | ||
Damaged PCM | Damaged PCM | ||
Line 1,379: | Line 1,479: | ||
The AIR monitor circuit is held low by the resistance path through the AIR pump when the pump is off. Also, look for open circuit from SSR to AIR pump. | The AIR monitor circuit is held low by the resistance path through the AIR pump when the pump is off. Also, look for open circuit from SSR to AIR pump. | ||
− | P1414 Secondary Air Injuction System Monitor Circuit High The secondary air injection system monitor circuit is high, indicating the electrical AIR pump is on although the electrical AIR pump was commanded off by the PCM. Open AIR monitor circuit from the pump | + | ==P1414== Secondary Air Injuction System Monitor Circuit High The secondary air injection system monitor circuit is high, indicating the electrical AIR pump is on although the electrical AIR pump was commanded off by the PCM. Open AIR monitor circuit from the pump |
AIR circuit short to power | AIR circuit short to power | ||
Damaged solid state relay | Damaged solid state relay | ||
Line 1,386: | Line 1,486: | ||
Damaged PCM | Damaged PCM | ||
− | P1432 | + | ==P1432== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Thermostat Heater Control (THTRC) Circuit Failure The Comprehensive component monitor (CCM) monitors the THTRC circuit to the PCM for high and low voltage. If during testing; voltage was to fall below a calibrated limit for a calibrated amount of time the test will fail and set the DTC and MIL. Open or shorted THTRC circuit | ||
Open VPWR | Open VPWR | ||
Open or shorted thermostat assembly | Open or shorted thermostat assembly | ||
Line 1,392: | Line 1,496: | ||
DTC P1432 is a THTRC circuit check. Testing should include wire harness, thermostat heater and PCM. | DTC P1432 is a THTRC circuit check. Testing should include wire harness, thermostat heater and PCM. | ||
− | P1443 | + | ==P1443== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Very Small Or No Purge Flow Condition A fuel tank pressure change greater than a minus (-) 7 inches of H 2 O in 30 seconds has occurred with purge (fuel vapor) flow less than 0.02 pounds per minute. Blocked fuel vapor hose between EVAP canister purge valve and FTP sensor. | ||
Blocked fuel vapor hose between EVAP canister purge valve and engine intake manifold. | Blocked fuel vapor hose between EVAP canister purge valve and engine intake manifold. | ||
Blocked vacuum hose between EVAP canister purge valve-solenoid and engine intake manifold. | Blocked vacuum hose between EVAP canister purge valve-solenoid and engine intake manifold. | ||
Line 1,398: | Line 1,506: | ||
Check for blockages between the fuel tank, EVAP canister purge valve and engine intake manifold. Check obstructions in the EVAP canister purge valve diaphragm and ports. | Check for blockages between the fuel tank, EVAP canister purge valve and engine intake manifold. Check obstructions in the EVAP canister purge valve diaphragm and ports. | ||
− | P1450 | + | ==P1450== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Unable to Bleed Up Fuel Tank Vacuum Monitors the fuel vapor vacuum and pressure in the fuel tank. The system failure occurs when the EVAP running loss monitor detects excessive fuel tank vacuum with the engine running (but not at idle). Blockages or kinks in EVAP canister tube or EVAP canister purge outlet tube (between fuel tank, EVAP canister purge valve and EVAP canister) | ||
Fuel filler cap stuck closed (no vacuum relief) | Fuel filler cap stuck closed (no vacuum relief) | ||
Contaminated fuel vapor elbow on EVAP canister | Contaminated fuel vapor elbow on EVAP canister | ||
Line 1,408: | Line 1,520: | ||
Damaged FTP sensor | Damaged FTP sensor | ||
− | P1451 | + | ==P1451== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | EVAP Control System Canister Vent Solenoid Circuit Malfunction | ||
Monitors the canister vent (CV) solenoid circuit for an electrical failure. The test fails when the signal moves outside the minimum or maximum allowable calibrated parameters for a specified canister vent duty cycle by PCM command. VPWR circuit open | Monitors the canister vent (CV) solenoid circuit for an electrical failure. The test fails when the signal moves outside the minimum or maximum allowable calibrated parameters for a specified canister vent duty cycle by PCM command. VPWR circuit open | ||
CV solenoid circuit shorted to PWR GND or CHASSIS GND | CV solenoid circuit shorted to PWR GND or CHASSIS GND | ||
Line 1,417: | Line 1,533: | ||
To verify normal function, monitor the EVAP canister vent solenoid signal PID EVAPCV and the signal voltage (PCM control side). With the valve open, EVAPCV will indicate 0 percent duty cycle and the voltage approximately equal to battery voltage. When the valve is commanded fully closed, EVAPCV will indicate 100% duty cycle and a voltage drop of 4 volts minimum is normal. Output test mode may be used to switch output ON/OFF to verify function. | To verify normal function, monitor the EVAP canister vent solenoid signal PID EVAPCV and the signal voltage (PCM control side). With the valve open, EVAPCV will indicate 0 percent duty cycle and the voltage approximately equal to battery voltage. When the valve is commanded fully closed, EVAPCV will indicate 100% duty cycle and a voltage drop of 4 volts minimum is normal. Output test mode may be used to switch output ON/OFF to verify function. | ||
− | P1460 | + | ==P1460== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Wide Open Throttle A/C Cutout Primary Circuit Malfunction NOTE: For applications that use a normally open relay to control the A/C clutch, the following description applies to the A/C clutch relay control circuit. Monitors the wide open throttle A/C cutoff (WAC) circuit output from the PCM. The test fails if: When the PCM grounds the WAC circuit, excessive current draw is detected on the WAC circuit; or with the WAC circuit not grounded by the PCM, voltage is not detected on the WAC circuit (the PCM expects to detect VPWR voltage coming through the WAC relay coil to the WAC circuit). Open or shorted WAC circuit | ||
Damaged WAC relay (or CCRM) | Damaged WAC relay (or CCRM) | ||
Open VPWR circuit to WAC relay | Open VPWR circuit to WAC relay | ||
Line 1,428: | Line 1,548: | ||
If vehicle is not equipped with A/C, DTC P1460 can be ignored | If vehicle is not equipped with A/C, DTC P1460 can be ignored | ||
− | P1461 | + | ==P1461== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Air Conditioning Pressure Sensor (ACP) Sensor High Voltage Detected ACP inputs a voltage to the PCM. If the voltage is above a calibrated level the DTC will set. ACP sensor circuit short to PWR | ||
ACP circuit open | ACP circuit open | ||
Damaged PCM | Damaged PCM | ||
Line 1,436: | Line 1,560: | ||
Verify VREF voltage between 4.0 and 6.0V. | Verify VREF voltage between 4.0 and 6.0V. | ||
− | P1462 | + | ==P1462== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Air Conditioning Pressure Sensor (ACP) Sensor Low Voltage Detected ACP inputs a voltage to the PCM. If the voltage is below the calibrated level the DTC will set. ACP circuit short to GND or SIGRTN | ||
VREF circuit open | VREF circuit open | ||
Damaged PCM | Damaged PCM | ||
Line 1,443: | Line 1,571: | ||
Verify VREF voltage between 4.0 and 6.0V. | Verify VREF voltage between 4.0 and 6.0V. | ||
− | P1463 | + | ==P1463== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Air Conditioning Pressure Sensor (ACP) Insufficient Pressure Change Each time the A/C clutch engages, the PCM is looking for a pressure change in the refrigerant. If the change in pressure is outside of the calibration the DTC will set. A/C system mechanical failure | ||
Open ACP or VREF circuit | Open ACP or VREF circuit | ||
A/C sensor damaged | A/C sensor damaged | ||
Line 1,450: | Line 1,582: | ||
Verify A/C system function, including refrigerant charge. | Verify A/C system function, including refrigerant charge. | ||
− | P1464 | + | ==P1464== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | A/C Demand Out Of Self-Test Range Indicates the ACCS input to the PCM was high during Self-Test. A/C was on during self-test | ||
A/C Clutch PWR circuit short to power (applications with N/C WAC relay contacts) | A/C Clutch PWR circuit short to power (applications with N/C WAC relay contacts) | ||
ACCS circuit short to power | ACCS circuit short to power | ||
Line 1,458: | Line 1,594: | ||
If A/C or defrost were on during self-test, turn off and rerun test. | If A/C or defrost were on during self-test, turn off and rerun test. | ||
− | P1469 | + | ==P1469== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Low A/C Cycling Period Indicates frequent A/C compressor clutch cycling. Mechanical A/C system concern (such as low refrigerant charge, damaged A/C cycling switch) | ||
Intermittent open between the cycling pressure switch and pin 41 (ACCS) to the PCM | Intermittent open between the cycling pressure switch and pin 41 (ACCS) to the PCM | ||
Intermittent open in IGN RUN circuit to cycling pressure switch (if applicable) | Intermittent open in IGN RUN circuit to cycling pressure switch (if applicable) | ||
Line 1,464: | Line 1,604: | ||
This test was designed to protect the transmission. In some strategies, the PCM will unlock the torque converter during A/C clutch engagement. If a concern is present that results in frequent A/C clutch cycling, damage could occur if the torque converter was cycled at these intervals. This test will detect this condition, set the DTC and prevent the torque converter from excessive cycling. | This test was designed to protect the transmission. In some strategies, the PCM will unlock the torque converter during A/C clutch engagement. If a concern is present that results in frequent A/C clutch cycling, damage could occur if the torque converter was cycled at these intervals. This test will detect this condition, set the DTC and prevent the torque converter from excessive cycling. | ||
− | P1474 | + | ==P1474== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Low Fan Control (LFC) Primary Circuit Failure Monitors the low fan control (LFC) (fan control [FC] for one speed fan application) primary circuit output from the PCM. The test fails if: When the PCM grounds the LFC/FC circuit, excessive current draw is detected on the LFC/FC circuit; or with the LFC/FC circuit not grounded by the PCM, voltage is not detected on the LFC/FC circuit (the PCM expects to detect VPWR voltage coming through the low speed FC relay [or CCRM] coil to the LFC/FC circuit). Open or shorted LFC/FC circuit | ||
Open VPWR circuit to low speed FC relay | Open VPWR circuit to low speed FC relay | ||
Damaged low speed FC relay (or CCRM) | Damaged low speed FC relay (or CCRM) | ||
Line 1,473: | Line 1,617: | ||
During KOEO and KOER Self-Test, the LFC/FC circuit will be cycled on and off | During KOEO and KOER Self-Test, the LFC/FC circuit will be cycled on and off | ||
− | P1474 | + | ==P1474== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Hydraulic Cooling Fan Primary Circuit Failure (HCF) This test checks the electrical function of the (HCF) primary circuit. The test fails if: the PCM detects voltage either too high or too low when compared to the expected voltage range on the (HCF) primary circuit. HCF circuit open | ||
HCF circuit short to power | HCF circuit short to power | ||
HCF circuit short to ground | HCF circuit short to ground | ||
Line 1,480: | Line 1,628: | ||
The HCF solenoid is integrated in the HCF pump which looks like a power steering pump. The electrical resistance of the solenoid windings is nominally 10 ohms. | The HCF solenoid is integrated in the HCF pump which looks like a power steering pump. The electrical resistance of the solenoid windings is nominally 10 ohms. | ||
− | P1477 | + | ==P1477== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Medium Fan Control (MFC) Primary Circuit Failure Monitors the medium fan control (MFC) primary circuit output from the PCM. The test fails if: With the MFC output commanded on (grounded), excessive current draw is detected on the MFC circuit; or with the MFC circuit commanded off, voltage is not detected on the MFC circuit (the PCM expects to detect IGN START/RUN voltage coming through the medium speed FC relay coil to the MFC circuit). Open or shorted MFC circuit | ||
Open IGN START/RUN circuit to medium speed FC relay | Open IGN START/RUN circuit to medium speed FC relay | ||
Damaged medium speed FC relay | Damaged medium speed FC relay | ||
Line 1,487: | Line 1,639: | ||
Using Output Test Mode on scan tool, when commanding the low speed fan on, the PCM will also activate the medium speed fan output. | Using Output Test Mode on scan tool, when commanding the low speed fan on, the PCM will also activate the medium speed fan output. | ||
− | P1479 | + | ==P1479== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | High Fan Control (HFC) Primary Circuit Failure Monitors the high fan control (HFC) primary circuit output from the PCM. The test fails if: With the HFC output commanded on (grounded), excessive current draw is detected on the HFC circuit; or with the HFC circuit commanded off, voltage is not detected on the HFC circuit (the PCM expects to detect VPWR voltage coming through the high speed FC relay [or CCRM] coil to the HFC circuit). Open or shorted HFC circuit | ||
Open VPWR circuit to high speed FC relay | Open VPWR circuit to high speed FC relay | ||
Damaged high speed FC relay (or CCRM) | Damaged high speed FC relay (or CCRM) | ||
Line 1,496: | Line 1,652: | ||
During KOEO and KOER self-test, the HFC circuit will be cycled on and off | During KOEO and KOER self-test, the HFC circuit will be cycled on and off | ||
− | P1500 | + | ==P1500== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Vehicle Speed Sensor (VSS) Intermittent Indicates the VSS input signal was intermittent. This DTC is set when a VSS fault interferes with other OBDII tests, such as Catalyst efficiency monitor, EVAP monitor, HO2S monitor, etc. Intermittent VSS connections | ||
Intermittent open in VSS harness circuit(s) | Intermittent open in VSS harness circuit(s) | ||
Intermittent short in VSS harness circuit(s) | Intermittent short in VSS harness circuit(s) | ||
Line 1,502: | Line 1,662: | ||
Damaged PCM | Damaged PCM | ||
− | P1501 | + | ==P1501== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Vehicle Speed Sensor (VSS) Out of Self Test Range Indicates the VSS input signal is out of Self Test range. If the PCM detects a VSS input signal any time during Self Test, a DTC P1501 will be set and the test will abort. Noisy VSS input signal from Radio Frequency Interference/ Electro-Magnetic Interference (RFI/EMI) external sources such as ignition wires, charging circuit or after market equipment. | ||
Check for VSS input to be 0 mph when vehicle transmission is in Park. | Check for VSS input to be 0 mph when vehicle transmission is in Park. | ||
− | P1502 | + | ==P1502== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Vehicle Speed Sensor (VSS) Intermittent Indicates the powertrain control module (PCM) detected an error in the vehicle speed information. Vehicle speed data is received from either the vehicle speed sensor (VSS), transfer case speed sensor (TCSS), anti-lock brake system (ABS) control module, generic electronic module (GEM), or central timer module (CTM). This DTC is set the same way as P0500. However, it is intended to flash the transmission control indicator lamp (TCIL) for first time VSS circuit error/malfunctions. Refer to possible causes for P0500. | ||
Refer to diagnostic aids for P0500. | Refer to diagnostic aids for P0500. | ||
− | P1502 | + | ==P1502== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Vehicle Speed Sensor (VSS) Intermittent (TCIL illuminates) Indicates the powertrain control module (PCM) detected an error in the vehicle speed information. Vehicle speed data is received from either the vehicle speed sensor (VSS), anti-lock brake system (ABS) control module, generic electronic module (GEM), or central timer module (CTM). This DTC is set the same way as P0500. However, it is intended to flash the transmission control indicator lamp (TCIL) for first time VSS circuit error/malfunctions. Refer to possible causes for P0500 Refer to diagnostic aides for P0500 | ||
+ | |||
+ | ==P1504== | ||
+ | |||
+ | ===Error Description=== | ||
− | + | Idle Air Control (IAC) Circuit Malfunction This DTC is set when the PCM detects an electrical load failure on the IAC output circuit. IAC circuit open | |
VPWR to IAC solenoid open | VPWR to IAC solenoid open | ||
IAC circuit short to PWR | IAC circuit short to PWR | ||
Line 1,518: | Line 1,694: | ||
The IAC solenoid resistance is from 6 to 13 ohms. | The IAC solenoid resistance is from 6 to 13 ohms. | ||
− | P1506 | + | ==P1506== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Idle Air Control (IAC) Overspeed Error This DTC is set when the PCM detects engine idle speed that is greater than the desired rpm. IAC circuit short to GND | ||
Damaged IAC valve | Damaged IAC valve | ||
IAC valve stuck open | IAC valve stuck open | ||
Line 1,526: | Line 1,706: | ||
Disconnect IAC valve and look for little or no change in engine rpm as an indication of a stuck or damaged valve. | Disconnect IAC valve and look for little or no change in engine rpm as an indication of a stuck or damaged valve. | ||
− | P1507 | + | ==P1507== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Idle Air Control (IAC) Underspeed Error This DTC is set when the PCM detects engine idle speed that is less than the desired rpm. IAC circuit open | ||
IAC circuit short to PWR | IAC circuit short to PWR | ||
VPWR to IAC solenoid open | VPWR to IAC solenoid open | ||
Line 1,535: | Line 1,719: | ||
Disconnect IAC valve and look for no change in engine rpm as an indication of a stuck or damaged valve | Disconnect IAC valve and look for no change in engine rpm as an indication of a stuck or damaged valve | ||
− | P1516 | + | ==P1516== |
− | P1517 | + | |
+ | ===Error Description=== | ||
+ | |||
+ | Intake Manifold Runner Control Input Error (Bank 1) | ||
+ | ==P1517== | ||
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Intake Manifold Runner Control Input Error (Bank 2) The IMRC system is monitored for failure during continuous or key ON engine OFF self-test. Each DTC will distinguish the corresponding failed bank for IMRC actuator assemblies with dual monitor switches. The test fails when the signal on the monitor pin is outside an expected calibrated range. Mechanical concern - bind, seize, damage or obstruction of IMRC hardware | ||
An IMRCM PID reading at closed throttle that is less than VREF may indicate a fault | An IMRCM PID reading at closed throttle that is less than VREF may indicate a fault | ||
An IMRCM PID reading near 1 volt or greater with engine rpm of at least 3000 may indicate a fault | An IMRCM PID reading near 1 volt or greater with engine rpm of at least 3000 may indicate a fault | ||
− | P1518 | + | ==P1518== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Intake Manifold Runner Control Malfunction (Stuck Open) The IMRC system is monitored for failure during continuous, key ON engine OFF or key ON engine running self-test. The test fails when the signal on the monitor pin is less than an expected calibrated range at closed throttle. IMRC monitor signal circuit shorted to PWR GND or SIG RTN | ||
Damaged IMRC actuator | Damaged IMRC actuator | ||
Damaged PCM | Damaged PCM | ||
An IMRCM PID reading approximately near 1 volt at closed throttle may indicate a fault | An IMRCM PID reading approximately near 1 volt at closed throttle may indicate a fault | ||
− | P1519 | + | ==P1519== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Inlet Manifold Runner Control Malfunction (Stuck Closed) The IMRC system is monitored for failure during continuous, key ON engine OFF or key ON engine running self-test. The test fails when the signal on the monitor pin is more than an expected calibrated range with IMRC activated. IMRC monitor circuit open | ||
IMRC control circuit open | IMRC control circuit open | ||
IMRC monitor circuit short to VREF | IMRC monitor circuit short to VREF | ||
Line 1,554: | Line 1,754: | ||
An IMRCM PID reading at VREF with engine rpm of at least 3000 may indicate a fault. | An IMRCM PID reading at VREF with engine rpm of at least 3000 may indicate a fault. | ||
− | P1549 | + | ==P1549== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Intake Manifold Communication Control Circuit Malfunction The IMCC or intake manifold tuning (IMT) valve system is monitored for failure during continuous or key ON engine OFF self-test. The test fails when the PCM detects a concern with IMT valve output circuit. Open IMT valve circuit | ||
Open VPWR circuit | Open VPWR circuit | ||
Shorted IMT valve circuit | Shorted IMT valve circuit | ||
Line 1,561: | Line 1,765: | ||
An IMT valve fault PID (IMTVF) displaying YES status may indicate a fault | An IMT valve fault PID (IMTVF) displaying YES status may indicate a fault | ||
− | P1550 | + | ==P1550== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Power Steering Pressure (PSP) Sensor Malfunction The PSP sensor input signal to PCM is continuously monitored. The test fails when the signal falls out of a maximum or minimum calibrated range. PSP sensor damaged | ||
Damaged PCM | Damaged PCM | ||
The DTC indicates the PSP sensor is out of Self-Test range. | The DTC indicates the PSP sensor is out of Self-Test range. | ||
− | P1572 | + | ==P1572== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Brake Pedal Switch Circuit Indicates that the brake input rationality test for brake pedal position (BPP) and brake pressure applied (BPA) switches has failed. One or both inputs to the PCM did not change when it was expected to. Misadjusted brake switch | ||
Blown fuse | Blown fuse | ||
Damaged BPP switch | Damaged BPP switch | ||
Line 1,574: | Line 1,786: | ||
Check for proper function of stoplamps and speed control operation. Follow correct Self-Test procedures, refer to Section 2 Quick Test. | Check for proper function of stoplamps and speed control operation. Follow correct Self-Test procedures, refer to Section 2 Quick Test. | ||
− | P1605 | + | ==P1605== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Keep Alive Memory Test Failure Indicates the PCM has experienced an internal memory test failure. However there are external items that can cause this DTC. Reprogramming | ||
Battery terminal corrosion | Battery terminal corrosion | ||
Damaged PCM | Damaged PCM | ||
Line 1,581: | Line 1,797: | ||
If KAPWR is interrupted to the PCM, because of a battery or PCM disconnect, DTC can be generated on the first power-up. | If KAPWR is interrupted to the PCM, because of a battery or PCM disconnect, DTC can be generated on the first power-up. | ||
− | P1633 | + | ==P1633== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Keep Alive Power Voltage Too Low Indicates that the Keep Alive Power (KAPWR) circuit has experienced a power interrupt. Open KAPWR circuit | ||
Damaged PCM | Damaged PCM | ||
Intermittent KAPWR Circuit | Intermittent KAPWR Circuit | ||
− | P1635 | + | ==P1635== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Tire/Axle Ratio Out Of Acceptable Range This Diagnostic Trouble Code (DTC) indicates the tire and axle information contained in Vehicle ID block (VID) does not match vehicle hardware. Incorrect tire size | ||
Incorrect axle ratio | Incorrect axle ratio | ||
Incorrect VID configuration parameters | Incorrect VID configuration parameters | ||
Using the scan tool, view the tire and axle parameters within the VID. They must match vehicle hardware. | Using the scan tool, view the tire and axle parameters within the VID. They must match vehicle hardware. | ||
− | P1636 | + | ==P1636== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Inductive Signature Chip Communication Error Indicates the PCM has lost communication with the Inductive Signature Chip. PCM Damaged | ||
+ | |||
+ | ==P1639== | ||
+ | |||
+ | ===Error Description=== | ||
− | + | Vehicle ID Block Not Programed Or Is Corrupt This diagnostic trouble code (DTC) indicates that the vehicle ID (VID) block is not programed or the information within is corrupt. New PCM | |
Incorrect PCM | Incorrect PCM | ||
Incorrect VID configuration | Incorrect VID configuration | ||
Using an enhanced scan tool, reprogram the PCM to the most recent calibration available. | Using an enhanced scan tool, reprogram the PCM to the most recent calibration available. | ||
− | P1640 | + | ==P1640== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Powertrain DTC's Available in Another Module Vehicles using a secondary Engine Control Module can request that the Powertrain Control Module illuminate the Check Engine Light when a failure occurs which affect emission. DTCs stored in a secondary module, which requested the MIL to be turned on. | ||
Call-up PID address 0946 to determine secondary module requesting MIL illumination. Once secondary module is determined request DTCs from module. | Call-up PID address 0946 to determine secondary module requesting MIL illumination. Once secondary module is determined request DTCs from module. | ||
− | P1650 | + | ==P1650== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Power Steering Pressure (PSP) Switch Malfunction In Key On, Engine Off Self-Test, this DTC indicates the PSP input to the PCM is high. In Key On, Engine Running Self-Test, this DTC indicates that the PSP input did not change state. Steering wheel must be turned during Key On, Engine Running Self-Test | ||
PSP switch/shorting bar damaged | PSP switch/shorting bar damaged | ||
SIG RTN circuit open | SIG RTN circuit open | ||
Line 1,606: | Line 1,846: | ||
PCM damaged | PCM damaged | ||
− | P1651 | + | ==P1651== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Power Steering Pressure (PSP) Switch Signal Malfunction The PCM counts the number of times vehicle speed transitions from 0 to a calibratable speed. After a calibratable number of speed transitions the PCM expects that the PSP input should have changed. This DTC is set if the transition is not detected. Vehicle towed with engine running | ||
Power steering hydraulic concern was repaired but DTC was not erased | Power steering hydraulic concern was repaired but DTC was not erased | ||
PSP switch/shorting bar damaged | PSP switch/shorting bar damaged | ||
Line 1,615: | Line 1,859: | ||
Observe PSP V PID while checking wires for intermittents. | Observe PSP V PID while checking wires for intermittents. | ||
− | P1703 | + | ==P1703== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Brake Switch Out of Self-Test Range Indicates that during Key On Engine Off (KOEO) Self-Test, BPP signal was high. Or during Key On Engine Running (KOER) Self -Test, the BPP signal did not cycle high and low. Open or short in (BPP) circuit | ||
Open or short in stoplamp circuits | Open or short in stoplamp circuits | ||
Damaged PCM | Damaged PCM | ||
Line 1,623: | Line 1,871: | ||
Check for proper function of stoplamps. Follow correct Self-Test procedures, refer to Section 2, Quick Test . | Check for proper function of stoplamps. Follow correct Self-Test procedures, refer to Section 2, Quick Test . | ||
− | P1705 | + | ==P1705== |
− | + | ===Error Description=== | |
+ | |||
+ | Transmission Range Sensor Out of Self-Test Range | ||
+ | |||
+ | ==P1709== | ||
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Park/Neutral Position Switch Out of Self-Test Range The DTCs indicate that the voltage is high when it should be low. PNP/CPP circuit short to PWR | ||
Damaged PNP or CPP switch | Damaged PNP or CPP switch | ||
PNP/CPP circuit open in the SIGRTN | PNP/CPP circuit open in the SIGRTN | ||
Line 1,631: | Line 1,887: | ||
When exercising either the PNP or CPP switch the voltage should cycle from 5.0V to low | When exercising either the PNP or CPP switch the voltage should cycle from 5.0V to low | ||
− | P1729 | + | ==P1729== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | 4x4L Switch Malfunction The 4x4L switch is an ON/OFF. If the PCM does not see low voltage when the switch is ON a DTC will set. 4x4L harness open or shorted | ||
Damaged electronic shift module | Damaged electronic shift module | ||
Damaged PCM | Damaged PCM | ||
Verify the 4x4L switch cycles ON/OFF. | Verify the 4x4L switch cycles ON/OFF. | ||
− | P1780 | + | ==P1780== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Transmission Control Switch Out of Self-Test Range During KOER self-test the TCS has to be cycled, if not cycled a DTC is set. TCS circuit short or open | ||
Damaged TCS switch | Damaged TCS switch | ||
Damaged PCM | Damaged PCM | ||
Verify the TCS switch cycles ON/OFF | Verify the TCS switch cycles ON/OFF | ||
− | P1781 | + | ==P1781== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | 4x4L Switch Out of Self-Test Range The 4x4L switch is an ON/OFF. If the PCM does not see low voltage when the switch is on a DTC will set. 4x4L harness open or shorted | ||
Damaged electronic shift module | Damaged electronic shift module | ||
Damaged PCM | Damaged PCM | ||
Verify the 4x4L switch cycles ON/OFF | Verify the 4x4L switch cycles ON/OFF | ||
− | P1900 | + | ==P1900== |
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Output Shaft Speed sensor circuit intermittent failure See DTC P0723 | ||
+ | |||
+ | ==P2004== | ||
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Variable tumble control system (VTCS) shutter valve stuck open ON 2 CCM ´ (See DTC P2004) | ||
+ | |||
+ | ==P2006== | ||
+ | |||
+ | ===Error Description=== | ||
+ | |||
+ | Variable tumble control system (VTCS) shutter valve stuck closed ON 2 CCM ´ (See DTC P2006) | ||
+ | |||
+ | |||
+ | [[Category:Capri_Mk1]] | ||
+ | [[Category:Capri_Mk2]] | ||
+ | [[Category:Capri_Mk3]] | ||
+ | |||
+ | [[Category:Cortina_Mk1]] | ||
+ | [[Category:Cortina_Mk2]] | ||
+ | [[Category:Cortina_Mk3]] | ||
+ | [[Category:Cortina_Mk4]] | ||
+ | [[Category:Cortina_Mk5]] | ||
+ | |||
+ | [[Category:Cougar_Mk1]] | ||
+ | |||
+ | [[Category:C-Max_Mk1]] | ||
+ | [[Category:C-Max_Mk2]] | ||
+ | |||
+ | [[Category:Escort_Mk1]] | ||
+ | [[Category:Escort_Mk2]] | ||
+ | [[Category:Escort_Mk3]] | ||
+ | [[Category:Escort_Mk4]] | ||
+ | [[Category:Escort_Mk5]] | ||
+ | [[Category:Escort_Mk6]] | ||
+ | |||
+ | [[Category:Fiesta_Mk1]] | ||
+ | [[Category:Fiesta_Mk2]] | ||
+ | [[Category:Fiesta_Mk3]] | ||
+ | [[Category:Fiesta_Mk4]] | ||
+ | [[Category:Fiesta_Mk5]] | ||
+ | [[Category:Fiesta_Mk6]] | ||
+ | [[Category:Fiesta_Mk7]] | ||
+ | |||
+ | |||
+ | [[Category:Focus_Mk1]] | ||
+ | [[Category:Focus_Mk2]] | ||
+ | [[Category:Focus_Mk3]] | ||
+ | |||
+ | [[Category:Fusion_Mk1]] | ||
+ | |||
+ | [[Category:Galaxy_Mk1]] | ||
+ | [[Category:Galaxy_Mk2]] | ||
+ | [[Category:Galaxy_Mk3]] | ||
+ | |||
+ | [[Category:Granada_Mk1]] | ||
+ | [[Category:Granada_Mk2]] | ||
+ | [[Category:Granada_Mk3]] | ||
+ | |||
+ | [[Category:Ka_Mk1]] | ||
+ | [[Category:Ka_Mk2]] | ||
+ | |||
+ | [[Category:Kuga_Mk1]] | ||
+ | |||
+ | [[Category:Mondeo_Mk1]] | ||
+ | [[Category:Mondeo_Mk2]] | ||
+ | [[Category:Mondeo_Mk3]] | ||
+ | [[Category:Mondeo_Mk4]] | ||
+ | |||
+ | [[Category:Puma_Mk1]] | ||
− | + | [[Category:S-Max_Mk1]] | |
− | + | [[Category:Sierra_Mk1]] |
Latest revision as of 04:13, 3 March 2011
P0102
Error Description
Mass Air Flow (MAF) Circuit Low Input
The MAF sensor circuit is monitored by the PCM for low air flow (or voltage) input through the comprehensive component monitor (CCM).
If during key ON engine running the air flow (or voltage) changes below a minimum calibrated limit, the test fails.
Possible Faults
MAF sensor disconnected
MAF circuit open to PCM
VPWR open to MAF sensor
PWR GND open to MAF sensor
MAF RTN circuit open to PCM
MAF circuit shorted to GND
Intake air leak (near MAF sensor)
A closed throttle indication [throttle position (TP) sensor system]
Damaged MAF sensor
Damaged PCM
A MAF V PID (MAF PID) reading less than 0.23 volts (Refer to equivalent grams/second chart in GO to Pinpoint Test DC ) in continuous memory or key ON and engine running indicates a hard fault.
P0103
Error Description
Mass Air Flow (MAF) Circuit High Input
The MAF sensor circuit is monitored by the PCM for high air flow (or voltage) input through the comprehensive component monitor (CCM).
If during key ON engine OFF or key ON engine running the air flow (or voltage) changes above a maximum calibrated limit, the test fails.
Possible Faults
MAF sensor screen is blocked
MAF circuit shorted to VPWR
Damaged MAF sensor
Damaged PCM
A MAF V PID (MAF PID) reading less than 4.6 volts (Refer to equivalent grams/second chart in GO to Pinpoint Test DC ) in continuous memory or key ON and engine running indicates a hard fault.
P0106
Error Description
Barometric Pressure Sensor Circuit in within limits
Barometric (BARO) Pressure Sensor Circuit Performance Baro sensor input to the PCM is monitored and is not within the calibrated value.
Possible Faults
Slow responding BARO sensor
Electrical circuit failure
Damaged BARO sensor
Damaged PCM
VREF voltage should be between 4.0 and 6.0 volts
PID reading is in frequency
P0107
Error Description
BARO/MAP Sensor Low Voltage
Detected Sensor operating voltage is less than 0.25 volts (VREF), as a result it failed below the minimum allowable calibrated parameter.
Possible Faults
Open in the circuit, or short to ground
VREF circuit open, or short to ground
Damaged BARO/MAP sensor
Damaged PCM
VREF should be greater than 4.0 volts
PID reading is in frequency/volts
P0108
Error Description
BARO/MAP Sensor High Voltage
Detected Sensor operating voltage is greater than 5.0 volts (VREF), as a result it failed above maximum allowable calibrated parameter.
Possible Faults
VREF shorted to VWPR
BARO/MAP signal shorted to VPWR
Damaged BARO/MAP sensor
Damaged PCM
VREF should be less than 6.0 volts. PID reading is in frequency/Volts
P0109
Error Description
BARO/MAP Sensor Circuit Intermittent
The sensor signal to the PCM is failing intermittently.
Possible Faults
Loose electrical connection
Damaged BARO/MAP sensor
Check harness and connection.
P0112
Error Description
Intake Air Temperature (IAT) Circuit Low Input Indicates the sensor signal is less than Self-Test minimum. The IAT sensor minimum is 0.2 volts or 121°C (250°F). Grounded circuit in harness Damaged sensor Improper harness connection Damaged PCM IAT V PID reading less than 0.2 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault.
P0113
Error Description
Intake Air Temperature (IAT) Circuit High Input Indicates the sensor signal is greater than Self-Test maximum. The IAT sensor maximum is 4.6 volts or -50°C (-58°F). Open circuit in harness Sensor signal short to power Damaged sensor Improper harness connection Damaged PCM IAT V PID reading greater than 4.6 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault.
P0116
Error Description
Engine Coolant Temperature Circuit Range/Performance Failure Indicates the engine coolant temperature rationality test has failed. The PCM logic that sets this DTC indicates that engine coolant temperature sensor (ECT or CHT) drifted higher than the nominal sensor calibration curve and could prevent one or more OBD II monitors from executing. The PCM runs this logic after an engine off "calibrated soak period (typically 6 hours). This soak period allows the Intake Air Temperature (IAT) and engine coolant temperature (CHTor ECT) to stabilize and not differ by more than a calibrated value. DTC P0116 is set when all of the following conditions are met: Engine coolant temperature at engine start exceeds IAT at engine start by more than a calibrated value, typically 30°F (1°C). Engine coolant temperature exceeds a calibrated value, typically 225F (107C). The Fuel, Heated Oxygen Sensor, Catalyst and Misfire monitors have not completed. Calibrated timer to set DTC P0116 has expired. Engine Coolant Temperature (ECT) or Cylinder Head Temperature (CHT) sensor Coolant System Concern Ensure IAT and engine coolant temperature are similar when engine is cold. Also ensure engine coolant temperature sensor (ECT or CHT) and actual engine operating temperature are the same.
P0117
Error Description
Engine Coolant Temperature (ECT) Circuit Low Input Indicates the sensor signal is less than Self-Test minimum. The ECT sensor minimum is 0.2 volts or 121°C (250°F). Note on some vehicles that are not equipped with an ECT sensor, CHT can be used and can set this DTC. Grounded circuit in harness Damaged sensor Improper harness connection Damaged PCM ECT V PID reading less than 0.2 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault.
P0118
Error Description
Engine Coolant Temperature (ECT) Circuit High Input Indicates the sensor signal is greater than Self-Test maximum. The ECT sensor maximum is 4.6 volts or -50°C (-58°F). Note on some vehicles that are not equipped with an ECT sensor, CHT can be used and can set this DTC. Open circuit in harness Sensor signal short to power Damaged PCM Improper harness connection Damaged sensor ECT V PID reading greater than 4.6 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault.
P0121
Error Description
Throttle Position (TP) Circuit Performance Problem The TP sensor circuit is monitored by the PCM for a non closed throttle position at idle. If key ON engine running self-test terminates upon placing the transmission range selector in gear (DRIVE or REVERSE) or when closing the throttle (idle) after opening it (in PARK or NEUTRAL) the TP closed throttle position is not attained, the test fails. Binding throttle linkage Damaged throttle body TP circuit open to PCM Damaged TP sensor SIG RTN circuit open to TP sensor Drive vehicle, bring to a stop, turn key OFF. Start vehicle, run key ON engine running self-test at idle. Access KOER diagnostic trouble codes on scan tool.
P0122
Error Description
Throttle Position (TP) Circuit Low Input The TP sensor circuit is monitored by the PCM for a low TP rotation angle (or voltage) input through the comprehensive component monitor (CCM). If during key ON engine OFF or key ON engine running the TP rotation angle (or voltage) changes below a minimum calibrated limit, the test fails. TP sensor not seated properly TP circuit open to PCM VREF open to TP sensor TP circuit short to GND Damaged TP sensor Damaged PCM A TP PID (TP V PID) reading less than 3.42% (0.17 volt) in key ON engine OFF, continuous memory or key ON engine running indicates a hard fault.
P0123
Error Description
Throttle Position (TP) Circuit High Input The TP sensor circuit is monitored by the PCM for a high TP rotation angle (or voltage) input through the comprehensive component monitor (CCM). If during key ON engine OFF or key ON engine running the TP rotation angle (or voltage) changes above maximum calibrated limit, the test fails. TP sensor not seated properly TP circuit short to PWR VREF short to PWR SIG RTN circuit open to TP sensor Damaged TP sensor Damaged PCM A TP PID (TP V PID) reading greater than 93% (4.65 volts) in key ON engine OFF, continuous memory or key ON engine running indicates a hard fault.
P0125
Error Description
Insufficient Coolant Temperature For Closed Loop Fuel Control Indicates the ECT or CHT sensor has not achieved the required temperature level to enter closed loop operating conditions within a specified amount of time after starting engine. Insufficient warm up time Low engine coolant level Leaking or stuck open thermostat Malfunctioning ECT sensor Malfunctioning CHT sensor Refer to Thermostat Monitor in Section 1, Description and Operation, for system information.
P0127
Error Description
Intake Air Temperature Too High Indicates that IAT2 sensor has detected a potential abnormality in the intercooler system. This condition will cause the boost from the supercharger to be bypassed to avoid potential engine damage. Blockage of heat exchangers Low fluid level Fluid leakage Intercooler pump or relay failure Crossed intercooler coolant lines Monitor IAT2 PID. Typical IAT2 temperature should be greater than IAT1. Refer to Section 6 : Reference Values for ranges.
P0131
Error Description
HO2S Sensor Circuit Out of Range Low Voltage (HO2S-11) The HO2S sensor is monitored for a negative voltage known as characteristic shift downward (CSD). If the sensor is thought to be switching from 0 volts to -1 volts during testing, the PCM will use this input and remain in fuel control. Contaminated HO2S (water, fuel, etc) Crossed HO2S signal/signal return wiring
P0133
Error Description
HO2S Sensor Circuit Slow Response (HO2S-11) The HEGO Monitor checks the HO2S Sensor frequency and amplitude. If during testing the frequency and amplitude were to fall below a calibrated limit, the test will fail. Contaminated HO2S sensor. Exhaust leaks. Shorted /open wiring. Improper fueling. MAF sensor. Deteriorating HO2S sensor. Inlet air leaks. Access HO2S test results from the Generic OBD-II menu to verify DTC.
P0135
Error Description
HO2S Sensor Circuit Malfunction (HO2S-11) During testing the HO2S Heaters are checked for opens/shorts and excessive current draw. The test fails when current draw exceeds a calibrated limit and/or an open or short is detected. Short to VPWR in harness or HO2S. Water in harness connector. Open VPWR circuit. Open GND circuit. Low battery voltage. Corrosion or poor mating terminals and wiring Damaged HO2S heater. Damaged PCM. Wiring. Damaged HO2S heater. Damaged PCM.
P0136
Error Description
HO2S Sensor Circuit Malfunction (HO2S-12) The downstream HO2S sensor(s) are continuously checked for maximum and minimum voltages. The test fails when the voltages fail to meet the calibrated limits. Pinched, shorted, and corroded wiring and pins. Crossed sensor wires. Exhaust leaks. Contaminated or damaged sensor.
P0141
Error Description
HO2S Sensor Circuit Malfunction (HO2S-125) See DTC P0135
P0148
Error Description
Fuel Delivery Error At least one bank lean at wide open throttle. Severely restricted fuel filter. Severely restricted fuel supply line.
P0151
Error Description
HO2S Sensor Circuit Out of Range Low Voltage (HO2S-21) See DTC P0131
P0153
Error Description
HO2S Sensor Circuit Slow Response (HO2S-21) See DTC P0133
P0155
Error Description
HO2S Sensor Circuit Malfunction (HO2S-21) See DTC P0135
P0156
Error Description
HO2S Sensor Circuit Malfunction (HO2S-22) See DTC P0136
P0161
Error Description
HO2S Sensor Circuit Malfunction (HO2S-22) See DTC P0135
P0171
Error Description
System to Lean (Bank 1) The Adaptive Fuel Strategy continuously monitors fuel delivery hardware. The test fails when the adaptive fuel tables reach a rich calibrated limit. For lean and rich DTCs: Fuel system Excessive fuel pressure. Leaking/contaminated fuel injectors. Leaking fuel pressure regulator. Low fuel pressure or running out of fuel. Vapor recovery system. Induction system: Air leaks after the MAF. Vacuum Leaks. PCV system. Improperly seated engine oil dipstick. EGR system: Leaking gasket. Stuck EGR valve. Leaking diaphragm or EVR. Base Engine: Oil overfill. Cam timing. Cylinder compression. Exhaust leaks before or near the HO2Ss. A SHRTFT-1,2 PID value between -25% to +35% and a LONGFT-1,2 PID value between -35% to +35% is acceptable. Reading beyond these values indicate a failure.
P0172
Error Description
System to Rich (Bank 1) The Adaptive Fuel Strategy continuously monitors the fuel delivery hardware. The test fails when the adaptive fuel tables reach a lean calibrated limit. See Possible Causes for DTC P0171 See Diagnostic Aides for DTC P0171
P0174
Error Description
System to Lean (Bank 2) The Adaptive Fuel Strategy continuously monitors the fuel delivery hardware. The test fails when the adaptive fuel tables reach a rich calibrated limit. See Possible Causes for DTC P0171. See Diagnostic Aides for DTC P0171
P0175
Error Description
System to Rich (Bank 2) The Adaptive Fuel Strategy continuously monitors the fuel delivery hardware. The test fails when the adaptive fuel tables reach a lean calibrated limit. See Possible Causes for DTC P0171. See Diagnostic Aides for DTC P0171
P0176
Error Description
Flexible Fuel (FF) Sensor Circuit Malfunction The FF sensor input signal to PCM is continuously monitored. The test fails when the signal falls out of a maximum or minimum calibrated range. Open or short in FF sensor VPWR circuit Open in battery ground to FF sensor circuit Open in FF sensor signal circuit Short to ground in FF sensor signal circuit Fuel contamination Short to VPWR in FF sensor battery ground circuit Short to VPWR in FF sensor signal circuit Fuel separation Damaged FF sensor Damaged PCM A flex fuel (FF) PID reading of 0 Hz with the key ON and engine OFF or with engine at idle indicates a hard fault.
P0180
Error Description
Engine Fuel Temperature Sensor A Circuit Low Input (EFT) The comprehensive component monitor (CCM) monitors the EFT sensor circuit to the PCM for low and high voltage. If voltage were to fall below or exceed a calibrated limit and amount of time during testing, the test will fail. Open or short in harness. Low ambient temperature operation. Improper harness connection. Damaged EFT sensor. Damaged PCM. Verify EFT-PID value to determine open or short.
P0181
Error Description
Engine Fuel Temperature Sensor A Circuit Range/ Performance (EFT) The comprehensive component monitor (CCM) monitors the EFT Temperature for acceptable operating temperature. If during testing voltage were to fall below or exceed a calibrated limit, a calibrated amount of time the test will fail. Open or short in harness. Low ambient temperature operation. Improper harness connection. Damaged EFT sensor. Damaged PCM. Verify EFT-PID value to determine open or short.
P0182
Error Description
Engine Fuel Temperature Sensor A Circuit Low Input (EFT) The comprehensive component monitor (CCM) monitors the EFT sensor circuit to the PCM for low voltage. If voltage were to fall below a calibrated limit and amount of time during testing, the test will fail. Short in harness. VREF open or shorted. Low ambient temperature operation. Improper harness connection. Damaged EFT sensor. Damaged PCM. Verify EFT-PID and VREF values to determine open or short.
P0183
Error Description
Engine Fuel Temperature Sensor A Circuit High Input (EFT) The comprehensive component monitor (CCM) monitors the EFT sensor circuit to the PCM for high voltage. If voltage were to exceed a calibrated limit and a calibrated amount of time during testing, the test will fail. Open or short to PWR in harness. Damaged EFT sensor. Improper harness connection. Damaged PCM. Verify EFT-PID value to determine open or short.
P0186
Error Description
Engine Fuel Temperature Sensor B Circuit Range/Performance (EFT) See DTC P0181.
P0187
Error Description
Engine Fuel Temperature Sensor B Circuit Low Input (EFT). See DTC P0182.
P0188
Error Description
Engine Fuel Temperature Sensor B Circuit High Input (EFT) See DTC P0183.
P0190
Error Description
Fuel Rail Pressure Sensor Circuit Malfunction (FRP) The comprehensive component monitor (CCM) monitors the FRP sensor to the PCM for VREF voltage. The test fails when the VREF voltage from the PCM drops to a voltage less than a minimum calibrated value. VREF open in harness. VREF open in sensor. VREF open in PCM. Verify VREF voltage between 4.0 and 6.0V.
P0191
Error Description
Fuel Rail Pressure Sensor Circuit Performance (FRP) The comprehensive component monitor (CCM) monitors the FRP pressure for acceptable fuel pressure. The test fails when the fuel pressure falls below or exceeds a minimum/maximum calibrated value for a calibrated period of time. High fuel pressure. Low fuel pressure. Damaged FRP sensor. Excessive resistance in circuit. Low or no fuel. A FRP PID value during KOER of 138 kpa (20 psi) and 413 kpa (60 psi) for gasoline or 586 kpa (85 psi) and 725 kpa (105 psi) for natural gas vehicles (NG) is acceptable.
P0192
Error Description
Fuel Rail Pressure Sensor Circuit Low Input (FRP) The comprehensive component monitor (CCM) monitors the FRP sensor circuit to the PCM for low voltage. If voltage were to fall below a calibrated limit and amount of time during testing, the test will fail. FRP signal shorted to SIG RTN or PWR GND. FRP signal open (NG only) Low fuel pressure (NG only) Damaged FRP sensor. Damaged PCM. A FRP PID value during KOER or KOEO less than 0.3 volts for gasoline or 0.5 volts for natural gas vehicles (NG) would indicate a hard fault.
P0193
Error Description
Fuel Rail Pressure Sensor Circuit High Input (FRP) The comprehensive component monitor (CCM) monitors the FRP sensor circuit to the PCM for high voltage. If voltage were to fall below a calibrated limit and a calibrated amount of time during testing, the test will fail. FRP signal shorted to VREF or VPWR. FRP signal open (gasoline only) Low fuel pressure (NG only) Damaged FRP sensor. Damaged PCM. High fuel pressure (caused by damaged fuel pressure regulator) NG. A FRP PID value during KOER or KOEO less than 0.3 volts for gasoline or 0.5 volts for natural gas vehicles (NG) would indicate a hard fault.
==P0201== through P0212
Error Description
Cylinder #1 through Cylinder #12 Injector Circuits The comprehensive component monitor (CCM) monitors the operation of the fuel injector drivers in the PCM. The test fails when the fuel injector does not operate electrically even though the harness assembly and fuel injectors test satisfactorily. Faulty fuel injector driver within the PCM. PID Data Monitor INJ1F-INJ12F fault flags = YES.
P0217
Error Description
Engine Coolant Over-Temperature Condition Indicates an engine overheat condition was detected by the cylinder head temperature (CHT) sensor. This condition will cause the boost from the supercharger to be bypassed to avoid potential engine damage. Engine cooling system concerns. Low engine coolant level. Base engine concerns. Monitor CHT PID for overheat condition. Typical CHT temperature should be close to cooling system thermostat opening specification.
P0230
Error Description
Fuel Pump Primary Circuit Malfunction NOTE: For natural gas applications, the following description applies to the fuel shutoff valve (FSV) circuit. The PCM monitors the fuel pump (FP) circuit output from the PCM. The test fails if: With the FP output commanded ON (grounded), excessive current draw is detected on the FP circuit; or with the FP output commanded OFF, voltage is not detected on the FP circuit (the PCM expects to detect VPWR voltage coming through the fuel pump relay coil to the FP circuit). Open or shorted fuel pump (FP) circuit Open VPWR circuit to fuel pump relay Damaged fuel pump relay Damaged PCM When the FPF PID reads YES, a fault is currently present. An open circuit or short to ground can only be detected with the fuel pump commanded OFF. A short to power can only be detected with the fuel pump commanded ON. During KOEO and KOER self-test, the fuel pump output command will be cycled ON and OFF.
P0231
Error Description
Fuel Pump Secondary Circuit Low NOTE: For natural gas applications, the following description applies to the fuel shutoff valve monitor (FSVM) and the fuel shutoff valve power (FSV PWR) circuits. The PCM monitors the fuel pump monitor (FPM) circuit. The test fails if the PCM commands the fuel pump ON and B+ voltage is not detected on the FPM circuit. Open B+ circuit to the fuel pump relay Open FP PWR circuit between the fuel pump relay and its connection to the FPM circuit Damaged fuel pump relay Damaged PCM (engine will start) For 4.6L Mustang, open FP PWR circuit from low speed fuel pump relay, through resistor to FPM splice (engine will start) For 5.4L SC Lightning, damaged IFS switch, IFS switch relay, or concern with related circuits. During KOEO self-test, the PCM will command the fuel pump ON so this test can be performed.
P0232
Error Description
Fuel Pump Secondary Circuit High NOTE: For natural gas applications, the following description applies to the fuel shutoff valve monitor (FSVM) and the fuel shutoff valve power (FSV PWR) circuits. The PCM monitors the fuel pump monitor (FPM) circuit. This test fails when the PCM detects voltage on the FPM circuit while the fuel pump is commanded OFF. The FPM circuit is wired to a pull-up voltage inside the PCM. The FPM circuit will go high if, with the key ON and the fuel pump commanded OFF, the FPM/FP PWR circuit loses its path to ground through the fuel pump. The FPM circuit will also go high if the FPM/FP PWR circuit is shorted to power. Inertia fuel shutoff (IFS) switch not reset or electrically open Open circuit between the fuel pump and the FPM connection to the FP PWR circuit Poor fuel pump ground Fuel pump electrically open Fuel pump secondary circuits short to power Fuel pump relay contacts always closed Open FPM circuit between PCM and connection to FP PWR circuit Damaged low speed fuel pump relay or concern with related circuits (if equipped). Damaged PCM Continuous memory P0232 can be set if the IFS switch was tripped, then reset, or if the fuel pump circuit is activated when the PCM expected the circuit to be off (i.e. fuel system test or prime procedure).
P0234
Error Description
Supercharger Overboost Condition The PCM disables (bypasses) the supercharger boost and sets a diagnostic trouble code (DTC) to keep from damaging the powertrain (engine or transmission) during potential harmful operating conditions. Brake torque (brake on and throttle at wide open) Transmission oil temperature (TOT) exceeds calibrated threshold Engine over temperature Ignition misfire exceeds calibrated threshold Knock sensor (KS) failure or knock detected Low speed fuel pump relay not switching Check for other diagnostic trouble codes accompanying the P0234 or check appropriate and available PIDs related to above possible causes.
P0243
Error Description
Supercharger (Boost) Bypass Solenoid Circuit Malfunction The PCM monitors the supercharger (boost) bypass (SCB) solenoid circuit for an electrical failure. The test fails when the signal moves outside the minimum or maximum allowable calibrated parameters for a specified SCB solenoid duty cycle (100% or 0%) by PCM command. VPWR circuit open to SCB solenoid SCB solenoid circuit shorted to PWR GND or CHASSIS GND Damaged SCB solenoid SCB solenoid circuit open SCB solenoid circuit shorted to VPWR Damaged PCM Disconnect SCB solenoid. Connect test lamp to SCB solenoid harness connector. Cycle SCB driver in PCM by Output Test Mode. Test lamp cycle on and off - SCB solenoid is suspect. Test lamp always on - SCB signal short in harness or PCM. Test always off - SCB signal or VPWR open in harness or PCM.
P0298
Error Description
Engine Oil Over Temperature Condition Indicates the Engine Oil Temperature Protection strategy in the PCM has been activated. This will temporarily prohibit high engine speed operation by disabling injectors, therefore reducing the risk of engine damage from high engine oil temperature. Note: On engines which are equipped with an oil temperature sensor, the PCM reads oil temperature to determine if it is excessive. When an oil temperature sensor is not present, the PCM uses an oil algorithm to infer actual temperature. Engine shutdown strategy function is the same on vehicles with and without oil temperature sensors. Very high engine rpm for extended period of time. Over-heating condition. Malfunction EOT sensor or circuit (vehicles w/EOT sensor). Base engine concerns. Engine operating in high rpm range, due to improper gear selection. May cause Lack/Loss of Power or Surge customer concern.
P0300
Error Description
Random Misfire The random misfire DTC indicates multiple cylinders are misfiring or the PCM cannot identify which cylinder is misfiring. Camshaft position sensor (CMP) Low fuel: less than 1/8 tank Stuck open EGR valve Blocked EGR passages One or more EGR passages may be blocked or partially blocked. If this is the case the Misfire Detection Monitor will indicate the EGR port to check for possible blockage.
==P0301== through P0310
Error Description
Misfire Detection Monitor The misfire detection monitor is designed to monitor engine misfire and identify the specific cylinder in which the misfire has occurred. Misfire is defined as lack of combustion in a cylinder due to absence of spark, poor fuel metering, poor compression, or any other cause. Ignition system Fuel injectors Running out of fuel EVAP canister purge valve Fuel pressure Evaporative emission system Base engine The MIL will blink once per second when a misfire is detected severe enough to cause catalyst damage. If the MIL is on steady state, due to a misfire, this will indicate the threshold for emissions was exceeded and cause the vehicle to fail an inspection and maintenance tailpipe test.
P0320
Error Description
Ignition Engine Speed Input Circuit Malfunction The ignition engine speed sensor input signal to PCM is continuously monitored. The test fails when the signal indicates that two successive erratic profile ignition pickup (PIP) pulses have occurred. Loose wires/connectors. Arcing secondary ignition components (coil, wires and plugs) On board transmitter (2-way radio) The DTC indicates that two successive erratic PIP pulses occurred.
P0325
Error Description
Knock Sensor 1 Circuit Malfunction (Bank 1) See DTC P0326
P0326
Error Description
Knock Sensor 1 Circuit Range/ Performance (Bank 1) The knock sensor detects vibrations upon increase and decrease in engine rpm. The knock sensor generates a voltage based on this vibration. Should this voltage go outside a calibrated level a DTC will set. Knock sensor circuit short to GND Knock sensor circuit short to PWR Knock sensor circuit open Damaged knock sensor Damaged PCM A knock sensor voltage greater than 0.5V with the key ON and engine OFF indicates a hard fault.
P0330
Error Description
Knock Sensor 2 Circuit Malfunction (Bank 2) See DTC P0331
P0331
Error Description
Knock Sensor 2 Circuit Range/performance (Bank 2) The knock sensor detects vibration upon increase and decrease in engine rpm. The knock sensor generates a voltage based on this vibration. Should this voltage go outside a calibrated level a DTC will set. Knock sensor circuit short to GND Knock sensor circuit short to PWR Damaged knock sensor Damaged PCM Knock sensor circuit open A knock sensor voltage greater than 0.5V with the key ON and engine OFF indicates a hard fault.
P0340
Error Description
Camshaft Position (CMP) Sensor Circuit Malfunction The test fails when the PCM can no longer detect the signal from the CMP sensor. CMP circuit open CMP circuit short to GND CMP circuit short to PWR SIG RTN open (VR sensor) CMP GND open (Hall effect sensor) CMP misinstalled (Hall effect sensor) Damaged CMP sensor shielding Damaged CMP sensor Damaged PCM Harness routing, harness alterations, improper shielding, or electrical interference from other improperly functioning systems may have intermittent impact on the CMP signal.
P0350
Error Description
Ignition Coil (Undetermined) Primary/ Secondary Circuit Malfunction Each ignition primary circuit is continuously monitored. The test fails when the PCM does not receive a valid IDM pulse signal from the ignition module (integrated in PCM). Open or short in Ignition START/RUN circuit Open coil driver circuit Coil driver circuit shorted to ground Damaged coil Damaged PCM Coil driver circuit shorted to VPWR
==P0351== Through P0360
Error Description
Ignition Coil A through J Primary/ Secondary Circuit Malfunction Each ignition primary circuit is continuously monitored. The test fails when the PCM does not receive a valid IDM pulse signal from the ignition module (integrated in PCM). Open or short in Ignition START/RUN circuit Open coil driver circuit in harness Coil driver circuit shorted to ground Damaged coil Damaged PCM Coil driver circuit shorted to PWR
P0400
Error Description
EGR Flow Failure (outside the minimum or maximum limits) The EEGR system is monitored once per drive cycle during steady state conditions above 48 mph . The test will fail when a malfunction is detected by PCM calculations indicating the EGR flow is less or greater than expected. EEGR valve stuck open or closed Connector to EEGR not seated EEGR motor windings shorted or open circuited No power to EEGR Harness open or shorted to power or ground Vacuum signal to MAP restricted or leaking MAF sensor signal erroneous Damaged PCM Carbon build up in EEGR valve seat area One or more sensor not responding or out of range All of the following sensors input data to the PCM for proper operation of the EEGR system: ECT, CPS, IAT, MAF, TP, MAP. Any DTC relating to these sensors must be resolved prior to addressing P0400 code.
P0401
Error Description
EGR Flow Insufficient Detected The EGR system is monitored during steady state driving conditions while the EGR is commanded on. The test fails when the signal from the DPF EGR sensor indicates that EGR flow is less than the desired minimum. Vacuum supply EGR valve stuck closed EGR valve leaks vacuum EGR flow path restricted EGRVR circuit shorted to PWR VREF open to D.P.F. EGR sensor D.P.F. EGR sensor downstream hose off or plugged EGRVR circuit open to PCM VPWR open to EGRVR solenoid D.P.F. EGR sensor hoses both off D.P.F. EGR sensor hoses reversed Damaged EGR orifice tube Damaged EGRVR solenoid Damaged PCM Perform KOER self-test and look for DTC P1408 as an indication of a hard fault. If P1408 is not present, look for contamination, restrictions, leaks, and intermittents.
P0402
Error Description
EGR Flow Excessive Detected The EGR system is monitored for undesired EGR flow during idle. The EGR monitor looks at the DPF EGR signal at idle and compares it to the stored signal measured during key ON and engine OFF. The test fails when the signal at idle is greater than at key ON engine OFF by a calibrated amount. EGR valve stuck open Plugged EGR vacuum regulator solenoid vent Plugged EGR tube Slow responding D.P.F. EGR sensor Damaged DPF EGR sensor Improper vacuum hose connection Plugged vacuum hoses EGRVR circuit shorted to ground Damaged EGR vacuum regulator solenoid Damaged PCM A DPFEGR PID reading that is greater at idle than during key ON and engine OFF by 0.5 volt or a rough engine idle, may indicate a hard fault.
P0403
Error Description
EEGR Electric Motor Windings Or Circuits To The PCM Shorted Or Open The EEGR system is continously monitored to check the 4 EEGR motor coils, circuits, and the PCM for opens, shorts to power and ground. If a malfunction is detected the EEGR system will be disabled and additional monitoring will be suspended for the remainder of the drive until the next drive cycle. EEGR motor windings open Connector to EEGR not seated Open circuit in harness from PCM to EEGR Open circuit in PCM Short circuit in EEGR motor Short circuit in harness from PCM to EEGR Short circuit in PCM If an intermittent condition is suspected the most effective methoid of wiring fault isolation is to use the wiggle test methoid while measuring for shorts and open circuits.
P0411
Error Description
Secondary Air Injection (AIR) system upstream flow See DTC P1411
P0412
Error Description
Secondary Air Injection System (AIR) circuit malfunction The PCM attempts to control when air is injected in the exhaust. The DTC indicates a Secondary Air injection system AIR circuit fault. AIR circuit open AIR bypass solenoid fault Damaged PCM AIR circuit short to power Solid state relay fault Damaged AIR pump The AIR circuit is normally held high through the AIR bypass solenoid and SSR when the output driver is off. Therefore, a low AIR circuit indicates a driver is always on and a high circuit indicates an open in the PCM.
P0420
Error Description
Catalyst System Efficiency Below Threshold (Bank 1) Indicates Bank 1 catalyst system efficiency is below the acceptable threshold Use of leaded fuel Damaged HO2S Malfunctioning ECT High fuel pressure Damaged exhaust manifold Damaged catalytic converter Oil contamination Cylinder misfiring Downstream HO2S wires improperly connected Damaged exhaust system pipe Damaged muffler/tailpipe assembly Retarded spark timing Compare HO2S upstream and downstream switch rate and amplitude. Under normal closed loop fuel conditions, high efficiency catalysts have oxygen storage which makes the switching frequency of the downstream HO2S very slow and reduces the amplitude of those switches as compared to the upstream HO2S. As catalyst efficiency deteriorates, its ability to store oxygen declines and the downstream HO2S signal begins to switch more rapidly with increase amplitude, approaching the switching rate and amplitude of the upstream HO2S. Once beyond an acceptable limit the DTC is set.
P0430
Error Description
Catalyst System Efficiency Below Threshold (Bank 2) Indicates Bank 2 catalyst system efficiency is below the acceptable threshold. Use of leaded fuel Damaged HO2S Malfunctioning ECT High fuel pressure Damaged exhaust manifold Damaged catalytic converter Oil contamination Cylinder misfiring Downstream HO2S wires improperly connected Damaged exhaust system pipe Damaged muffler/tailpipe assembly Retarded spark timing Compare HO2S upstream and downstream switch rate and amplitude. Under normal closed loop fuel conditions, high efficiency catalysts have oxygen storage which makes the switching frequency of the downstream HO2S very slow and reduces the amplitude of those switches as compared to the upstream HO2S. As catalyst efficiency deteriorates, its ability to store oxygen declines and the downstream HO2S signal begins to switch more rapidly with increase amplitude, approaching the switching rate and amplitude of the upstream HO2S. Once beyond an acceptable limit the DTC is set.
P0442
Error Description
EVAP Control System Leak Detected (Small Leak) The PCM monitors the complete EVAP control system for presence of a small fuel vapor leak. The system failure occurs when a fuel vapor leak from an opening as small as 1.016 mm (0.04 inch) is detected by the EVAP running loss monitor test. After-market EVAP hardware (such as fuel filler cap) non-conforming to required specifications Small holes or cuts in fuel vapor hoses/tubes Canister vent solenoid stays partially open on closed command Damaged, cross-threaded or loosely installed fuel filler cap Loose fuel vapor hose/tube connections to EVAP system components EVAP system component seals leaking (EVAP canister purge valve, fuel tank pressure sensor, canister vent solenoid, fuel vapor control valve tube assembly or fuel vapor vent valve assembly)
P0443
Error Description
EVAP Control System Canister Purge Valve Circuit Malfunction The PCM monitors the EVAP canister purge valve circuit for an electrical failure. The test fails when the signal moves outside the minimum or maximum allowable calibrated parameters for a specified purge duty cycle by PCM command. VPWR circuit open EVAP canister purge valve circuit shorted to GND Damaged EVAP canister purge valve EVAP canister purge valve circuit open EVAP canister purge valve circuit shorted to VPWR Damaged PCM Monitor EVAPPDC PID and voltage between EVAP canister valve signal and PWR GND in output test mode with key ON engine OFF (or in key ON engine RUNNING mode). EVAPPDC PID at 0% and voltage less than 1.0 volts (or EVAPPDC PID at 100% and voltage less than 0.5 volts) indicates a hard fault.
P0451
Error Description
FTP Sensor Circuit Noisy The fuel tank pressure changes greater than 14 inches of H 2 0 in 0.10 seconds. Intermittent open or short in the FTP sensor or the FTP sensor signal. Monitor FTP PID and does it change from above 15 inches of H 2 0 to below a minus (-) 15 inches of H 2 0 often in 1.0 minute.
P0452
Error Description
FTP Sensor Circuit Low Voltage Detected The PCM monitors the EVAP control system FTP sensor input signal to the PCM. The test fails when the signal average drops below a minimum allowable calibrated parameter. Contamination internal to FTP sensor connector Damaged PCM FTP circuit shorted to GND or SIG RTN Damaged FTP sensor FTP V PID reading less than 0.22 volt with key ON and engine OFF or during any engine operating mode indicates a hard fault.
P0453
Error Description
FTP Sensor Circuit High Voltage Detected The PCM monitors the EVAP control system FTP sensor input signal to the PCM. The test fails when the signal average jumps above a minimum allowable calibrated parameter. FTP circuit open VREF shorted to VPWR Damaged PCM FTP circuit shorted to VREF or VPWR SIG RTN circuit open Damaged FTP sensor FTP V PID reading greater than 4.50 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault.
P0455
Error Description
EVAP Control System Leak Detected (No Purge Flow or Large Leak) The PCM monitors the complete EVAP control system for no purge flow, the presence of a large fuel vapor leak or multiple small fuel vapor leaks. The system failure occurs when no purge flow (attributed to fuel vapor blockages or restrictions), a large fuel vapor leak or multiple fuel vapor leaks are detected by the EVAP running loss monitor test with the engine running (but not at idle). After-market EVAP hardware (such as fuel filler cap) non-conforming to required specifications Disconnected or cracked fuel EVAP canister tube, EVAP canister purge outlet tube or EVAP return tube EVAP canister purge valve stuck closed Damaged EVAP canister Damaged or missing fuel filler cap Insufficient fuel filler cap installation Loose fuel vapor hose/tube connections to EVAP system components Blockages or restrictions in fuel vapor hoses/tubes (items also listed under disconnections or cracks) Fuel vapor control valve tube assembly or fuel vapor vent valve assembly blocked Canister vent (CV) solenoid stuck open Mechanically inoperative fuel tank pressure (FTP) sensor Check for audible vacuum noise or significant fuel odor in the engine compartment or near the EVAP canister and fuel tank.
P0456
Error Description
EVAP Control System Leak Detected (Very Small Leak) The PCM monitors the complete EVAP control system for the presence of a very small fuel vapor leak. The system failure occurs when a fuel vapor leak from an opening as small as 0.508 mm (0.020 inch) is detected by the EVAP running loss monitor test. Very small holes or cuts in fuel vapor hoses/tubes. Loose fuel vapor hose/tube connections to EVAP system components. EVAP system component seals leaking (refer to Possible Causes under DTC P0442).
P0457
Error Description
EVAP Control System Leak Detected (Fuel Filler Cap Loose/Off) A fuel tank pressure change greater than a minus (-) 7 inches of H 2 0 in 30 seconds has occurred after refueling; or there is excessive purge (fuel vapor) flow greater than 0.06 pounds per minute. Fuel filler cap not installed on refueling (storing continuous memory DTC) and "check Fuel Cap" light may also be illuminated. Fuel filler cap missing, loose or cross-threaded. Check for missing fuel filler cap or integrity of the cap. If OK, clear continuous memory DTCs and re-initiate EVAP Emission Running Loss Monitor Drive Cycle.
P0460
Error Description
Fuel Level Sensor Circuit Malfunction The PCM monitors the fuel level input (FLI) circuit for electrical failure. The test fails when the signal moves outside the minimum or maximum allowable calibrated parameters for a specified fuel fill percentage in the fuel tank. Empty fuel tank Fuel pump (FP) module stuck open Incorrectly installed fuel gauge Damaged instrument cluster CASE GND circuit open FLI shorted to VPWR Damaged PCM Overfilled fuel tank Fuel pump (FP) module stuck closed Damaged fuel gauge FLI circuit open FLI circuit shorted to CASE GND or PWR GND CSE GND shorted to VPWR Monitor FLI PID and FLI V PID in key ON engine RUNNING. FLI PID at 25% fill (with non matching fuel gauge) and FLI V PID less than 0.90 volts [for FLI PID at 75% fill (with non matching fuel gauge) and FLI V PID greater than 2.45 volts] indicates a hard fault.
P0500
Error Description
Vehicle Speed Sensor (VSS) Malfunction Indicates the powertrain control module (PCM) detected an error in the vehicle speed information. Vehicle speed data is received from either the vehicle speed sensor (VSS), transfer case speed sensor (TCSS), anti-lock brake system (ABS) control module, generic electronic module (GEM), or central timer module (CTM). If the engine rpm is above the torque converter stall speed (automatic transmission) and engine load is high, it can be inferred that the vehicle must be moving. If there is insufficient vehicle speed data input, a malfunction is indicated and a DTC is set. On most vehicle applications the malfunction indicator lamp (MIL) will be triggered when this DTC is set. Open in VSS+/VSS- harness circuit. Open in TCSS signal or TCSS signal return harness circuit. Short to GND in VSS harness circuit. Short to GND in TCSS harness circuit. Short to PWR in VSS harness circuit. Short to PWR in TCSS harness circuit. Open or short in the vehicle speed circuit(s) (VSC) between the PCM and appropriate control module. Damaged VSS or TCSS. Damaged wheel speed sensors. Damaged wheel speed sensor harness circuits. Damage in module(s) connected to VSC/VSS circuit. Damage drive mechanism for VSS or TCSS. Monitor VSS PID while driving vehicle. This DTC is set when the PCM detects a sudden loss of vehicle speed signal over a period of time. If vehicle speed data is lost, check the source of where the vehicle speed input originates from: VSS, TCSS, ABS, GEM or CTM. Note: On some MSOF applications, VSS and TCSS PID can be monitor. However if no TCSS PID is available and VSS PID is zero, TCSS circuitry frequency must be checked for loss of sensor signal. If another vehicle electronic module has generated the P0500 and the vehicle does not receive its vehicle speed input from one of the above mention sources (VSS, TCSS, ABS, GEM or CTM). Check the PCM for Output Shaft Speed Sensor (OSS) DTCs. On OSS applications the PCM uses the OSS to calculated the vehicle speed. If no OSS DTCs are found check for correct PCM configuration. Check PCM configuration for correct tire size and axle ratio.
P0501
Error Description
Vehicle Speed Sensor (VSS) Range/ Performance Indicates the powertrain control module (PCM) detected an error in the vehicle speed information. This DTC is set the same way as P0500, however the malfunction indicator lamp (MIL) is not triggered. Refer to possible causes for P0500. Refer to diagnostic aids for P0500.
P0503
Error Description
Vehicle Speed Sensor (VSS) Intermittent Indicates poor or noisy VSS performance. Vehicle speed data is received from either the vehicle speed sensor (VSS), transfer case speed sensor (TCSS), anti-lock brake system (ABS) control module, generic electronic module (GEM), or central timer module (CTM). Noisy VSS/TCSS input signal from Radio Frequency Interference/ Electro-Magnetic Interference (RFI/EMI) external sources such as ignition components or charging circuit. Damaged VSS or driven gears. Damaged TCSS. Damaged wiring harness or connectors. Malfunction in module(s) or circuit connected to VSS/TCSS circuit. After market add-on. Monitor VSS PID while driving vehicle, check for intermittent vehicle speed indication. Verify ignition and charging system are functioning correctly.
P0505
Error Description
Idle Air Control System Malfunction The PCM attempts to control engine speed during KOER self-test. The test fails when the desired rpm could not be reached or controlled during the self-test. IAC circuit open VPWR to IAC solenoid open IAC circuit shorted to PWR Air inlet is plugged Damaged IAC valve Damaged PCM The IAC solenoid resistance is from 6 to 13 ohms.
P0552
Error Description
Power Steering Pressure (PSP) Sensor Circuit Malfunction The PSP sensor input signal to the PCM is continuously monitored.The test fails when the signal is open or shorted to ground. PSP sensor damaged SIG RTN circuit open or shorted VREF circuit open or shorted PSP sensor signal circuit open or shorted Damaged PCM The DTC indicates the PSP sensor circuit is open or shorted to ground.
P0553
Error Description
Power Steering Pressure (PSP) Sensor Circuit Malfunction The PSP sensor input signal to PCM is continuously monitored. The test fails when the signal is shorted to power. PSP sensor damaged SIG RTN circuit shorted to power VREF circuit shorted to power PSP sensor signal circuit shorted to power Damaged PCM The code indicates the PSP sensor circuit is shorted to power.
P0602
Error Description
Control Module Programming Error This Diagnostic Trouble Code (DTC) indicates programming error within Vehicle ID block (VID). VID data corrupted by the scan tool during VID reprogramming Using the scan tool, reprogram the VID block. If PCM does not allow reprogramming of the VID block, reflashing PCM will be required.
P0603
Error Description
Powertrain Control Module KAM Test Error Indicates the PCM has experienced an internal memory fault. However there are external items that can cause this DTC. Reprogramming Battery terminal corrosion KAPWR to PCM interrupt/open Loose battery connection Damaged PCM If KAPWR is interrupted to the PCM because of a battery or PCM disconnect, DTC can be generated on the first power-up.
P0605
Error Description
PCM read only memory (ROM) error Indicates the PCM ROM has been corupted. An attempt was made to change the calibration. Module programming error. Damaged PCM Reprogram or update calibration. Reprogram VID block (use as built data). Check for other DTC's or drive symptoms for further action.
P0703
Error Description
Brake Switch Circuit Input Malfunction Indicates PCM did not receive a brake pedal position (BPP) input. Open or short in BPP circuit Open or short in stoplamp circuits Damaged PCM Malfunction in module(s) connected to BPP circuit. (Rear Electronic Module [REM] Windstar and LS6/LS8 or Lighting Control Module (LCM) Continental and Town Car. Damaged brake switch Misadjusted brake switch Check for proper function of stoplamps. Follow correct Self-Test procedures, refer to Section 2 of Quick Test.
P0704
Error Description
Clutch Pedal Position Switch Malfunction When the clutch pedal is depressed the voltage goes to low. If the PCM does not see this change from high to low the DTC is set. CPP circuit short to PWR Damaged CPP switch CPP circuit open in the SIGRTN Damaged PCM When depressing the CPP switch the voltage should cycle from 5.0V down.
P0720
Error Description
Insufficient input from Output Shaft Speed sensor The output shaft speed sensor inputs a signal to the PCM, based on the speed of the output shaft of the transmission. The PCM compares this signal with the signal of the VSS or TCSS and determines correct tire size and axle gear ratio. OSS sensor circuit short to GND OSS sensor circuit short to PWR OSS sensor circuit open Damaged OSS sensor Damaged PCM Verify sensor signal output varies with vehicle speed.
P0721
Error Description
Noise interference on Output Shaft Speed sensor signal The output shaft speed sensor signal is very sensitive to noise. This noise distorts the input to the PCM. Wiring misrouted After market add-on Wiring damaged Wiring insulation wear Check routing of harness. Check wiring and connector for damage.
P0722
Error Description
No signal from Output Shaft Speed sensor The output shaft speed sensor failed to provide a signal to the PCM upon initial movement of vehicle. Damaged OSS connector Damaged OSS sensor, or not installed properly Harness intermittently shorted or open
P0723
Error Description
Output Shaft Speed sensor circuit intermittent failure The output shaft speed sensor signal to the PCM is irregular or interrupted. Harness connector not properly seated Harness intermittently shorted, or open Harness connector damaged OSS sensor damaged, or not installed properly Verify harness and connector integrity Verify OSS sensor proper installation
P0812
Error Description
Reverse Switch (RS) input circuit malfunction The DTC indicates that the voltage is high when it should be low. Transmission shift not indicating neutral while in KOEO Self-Test RS circuit short to PWR Damaged reverse switch RS circuit open or short to SIGRTN Damaged PCM Check RS PID while exercising shift lever in and out of reverse.
P1000
Error Description
Monitor Testing Not Complete The on board diagnostic II (OBD II) monitors are performed during the OBD II Drive Cycle. The DTC will be stored in continuous memory if any of the OBD II monitors do not complete. Vehicle is new from the factory Battery or PCM had recently been disconnected An OBD II monitor failure had occurred before completion of an OBD II drive cycle PCM DTCs have recently been cleared with a scan tool PTO circuit is shorted to VPWR or B+ or PTO is on during testing The DTC does not need to be cleared from the PCM except to pass an inspection/maintenance test.
P1001
Error Description
KOER Not Able To Complete, KOER Aborted This Non-MIL (Malfunction Indicator Lamp) code will be set when Key On Engine Running (KOER) Self-Test does not complete in the time intended. Incorrect Self-Test Procedure. Unexpected response from Self-Test monitors. rpm out of specification. Rerun Self-Test following QT1 in Section 3 , Symptom Charts, STEP 1: PCM Quick Test.
P1100
Error Description
Mass Air Flow (MAF) Sensor Intermittent The MAF sensor circuit is monitored by the PCM for sudden voltage (or air flow) input change through the comprehensive component monitor (CCM). If during the last 40 warm-up cycles in key ON engine running the PCM detects a voltage (or air flow) change beyond the minimum or maximum calibrated limit, a continuous memory diagnostic trouble code (DTC) is stored. Poor continuity through the MAF sensor connectors Poor continuity through the MAF sensor harness Intermittent open or short inside the MAF sensor. While accessing the MAF V PID on the scan tool, lightly tap on the MAF sensor or wiggle the MAF sensor connector and harness. If the MAF V PID suddenly changes below 0.23 volt or above 4.60 volts, an intermittent fault is indicated.
P1101
Error Description
Mass Air Flow (MAF) Sensor Out of Self-Test Range The MAF sensor circuit is monitored by the PCM for an out of range air flow (or voltage) input. If during key ON engine OFF the air flow voltage signal is greater than 0.27 volts the test fails. Likewise, if during key ON engine running, an air flow voltage signal is not within 0.46 volt to 2.44 volts, the test fails. For voltage to air flow gm/sec conversion, GO to Pinpoint Test DC and refer to Voltage To Mass Air Flow Conversion Table. Low battery charge MAF sensor partially connected MAF sensor contamination PWR GND open to MAF sensor MAF RTN circuit open to PCM Damaged MAF sensor Damaged PCM A MAF V PID reading greater than 0.27 volts (KOEO) or a MAF V PID reading outside the 0.46 volt to 2.44 volts range (KOER) indicates a hard fault.
P1112
Error Description
Intake Air Temperature (IAT) Sensor Intermittent Indicates IAT sensor signal was intermittent during the comprehensive component monitor. Damaged harness Damaged sensor Damaged harness connector Damaged PCM Monitor IAT on scan tool, look for sudden changes in reading when harness is wiggled or sensor is tapped.
P1114
Error Description
Intake Air Temperature 2 Circuit Low Input Indicates the sensor signal is less than Self-Test minimum. The IAT2 sensor minimum is 0.2 volts. Grounded circuit in harness Improper harness connection Damaged sensor Damaged PCM Monitor IAT2 PID. Typical IAT2 temperature should be greater than IAT1. Refer to Section 6 : Reference Values for ranges.
P1115
Error Description
Intake Air Temperature 2 Circuit High Input Indicates the sensor signal is greater than Self-Test maximum. The IAT2 sensor maximum is 4.6 volts. Open circuit in harness Sensor signal short to power Improper harness connection Damaged sensor Damaged PCM Monitor IAT2 PID. Typical IAT2 temperature should be greater than IAT1. Refer to Section 6 : Reference Values for ranges.
P1116
Error Description
Engine Coolant Temperature (ECT) Sensor Out of Self-Test Range Indicates the ECT sensor is out of Self-Test range. Correct range is 0.3 to 3.7 volts. Overheating condition Malfunctioning thermostat Damaged ECT sensor Low engine coolant Damaged harness connector Damaged PCM Engine coolant temperature must be greater than 10°C (50°F) to pass the KOEO Self-Test and greater than 82°C (180°F) to pass the KOER Self-Test.
P1117
Error Description
Engine Coolant Temperature (ECT) Sensor Intermittent Indicates ECT circuit became intermittently open or shorted while engine was running. Damaged harness Damaged sensor Damaged PCM Damaged harness connector Low engine coolant Monitor ECT on scan tool, look for sudden changes in reading when harness is wiggled or sensor is tapped.
P1120
Error Description
Throttle Position (TP) Sensor Out of Range Low (RATCH too Low) The TP sensor circuit is monitored by the PCM for a low TP rotation angle (or voltage) input below the closed throttle position through the comprehensive component monitor (CCM). If during key ON engine OFF or key ON engine running the TP rotation angle (or voltage) remains within the calibrated self-test range but falls between 3.42 and 9.85% (0.17 and 0.49 volt), the test fails. TP circuit with frayed wires Corrosion on TP circuit connectors VREF open to TP sensor VREF short to SIG RTN TP sensor loose pins A TP PID (TP V PID) between 3.42 and 9.85% (0.17 and 0.49 volt) in key ON engine OFF, continuous memory or key ON engine running indicates a hard fault.
P1121
Error Description
Throttle Position (TP) Sensor Inconsistent with MAF Sensor The PCM monitors a vehicle operation rationality check by comparing sensed throttle position to mass air flow readings. If during key ON engine running self-test the comparison of the TP sensor and MAF sensor readings are not consistent with calibrated load values, the test fails and a diagnostic trouble code is stored in continuous memory. Air leak between MAF sensor and throttle body TP sensor not seated properly Damaged TP sensor Damaged MAF sensor Drive vehicle and exercise throttle and TP sensor in all gears. A TP PID (TP V PID) less than 4.82 % (0.24 volt) with a LOAD PID greater than 55% or a TP V PID greater than 49.05% (2.44 volts) with a LOAD PID less than 30% indicates a hard fault.
P1124
Error Description
Throttle Position (TP) Sensor Out of Self-Test Range The TP sensor circuit is monitored by the PCM for an out of range TP rotation angle (or voltage) input. If during key ON engine OFF or key ON engine running the TP rotation angle (or voltage) reading is less than 13.27% (0.66 volt) or greater than 23.52% (1.17 volts), the test fails. Binding or bent throttle linkage TP sensor not seated properly Throttle plate below closed throttle position Throttle plate/screw misadjusted Damaged TP sensor Damaged PCM A TP PID (TP V PID) reading not between 13.27 and 23.52% (0.66 and 1.17 volts) in key ON engine OFF or key ON engine running indicates a hard fault.
P1125
Error Description
Throttle Position (TP) Sensor Intermittent The TP sensor circuit is monitored by the PCM for sudden TP rotation angle (or voltage) input change through the comprehensive component monitor (CCM). If during the last 80 warm-up cycles in key ON engine running the PCM detects a TP rotation angle (or voltage) changes beyond the minimum or maximum calibrated limit, a continuous diagnostic trouble code (DTC) is stored. Poor continuity through the TP sensor connectors Poor continuity through the TP harness Intermittent open or short inside the TP sensor While accessing the TP V PID on the scan tool, lightly tap on the TP sensor or wiggle the TP sensor connector and harness. If the TP V PID suddenly changes below 0.49 volt or above 4.65 volts, an intermittent fault is indicated.
P1127
Error Description
Exhaust Not Warm Enough, Downstream Sensor Not Tested The HEGO monitor uses an exhaust temperature model to determine when the HO2S heaters are cycled ON. The test fails when the inferred exhaust temperature is below a minimum calibrated value. Engine not operating long enough prior to performing KOER self-test. Exhaust system too cool. Monitor HO2S Heater PIDs to determine their ON/OFF state. DTC P1127 will be present if the exhaust is not hot.
P1128
Error Description
Upstream Oxygen Sensors Swapped from Bank to Bank (HO2S-11-21) The HEGO monitor checks and determines if the HO2S signal response for a fuel shift corresponds to the correct engine bank. The test fails when a response from the HO2S(s) being tested is not indicated. Crossed HO2S harness connectors (upstream). Crossed HO2S wiring at the harness connectors (upstream). Crossed HO2S wiring at the 104-pin harness connectors (upstream).
P1129
Error Description
Downstream Oxygen Sensors Swapped from Bank to Bank (HO2S-12-22) The HEGO monitor checks and determines if the HO2S signal response for a fuel shift corresponds to the correct engine bank. The test fails when a response from the HO2S(s) being tested is not indicated. Crossed HO2S harness connectors (downstream). Crossed HO2S wiring at the harness connectors (downstream). Crossed HO2S wiring at the 104-pin harness connectors (downstream).
P1130
Error Description
Lack of HO2S-11 Switch, Fuel Trim at Limit The HEGO Sensor is monitored for switching. The test fails when the HO2S fails to switch due to circuit or fuel at or exceeding a calibrated limit. Electrical: Short to VPWR in harness or HO2S Water in harness connector Open/Shorted HO2S circuit Corrosion or poor mating terminals and wiring Damaged HO2S Damaged PCM Fuel System: Excessive fuel pressure Leaking/contaminated fuel injectors Leaking fuel pressure regulator Low fuel pressure or running out of fuel Vapor recovery system Induction System: Air leaks after the MAF Vacuum Leaks PCV system Improperly seated engine oil dipstick EGR System: Leaking gasket Stuck EGR valve Leaking diaphragm or EVR Base Engine: Oil overfill Cam timing Cylinder compression Exhaust leaks before or near the HO2S(s) A fuel control HO2S PID switching across 0.45 volt from 0.2 to 0.9 volt indicates a normal switching HO2S.
P1131
Error Description
Lack of HO2S-11 Switch, Sensor Indicates Lean A HEGO sensor indicating lean at the end of a test is trying to correct for an over-rich condition. The test fails when the fuel control system no longer detects switching for a calibrated amount of time. See Possible Causes for DTC P1130
P1132
Error Description
Lack of HO2S-11 Switch, Sensor Indicates Rich A HEGO sensor indicating rich at the end of a test is trying to correct for an over-lean condition. The test fails when the fuel control system no longer detects switching for a calibrated amount of time. See Possible Causes for DTC P1130
P1137
Error Description
Lack of HO2S-12 Switch, Sensor Indicates Lean The downstream HO2S sensors are forced rich and lean and monitored by the PCM. The test fails if the PCM does not detect the output of the HO2S in a calibrated amount of time. Pinched, shorted, and corroded wiring and pins Crossed sensor wires Exhaust leaks Contaminated or damaged sensor
P1138
Error Description
Lack of HO2S-12 Switch, Sensor Indicates Rich See DTC P1137
P1150
Error Description
Lack of HO2S-21 Switch, Fuel Trim at Limit See DTC P1130
P1151
Error Description
Lack of HO2S-21 Switch, Sensor Indicates Lean A HEGO sensor indicating lean at the end of a test is trying to correct for an over-rich condition. The test fails when fuel control system no longer detects switching for a calibrated amount of time. See Possible Causes for DTC P1130
P1152
Error Description
Lack of HO2S-21 Switch, Sensor Indicates Rich A HEGO sensor indicating rich at the end of a test is trying to correct for an over-lean condition. The test fails when the fuel control system no longer detects switching for a calibrated amount of time. See Possible Causes for DTC P1130
P1157
Error Description
Lack of HO2S-22 Switch, Sensor Indicates Lean See DTC P1137
P1158
Error Description
Lack of HO2S-22 Switch, Sensor Indicates Rich See DTC P1137
P1168
Error Description
Fuel Rail Pressure Sensor in Range But Low The comprehensive component monitor (CCM) monitors the FRP pressure for acceptable fuel pressure. The test fails when the fuel pressure falls below a calibrated value. Low fuel pressure Damaged FRP sensor Excessive resistance in circuit Low or no fuel A FRP PID value below 551 kpa (80 psi) indicates a failure Low or no fuel A FRP PID value greater than 896 kpa (130 psi) indicates a failure
P1169
Error Description
Fuel Rail Pressure (FRP) Sensor in Range But High The comprehensive component monitor (CCM) monitors the FRP pressure for acceptable fuel pressure. The test fails when the fuel pressure falls below or exceeds a minimum/maximum calibrated value for a calibrated period of time. High fuel pressure Low fuel pressure Damaged FRP sensor Excessive resistance in circuit
P1180
Error Description
Fuel Delivery System - Low The PCM receives fuel tank pressure (FTP) information from the natural gas module (NG), which uses the information to infer fuel rail pressure (FRP). The test fails when the inferred pressure is less than a minimum calibrated value. Restriction in the fuel line Plugged fuel filter
P1181
Error Description
Fuel Delivery System - High The PCM receives fuel tank pressure (FTP) information from the natural gas module (NG), which uses the information to infer fuel rail pressure (FRP). The test fails when the inferred pressure is higher than a maximum calibrated value. Fuel pressure regulator
P1183
Error Description
Engine Oil Temperature (EOT) Sensor Circuit Malfunction Indicates EOT circuit became intermittently open or shorted while engine was running. Damaged harness Damaged sensor Damaged harness connector Damaged PCM EOT V PID reading less than 0.2 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault short to ground. EOT V PID reading greater than 4.5 volts with key ON and engine OFF or during any engine operating mode indicates an open circuit hard fault.
P1184
Error Description
Engine Oil Temperature (EOT) Sensor Out of Self-Test Range Indicates EOT signal was out of Self-Test range. Correct range for KOER is 0.3-1.2 volts. Damaged harness Damaged sensor Damaged harness connector Damaged PCM Engine should be at operating temperature before running self-test.
P1229
Error Description
Supercharger Intercooler Pump (ICP) Pump Not Operating The ICP DTC will be set when the PCM is calling for the pump to be operating but no current is being detected. Pump motor open circuited Pump relay coil open Open circuit between relay and pump Damaged PCM Pump motor shorted Open circuit between PCM and relay Poor pump ground connection Check for voltage at relay, check fuse in power feed, check ground connection of pump motor, PID reading is on/off.
P1232
Error Description
Low Speed Fuel Pump Primary Circuit Malfunction The PCM monitors the low speed fuel pump (LFP) primary circuit output from the PCM. The test fails if: When the LFP circuit is commanded on (grounded), excessive current draw is detected on the LFP circuit; or when the LFP circuit is commanded off, voltage is not detected on the LFP circuit (the PCM expects to detect VPWR voltage coming through the low speed fuel pump relay coil to the LFP circuit). Open or shorted low fuel pump (LFP) circuit Open VPWR to low speed fuel pump relay Damaged low speed fuel pump relay Damaged PCM An open circuit or short to ground can only be detected with the low speed fuel pump. A short to power can only be detected with the low speed fuel pump commanded on. During KOEO and KOER Self-Test, the low speed fuel pump output command will be cycled on and off.
P1233
Error Description
Fuel System Disabled or Offline LS6/LS8: For LS6/LS8, P1233 indicates the PCM is not receiving the fuel level information on SCP from the rear electronics module (REM). Refer to the Workshop Manual Section 413-01 for diagnostics. All Others: The PCM monitors the fuel pump monitor (FPM) circuit from the fuel pump driver module (FPDM). With the key on, the FPDM continuously sends a duty cycle signal to the PCM through the FPM circuit. The test fails if the PCM stops receiving the duty cycle signal. Inertia fuel shutoff (IFS) switch needs to be reset Open FPDM ground circuit Open or shorted FPM circuit Damaged IFS switch Damaged FPDM Damaged PCM Also for Escort/Tracer and Mustang: Open FPDM PWR circuit Open B+ circuit to constant control relay module (CCRM) pin 11 Open ground to CCRM pin 18 (Mustang) Damaged CCRM Also for Continental: Open VPWR circuit to FPDM The PCM expects to see one of the following duty cycle signals from the FPDM on the FPM circuit: 1) 50% (500 msec on, 500 msec off), all OK. 2) 25% (250 msec on, 750 msec off), FPDM did not receive a fuel pump (FP) duty cycle command from the PCM, or the duty cycle that was received was invalid. 3) 75% (750 msec ON, 250 OFF), the FPDM has detected a fault in the circuits between the FPDM and the fuel pump.
P1234
Error Description
Fuel System Disabled or Offline See DTC P1233. P1234 is identical to P1233 except P1234 will not illuminate the MIL.
P1235
Error Description
Fuel Pump Control Out Of Range Note: For LS6/LS8, the FPDM functions are incorporated in the Rear Electronics Module (REM). Also, the REM does not use a FPM circuit. Diagnostic information will be sent through SCP. Indicates that the FPDM has detected an invalid or missing FP circuit signal from the PCM. The FPDM will send a message to the PCM through the FPM circuit, indicating that this failure has been detected. The PCM will set the DTC when the message is received. FP circuit open or shorted Damaged FPDM. Damaged PCM The FPDM sends a 25% duty cycle (250 msec ON, 750 msec OFF) through the FPM circuit to the PCM while the fault is being detected by the FPDM. If the fault is no longer detected, the PDM will return to sending an "all OK" (50% duty cycle) message to the PCM. The PCM will keep P1235 stored in Continuous Memory.
P1236
Error Description
Fuel Pump Control Out Of Range See DTC P1235. P1236 is identical to P1235 except P1236 will not illuminate the MIL.
P1237
Error Description
Fuel Pump Secondary Circuit Malfunction Note: For LS6/LS8, the FPDM functions are incorporated in the rear electronics module (REM). Also, the REM does not use a FPM circuit. Diagnostic information will be set through SCP. Indicates that the FPDM has detected a fuel pump secondary circuit fault. The FPDM will send a message to the PCM through the FPM circuit, indicating that this failure has been detected. The PCM will set the DTC when the message is received. Open or shorted FP PWR circuit Open FP RTN circuit to FPDM Open or shorted circuit in the fuel pump Locked fuel pump rotor Damaged FPDM For LS6/LS8, circuits associated with the Fuel Pump relay The FPDM sends a 75% duty cycle (750 msec ON, 250 msec OFF) through the FPM circuit to the PCM while the fault is being detected by the FPDM. If the fault is no longer detected, the PCM will return to sending an "all OK" (50% duty cycle) message to the PCM. The PCM will keep P1237 stored in Continuous Memory. The FPDM controls pump speed by supplying a "variable" ground on the RTN circuit.
P1238
Error Description
Fuel Pump Secondary Circuit Malfunction See DTC P1237. P1238 is identical to P1237 except P1238 will not illuminate the MIL.
P1244
Error Description
Generator Load Input Low The PCM monitors the GLI circuit, and will set the DTC when the input is below calibrated limit for a calibrated amount of time. GLI circuit open or short Damaged voltage regulator/generator Damaged PCM Verify operation of charging system.
P1245
Error Description
Generator Load Input High The PCM monitors the GLI circuit, and will set the DTC when the input is above a calibrated limit for a calibrated amount of time. GLI circuit open or short Damaged voltage regulator/generator Damaged PCM Verify operation of charging system.
P1246
Error Description
Generator Load Input (2.0L Cougar) The PCM monitors the GLI circuit, and will set the DTC when the input is not within a calibrated limit for a calibrated amount of time. GLI circuit concern. Damaged voltage regulator/generator Damaged PCM. Verify operation of charging system. Verify battery is at proper charge.
P1246
Error Description
Generator Load Input Failed (All Others) The PCM monitors generator load from the generator/regulator in the form of frequency. The frequency range is determined by the temperature of the voltage regulator where 97% represents full load, below 6% means no load. Generator circuit short to GND Generator circuit short to PWR Generator circuit open Generator drive mechanism Damaged generator/regulator assembly Damaged PCM Verify battery voltage is 14.5V. Verify generator/regulator has the correct part number.
P1260
Error Description
Theft Detected - Vehicle Immobilized Indicates that the passive anti-theft system (PATS) has determined a theft condition existed and the engine is disabled. This DTC is a good indicator to check the PATS for DTCs. Previous theft condition Anti-Theft System failure Theft indicator flashing rapidly or on solid when ignition switch is in the ON position. Check anti-theft system for DTCs. Typical vehicle symptoms are: Start/Stall or Crank/No Start. NOTE: No crank symptom only on vehicles equipped with PATS starter disable feature.
P1270
Error Description
Engine RPM/Vehicle Speed Limiter Indicates the vehicle has been operated in a manner which caused the engine or vehicle to exceed a calibration limit. The engine rpm and vehicle speed are continuously monitored by the PCM. The DTC is set when the rpm or speed fall out of calibrated range. For additional information on the engine rpm/vehicle speed limiter, refer to Section 1, Electronic Engine Control (EC) System , Powertrain Control Software. Wheel slippage (water, ice, mud and snow) Excessive engine rpm in Neutral Vehicle drive at a high rate of speed The DTC indicates the vehicle has been operated in a manner which caused the engine or vehicle speed to exceed a calibrated limit.
P1285
Error Description
Cylinder Head Over Temperature Sensed Indicates an engine overheat condition was sensed by the cylinder head temperature sensor. Low engine coolant level Base engine concerns Engine cooling system concerns CHT sensor concern On some applications when this fault occurs the Engine Temperature warning indicator will illuminate and/or force the temperature gauge to full H (Hot) zone by grounding the engine temperature warning circuit.
P1288
Error Description
Cylinder Head Temperature (CHT) Sensor Circuit Out of Self-Test Range Indicates the CHT sensor is out of Self-Test range. Engine not at operating temperature. Cold engine Engine overheating Damaged harness connector Damaged PCM Low engine coolant level Damaged CHT sensor Bring engine to operating temperature. If cold, re-run self-test. If engine over-heats check cooling system.
P1289
Error Description
Cylinder Head Temperature (CHT) Sensor Circuit High Input (PCM STRATEGIES UP TO AND INCLUDING 1998) Indicates a CHT sensor circuit malfunction (shorted). Grounded circuit in CHT harness Damaged CHT sensor Improper harness connection Damaged PCM CHT V PID reading less than 0.2 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. Note: DTC P0117 may also be reported when this DTC is set, either of these DTC's will activate the MIL light.
P1289
Error Description
Cylinder Head Temperature (CHT) Sensor Circuit High Input (PCM STRATEGIES 1999 AND BEYOND) Indicates a CHT sensor circuit malfunction (open). Open circuit in CHT harness Damaged CHT sensor Improper harness connection Damaged PCM CHT V PID reading greater than 4.6 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. Note: DTC P0118 may also be reported when this DTC is set, either of these DTC's will activate the MIL light.
P1290
Error Description
Cylinder Head Temperature (CHT) Sensor Circuit Low Input (PCM STRATEGIES UP TO AND INCLUDING 1998) Indicates a CHT sensor circuit malfunction (open). Open circuit in CHT harness Damaged CHT sensor Improper harness connection Damaged PCM CHT V PID reading greater than 4.6 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. Note: DTC P0118 may also be reported when this DTC is set, either of these DTC's will activate the MIL light.
P1290
Error Description
Cylinder Head Temperature (CHT) Sensor Circuit Low Input (PCM STRATEGIES 1999 AND BEYOND) Indicates a CHT sensor circuit malfunction (shorted). Grounded circuit in CHT harness Damaged CHT sensor Improper harness connection Damaged PCM CHT V PID reading greater than 4.6 volts with key ON and engine OFF or during any engine operating mode indicates a hard fault. Note: DTC P0118 may also be reported when this DTC is set, either of these DTC's will activate the MIL light.
P1299
Error Description
Cylinder Head Over Temperature Protection Active Indicates an engine overheat condition was detected by the cylinder head temperature (CHT) sensor. An FMEM Strategy called Fail-safe Cooling was activated to cool the engine. Engine cooling system concerns Low engine coolant level Base engine concerns Refer to Section 1, Powertrain Control Software , for more information on Fail-safe Cooling Strategy and cylinder head temperature sensor.
P1309
Error Description
Misfire Monitor Disabled When the misfire monitor is disabled, usually due to the input signal generated by the camshaft position (CMP) sensor, by sensing the passage of teeth from the CMP wheel. Camshaft position sensor Powertrain control module ECT, MAF, and CKP sensors Verify the CMP is installed correctly and not out of synchronization.
P1380
Error Description
Variable Cam Timing Solenoid A Circuit Malfunction The comprehensive component monitor(CCM) monitors the VCT circuit to the PCM for high and low voltage. If during testing voltage was to fall below a calibrated limit a calibrated amount of time the test will fail. Open or short VCT circuit Open VPWR circuit Damaged PCM Open or short VCT solenoid valve DTC P1380 is a VCT circuit check. Testing should include wires, solenoid coil and PCM.
P1381
Error Description
Variable Cam Timing Over-advanced (Bank 1) The comprehensive component monitor (CCM) monitors the VCT position for an over-advanced camshaft timing. The test fails when the camshaft timing exceeds a maximum calibrated value or remains in an advanced position. Cam timing improperly set No oil flow to the VCT piston chamber Low oil pressure VCT solenoid valve stuck closed Camshaft advance mechanism binding (VCT unit) ==P1381== DTC is a check of the VCT unit. Testing should not include electrical checks. Diagnostics and repair for the VCT unit are located in the Workshop Manual.
P1383
Error Description
Variable Cam Timing Over-retarded (Bank 1) The comprehensive component monitor (CCM) monitors the VCT position for over-retarded camshaft timing. The test fails when the camshaft timing exceeds a maximum calibrated value or remains in an retarded position. Cam timing improperly set Continuous oil flow to the VCT piston chamber VCT solenoid valve stuck open Camshaft advance mechanism binding (VCT unit) DTC P1383 is a check of the VCT unit. Testing should not include electrical checks. Engine will idle rough, hard starting and may stall. Diagnostics and repair for the VCT unit are located in the Workshop Manual.
P1400
Error Description
DPF EGR Sensor Circuit Low Voltage Detected The EGR monitor checks the DPF EGR sensor signal to the PCM for low voltage. The test fails when the average voltage to the PCM drops to a voltage less than the minimum calibrated value. DPFEGR circuit short to GND Damaged DPF EGR sensor VREF short to GND Damaged PCM A DPF EGR PID reading less than 0.2 volt with the key ON and engine OFF or running, indicates a hard fault.
P1401
Error Description
DPF EGR Sensor Circuit High Voltage Detected The EGR monitor checks the DPF EGR sensor signal to the PCM for high voltage. The test fails when the average voltage to the PCM goes to a voltage greater than the maximum calibrated value. DPF EGR circuit open VREF short to PWR Damaged DPF EGR sensor DPFEGR circuit short to PWR SIG RTN circuit open Damaged PCM A DPF EGR PID reading greater than 4.5 volts with the key ON and engine OFF or running, indicates a hard fault.
P1405
Error Description
DPF EGR Sensor Upstream Hose Off or Plugged While driving, the EGR monitor commands the EGR valve closed and checks the differential pressure across the EGR orifice. The test fails when the signal from the DPF EGR sensor indicates EGR flow is in the negative direction. Upstream hose is disconnected Upstream hose is plugged (ice) Plugged or damaged EGR tube Look for signs of water or icing in hose Verify hose connection and routing (no excessive dips) Verify DPF EGR sensor proper mounting and function (view DPF EGR PID while applying and releasing vacuum directly to sensor with a hand pump)
P1406
Error Description
DPF EGR Sensor Downstream Hose Off or Plugged While driving, the EGR monitor commands the EGR valve closed and checks the differential pressure across the EGR orifice. The test fails when the signal from the DPF EGR sensor continues to indicate EGR flow even after the EGR valve is commanded closed. Downstream hose is disconnected Downstream hose is plugged (ice) Plugged or damaged EGR tube Look for signs of water or icing in hose Verify connection and routing (no excessive dips) Verify DPF EGR sensor proper mounting and function (view DPFEGR PID while applying and releasing vacuum directly to sensor with a hand pump)
P1408
Error Description
EGR Flow Out of Self-Test Range (Non MIL) This test is performed during the KOER on demand self-test only. The EGR system is commanded ON at a fixed engine speed. The test fails and the DTC is output when the measured EGR flow falls above or below the required calibration . For vacuum activated systems see Possible Causes for DTC P0401.For electric motor system see Possible Causes DTC P0400. For Electric EGR, use the output state control function of the scan tool and monitor the MAP PID (MAP) and the EEGR PID (EGRMDSD) while commanding the EEGR on. If EGR is introduced into the engine at idle, the rpm will drop or stall out. For vacuum systems see Diagnostic Aids for P0401.
P1409
Error Description
EGR Vacuum Regulator Solenoid Circuit Malfunction This test checks the electrical function of the EGRVR solenoid. The test fails when the EGRVR circuit voltage is either too high or too low when compared to the expected voltage range. The EGR system must be enabled for the test to be completed. EGRVR circuit open VPWR open to EGRVR solenoid EGRVR circuit short to VPWR or GND Damaged EGRVR solenoid Damaged PCM The EGR vacuum regulator solenoid resistance is from 26 to 40 ohms.
P1411
Error Description
Secondary Air Injection (AIR) system downstream flow The secondary air injection system does not detect the presence of air in the exhaust when introduced by the secondary air injection system Electric AIR Pump Hose from AIR pump leak AIR bypass solenoid leak/blocked Hose from AIR pump blocked AIR bypass solenoid stuck open/closed In order to test the AIR pump, it must be capable of driving the HO2S lean.
==P1413== Secondary Air Injection System Monitor Circuit Low The secondary air injection system monitor circuit is low, indicating the electrical AIR pump is off although the electrical AIR pump was commanded on by the PCM. Open B+ circuit Open AIR circuit Damaged PCM Air circuit short to ground Damaged AIR pump Damaged solid state relay The AIR monitor circuit is held low by the resistance path through the AIR pump when the pump is off. Also, look for open circuit from SSR to AIR pump.
==P1414== Secondary Air Injuction System Monitor Circuit High The secondary air injection system monitor circuit is high, indicating the electrical AIR pump is on although the electrical AIR pump was commanded off by the PCM. Open AIR monitor circuit from the pump AIR circuit short to power Damaged solid state relay Open AIR pump ground Damaged AIR pump Damaged PCM
P1432
Error Description
Thermostat Heater Control (THTRC) Circuit Failure The Comprehensive component monitor (CCM) monitors the THTRC circuit to the PCM for high and low voltage. If during testing; voltage was to fall below a calibrated limit for a calibrated amount of time the test will fail and set the DTC and MIL. Open or shorted THTRC circuit Open VPWR Open or shorted thermostat assembly Damaged PCM DTC P1432 is a THTRC circuit check. Testing should include wire harness, thermostat heater and PCM.
P1443
Error Description
Very Small Or No Purge Flow Condition A fuel tank pressure change greater than a minus (-) 7 inches of H 2 O in 30 seconds has occurred with purge (fuel vapor) flow less than 0.02 pounds per minute. Blocked fuel vapor hose between EVAP canister purge valve and FTP sensor. Blocked fuel vapor hose between EVAP canister purge valve and engine intake manifold. Blocked vacuum hose between EVAP canister purge valve-solenoid and engine intake manifold. EVAP canister purge valve stuck closed (mechanically). Check for blockages between the fuel tank, EVAP canister purge valve and engine intake manifold. Check obstructions in the EVAP canister purge valve diaphragm and ports.
P1450
Error Description
Unable to Bleed Up Fuel Tank Vacuum Monitors the fuel vapor vacuum and pressure in the fuel tank. The system failure occurs when the EVAP running loss monitor detects excessive fuel tank vacuum with the engine running (but not at idle). Blockages or kinks in EVAP canister tube or EVAP canister purge outlet tube (between fuel tank, EVAP canister purge valve and EVAP canister) Fuel filler cap stuck closed (no vacuum relief) Contaminated fuel vapor elbow on EVAP canister Restricted EVAP canister CV solenoid stuck open (partially or fully) Plugged CV solenoid filter EVAP canister purge valve stuck open VREF circuit open (harness near FTP sensor, FTP sensor or PCM) Damaged FTP sensor
P1451
Error Description
EVAP Control System Canister Vent Solenoid Circuit Malfunction Monitors the canister vent (CV) solenoid circuit for an electrical failure. The test fails when the signal moves outside the minimum or maximum allowable calibrated parameters for a specified canister vent duty cycle by PCM command. VPWR circuit open CV solenoid circuit shorted to PWR GND or CHASSIS GND Damaged CV solenoid CV solenoid circuit open CV solenoid circuit shorted to VPWR Damaged PCM To verify normal function, monitor the EVAP canister vent solenoid signal PID EVAPCV and the signal voltage (PCM control side). With the valve open, EVAPCV will indicate 0 percent duty cycle and the voltage approximately equal to battery voltage. When the valve is commanded fully closed, EVAPCV will indicate 100% duty cycle and a voltage drop of 4 volts minimum is normal. Output test mode may be used to switch output ON/OFF to verify function.
P1460
Error Description
Wide Open Throttle A/C Cutout Primary Circuit Malfunction NOTE: For applications that use a normally open relay to control the A/C clutch, the following description applies to the A/C clutch relay control circuit. Monitors the wide open throttle A/C cutoff (WAC) circuit output from the PCM. The test fails if: When the PCM grounds the WAC circuit, excessive current draw is detected on the WAC circuit; or with the WAC circuit not grounded by the PCM, voltage is not detected on the WAC circuit (the PCM expects to detect VPWR voltage coming through the WAC relay coil to the WAC circuit). Open or shorted WAC circuit Damaged WAC relay (or CCRM) Open VPWR circuit to WAC relay Damaged PCM When the WACF PID reads YES, a fault is currently present An open circuit or short to ground can only be detected when the PCM is not grounding the circuit A short to power can only be detected when the PCM is grounding the circuit During KOEO and KOER self-test, the WAC circuit will be cycled ON and OFF Verify A/C and defrost were OFF during KOEO and KOER self-test (Check ACCS PID to verify) If vehicle is not equipped with A/C, DTC P1460 can be ignored
P1461
Error Description
Air Conditioning Pressure Sensor (ACP) Sensor High Voltage Detected ACP inputs a voltage to the PCM. If the voltage is above a calibrated level the DTC will set. ACP sensor circuit short to PWR ACP circuit open Damaged PCM ACP circuit short to VREF ACP circuit short to SIGRTN Damaged ACP sensor Verify VREF voltage between 4.0 and 6.0V.
P1462
Error Description
Air Conditioning Pressure Sensor (ACP) Sensor Low Voltage Detected ACP inputs a voltage to the PCM. If the voltage is below the calibrated level the DTC will set. ACP circuit short to GND or SIGRTN VREF circuit open Damaged PCM Open ACP circuit Damaged ACP sensor Verify VREF voltage between 4.0 and 6.0V.
P1463
Error Description
Air Conditioning Pressure Sensor (ACP) Insufficient Pressure Change Each time the A/C clutch engages, the PCM is looking for a pressure change in the refrigerant. If the change in pressure is outside of the calibration the DTC will set. A/C system mechanical failure Open ACP or VREF circuit A/C sensor damaged A/C system electrical failure A/C clutch always engaged Verify A/C system function, including refrigerant charge.
P1464
Error Description
A/C Demand Out Of Self-Test Range Indicates the ACCS input to the PCM was high during Self-Test. A/C was on during self-test A/C Clutch PWR circuit short to power (applications with N/C WAC relay contacts) ACCS circuit short to power Damaged A/C demand switch Damaged WAC relay (or CCRM) Damaged PCM If A/C or defrost were on during self-test, turn off and rerun test.
P1469
Error Description
Low A/C Cycling Period Indicates frequent A/C compressor clutch cycling. Mechanical A/C system concern (such as low refrigerant charge, damaged A/C cycling switch) Intermittent open between the cycling pressure switch and pin 41 (ACCS) to the PCM Intermittent open in IGN RUN circuit to cycling pressure switch (if applicable) An intermittent open circuit, although possible, is unlikely This test was designed to protect the transmission. In some strategies, the PCM will unlock the torque converter during A/C clutch engagement. If a concern is present that results in frequent A/C clutch cycling, damage could occur if the torque converter was cycled at these intervals. This test will detect this condition, set the DTC and prevent the torque converter from excessive cycling.
P1474
Error Description
Low Fan Control (LFC) Primary Circuit Failure Monitors the low fan control (LFC) (fan control [FC] for one speed fan application) primary circuit output from the PCM. The test fails if: When the PCM grounds the LFC/FC circuit, excessive current draw is detected on the LFC/FC circuit; or with the LFC/FC circuit not grounded by the PCM, voltage is not detected on the LFC/FC circuit (the PCM expects to detect VPWR voltage coming through the low speed FC relay [or CCRM] coil to the LFC/FC circuit). Open or shorted LFC/FC circuit Open VPWR circuit to low speed FC relay Damaged low speed FC relay (or CCRM) Damaged PCM When the LFCF PID reads YES, a fault is currently present An open circuit or short to ground can only be detected when the PCM is not grounding the LFC/FC circuit A short to power can only be detected when the PCM is grounding the LFC/FC circuit. During KOEO and KOER Self-Test, the LFC/FC circuit will be cycled on and off
P1474
Error Description
Hydraulic Cooling Fan Primary Circuit Failure (HCF) This test checks the electrical function of the (HCF) primary circuit. The test fails if: the PCM detects voltage either too high or too low when compared to the expected voltage range on the (HCF) primary circuit. HCF circuit open HCF circuit short to power HCF circuit short to ground Damaged HCF solenoid Damaged PCM The HCF solenoid is integrated in the HCF pump which looks like a power steering pump. The electrical resistance of the solenoid windings is nominally 10 ohms.
P1477
Error Description
Medium Fan Control (MFC) Primary Circuit Failure Monitors the medium fan control (MFC) primary circuit output from the PCM. The test fails if: With the MFC output commanded on (grounded), excessive current draw is detected on the MFC circuit; or with the MFC circuit commanded off, voltage is not detected on the MFC circuit (the PCM expects to detect IGN START/RUN voltage coming through the medium speed FC relay coil to the MFC circuit). Open or shorted MFC circuit Open IGN START/RUN circuit to medium speed FC relay Damaged medium speed FC relay Damaged PCM Same as P1479, except with MFC circuit and MFCF PID (for early build Escape, MFCF and MFC PIDs may not be available) Using Output Test Mode on scan tool, when commanding the low speed fan on, the PCM will also activate the medium speed fan output.
P1479
Error Description
High Fan Control (HFC) Primary Circuit Failure Monitors the high fan control (HFC) primary circuit output from the PCM. The test fails if: With the HFC output commanded on (grounded), excessive current draw is detected on the HFC circuit; or with the HFC circuit commanded off, voltage is not detected on the HFC circuit (the PCM expects to detect VPWR voltage coming through the high speed FC relay [or CCRM] coil to the HFC circuit). Open or shorted HFC circuit Open VPWR circuit to high speed FC relay Damaged high speed FC relay (or CCRM) Damaged PCM When the HFCF PID reads YES, a fault is currently present An open circuit or short to ground can only be detected when the PCM is not grounding the HFC circuit A short to power can only be detected when the PCM is grounding the HFC circuit During KOEO and KOER self-test, the HFC circuit will be cycled on and off
P1500
Error Description
Vehicle Speed Sensor (VSS) Intermittent Indicates the VSS input signal was intermittent. This DTC is set when a VSS fault interferes with other OBDII tests, such as Catalyst efficiency monitor, EVAP monitor, HO2S monitor, etc. Intermittent VSS connections Intermittent open in VSS harness circuit(s) Intermittent short in VSS harness circuit(s) Damaged VSS Damaged PCM
P1501
Error Description
Vehicle Speed Sensor (VSS) Out of Self Test Range Indicates the VSS input signal is out of Self Test range. If the PCM detects a VSS input signal any time during Self Test, a DTC P1501 will be set and the test will abort. Noisy VSS input signal from Radio Frequency Interference/ Electro-Magnetic Interference (RFI/EMI) external sources such as ignition wires, charging circuit or after market equipment. Check for VSS input to be 0 mph when vehicle transmission is in Park.
P1502
Error Description
Vehicle Speed Sensor (VSS) Intermittent Indicates the powertrain control module (PCM) detected an error in the vehicle speed information. Vehicle speed data is received from either the vehicle speed sensor (VSS), transfer case speed sensor (TCSS), anti-lock brake system (ABS) control module, generic electronic module (GEM), or central timer module (CTM). This DTC is set the same way as P0500. However, it is intended to flash the transmission control indicator lamp (TCIL) for first time VSS circuit error/malfunctions. Refer to possible causes for P0500. Refer to diagnostic aids for P0500.
P1502
Error Description
Vehicle Speed Sensor (VSS) Intermittent (TCIL illuminates) Indicates the powertrain control module (PCM) detected an error in the vehicle speed information. Vehicle speed data is received from either the vehicle speed sensor (VSS), anti-lock brake system (ABS) control module, generic electronic module (GEM), or central timer module (CTM). This DTC is set the same way as P0500. However, it is intended to flash the transmission control indicator lamp (TCIL) for first time VSS circuit error/malfunctions. Refer to possible causes for P0500 Refer to diagnostic aides for P0500
P1504
Error Description
Idle Air Control (IAC) Circuit Malfunction This DTC is set when the PCM detects an electrical load failure on the IAC output circuit. IAC circuit open VPWR to IAC solenoid open IAC circuit short to PWR IAC circuit short to GND Damaged IAC valve Damaged PCM The IAC solenoid resistance is from 6 to 13 ohms.
P1506
Error Description
Idle Air Control (IAC) Overspeed Error This DTC is set when the PCM detects engine idle speed that is greater than the desired rpm. IAC circuit short to GND Damaged IAC valve IAC valve stuck open Vacuum leaks Failed EVAP system Damaged PCM Disconnect IAC valve and look for little or no change in engine rpm as an indication of a stuck or damaged valve.
P1507
Error Description
Idle Air Control (IAC) Underspeed Error This DTC is set when the PCM detects engine idle speed that is less than the desired rpm. IAC circuit open IAC circuit short to PWR VPWR to IAC solenoid open Air inlet is plugged Damaged IAC solenoid Damaged PCM The IAC solenoid resistance is from 6 to 13 ohms Disconnect IAC valve and look for no change in engine rpm as an indication of a stuck or damaged valve
P1516
Error Description
Intake Manifold Runner Control Input Error (Bank 1)
P1517
Error Description
Intake Manifold Runner Control Input Error (Bank 2) The IMRC system is monitored for failure during continuous or key ON engine OFF self-test. Each DTC will distinguish the corresponding failed bank for IMRC actuator assemblies with dual monitor switches. The test fails when the signal on the monitor pin is outside an expected calibrated range. Mechanical concern - bind, seize, damage or obstruction of IMRC hardware An IMRCM PID reading at closed throttle that is less than VREF may indicate a fault An IMRCM PID reading near 1 volt or greater with engine rpm of at least 3000 may indicate a fault
P1518
Error Description
Intake Manifold Runner Control Malfunction (Stuck Open) The IMRC system is monitored for failure during continuous, key ON engine OFF or key ON engine running self-test. The test fails when the signal on the monitor pin is less than an expected calibrated range at closed throttle. IMRC monitor signal circuit shorted to PWR GND or SIG RTN Damaged IMRC actuator Damaged PCM An IMRCM PID reading approximately near 1 volt at closed throttle may indicate a fault
P1519
Error Description
Inlet Manifold Runner Control Malfunction (Stuck Closed) The IMRC system is monitored for failure during continuous, key ON engine OFF or key ON engine running self-test. The test fails when the signal on the monitor pin is more than an expected calibrated range with IMRC activated. IMRC monitor circuit open IMRC control circuit open IMRC monitor circuit short to VREF IMRC monitor return circuit open Damaged IMRC actuator IMRC VPWR circuit open Damaged PCM An IMRCM PID reading at VREF with engine rpm of at least 3000 may indicate a fault.
P1549
Error Description
Intake Manifold Communication Control Circuit Malfunction The IMCC or intake manifold tuning (IMT) valve system is monitored for failure during continuous or key ON engine OFF self-test. The test fails when the PCM detects a concern with IMT valve output circuit. Open IMT valve circuit Open VPWR circuit Shorted IMT valve circuit Damaged IMT valve Damaged PCM An IMT valve fault PID (IMTVF) displaying YES status may indicate a fault
P1550
Error Description
Power Steering Pressure (PSP) Sensor Malfunction The PSP sensor input signal to PCM is continuously monitored. The test fails when the signal falls out of a maximum or minimum calibrated range. PSP sensor damaged Damaged PCM The DTC indicates the PSP sensor is out of Self-Test range.
P1572
Error Description
Brake Pedal Switch Circuit Indicates that the brake input rationality test for brake pedal position (BPP) and brake pressure applied (BPA) switches has failed. One or both inputs to the PCM did not change when it was expected to. Misadjusted brake switch Blown fuse Damaged BPP switch Damaged BPA switch Open or short in BPP circuit Open or short in BPA circuit Damaged PCM Check for proper function of stoplamps and speed control operation. Follow correct Self-Test procedures, refer to Section 2 Quick Test.
P1605
Error Description
Keep Alive Memory Test Failure Indicates the PCM has experienced an internal memory test failure. However there are external items that can cause this DTC. Reprogramming Battery terminal corrosion Damaged PCM KAPWR to PCM interrupt/open Loose battery connection If KAPWR is interrupted to the PCM, because of a battery or PCM disconnect, DTC can be generated on the first power-up.
P1633
Error Description
Keep Alive Power Voltage Too Low Indicates that the Keep Alive Power (KAPWR) circuit has experienced a power interrupt. Open KAPWR circuit Damaged PCM Intermittent KAPWR Circuit
P1635
Error Description
Tire/Axle Ratio Out Of Acceptable Range This Diagnostic Trouble Code (DTC) indicates the tire and axle information contained in Vehicle ID block (VID) does not match vehicle hardware. Incorrect tire size Incorrect axle ratio Incorrect VID configuration parameters Using the scan tool, view the tire and axle parameters within the VID. They must match vehicle hardware.
P1636
Error Description
Inductive Signature Chip Communication Error Indicates the PCM has lost communication with the Inductive Signature Chip. PCM Damaged
P1639
Error Description
Vehicle ID Block Not Programed Or Is Corrupt This diagnostic trouble code (DTC) indicates that the vehicle ID (VID) block is not programed or the information within is corrupt. New PCM Incorrect PCM Incorrect VID configuration Using an enhanced scan tool, reprogram the PCM to the most recent calibration available.
P1640
Error Description
Powertrain DTC's Available in Another Module Vehicles using a secondary Engine Control Module can request that the Powertrain Control Module illuminate the Check Engine Light when a failure occurs which affect emission. DTCs stored in a secondary module, which requested the MIL to be turned on. Call-up PID address 0946 to determine secondary module requesting MIL illumination. Once secondary module is determined request DTCs from module.
P1650
Error Description
Power Steering Pressure (PSP) Switch Malfunction In Key On, Engine Off Self-Test, this DTC indicates the PSP input to the PCM is high. In Key On, Engine Running Self-Test, this DTC indicates that the PSP input did not change state. Steering wheel must be turned during Key On, Engine Running Self-Test PSP switch/shorting bar damaged SIG RTN circuit open PSP circuit open or shorted to SIGRTN PCM damaged
P1651
Error Description
Power Steering Pressure (PSP) Switch Signal Malfunction The PCM counts the number of times vehicle speed transitions from 0 to a calibratable speed. After a calibratable number of speed transitions the PCM expects that the PSP input should have changed. This DTC is set if the transition is not detected. Vehicle towed with engine running Power steering hydraulic concern was repaired but DTC was not erased PSP switch/shorting bar damaged SIG RTN circuit open PSP circuit open or shorted to SIGRTN PCM damaged Check, if possible, if vehicle was towed or power steering service was performed. Observe PSP V PID while checking wires for intermittents.
P1703
Error Description
Brake Switch Out of Self-Test Range Indicates that during Key On Engine Off (KOEO) Self-Test, BPP signal was high. Or during Key On Engine Running (KOER) Self -Test, the BPP signal did not cycle high and low. Open or short in (BPP) circuit Open or short in stoplamp circuits Damaged PCM Malfunction in module(s) connected to BPP circuit (Rear Electronic Module [REM] Windstar and LS6/LS8 and Lighting Control Module (LCM) Continental and Town Car) Damaged Brake Switch Misadjusted Brake Switch Check for proper function of stoplamps. Follow correct Self-Test procedures, refer to Section 2, Quick Test .
P1705
Error Description
Transmission Range Sensor Out of Self-Test Range
P1709
Error Description
Park/Neutral Position Switch Out of Self-Test Range The DTCs indicate that the voltage is high when it should be low. PNP/CPP circuit short to PWR Damaged PNP or CPP switch PNP/CPP circuit open in the SIGRTN Damaged PCM When exercising either the PNP or CPP switch the voltage should cycle from 5.0V to low
P1729
Error Description
4x4L Switch Malfunction The 4x4L switch is an ON/OFF. If the PCM does not see low voltage when the switch is ON a DTC will set. 4x4L harness open or shorted Damaged electronic shift module Damaged PCM Verify the 4x4L switch cycles ON/OFF.
P1780
Error Description
Transmission Control Switch Out of Self-Test Range During KOER self-test the TCS has to be cycled, if not cycled a DTC is set. TCS circuit short or open Damaged TCS switch Damaged PCM Verify the TCS switch cycles ON/OFF
P1781
Error Description
4x4L Switch Out of Self-Test Range The 4x4L switch is an ON/OFF. If the PCM does not see low voltage when the switch is on a DTC will set. 4x4L harness open or shorted Damaged electronic shift module Damaged PCM Verify the 4x4L switch cycles ON/OFF
P1900
Error Description
Output Shaft Speed sensor circuit intermittent failure See DTC P0723
P2004
Error Description
Variable tumble control system (VTCS) shutter valve stuck open ON 2 CCM ´ (See DTC P2004)
P2006
Error Description
Variable tumble control system (VTCS) shutter valve stuck closed ON 2 CCM ´ (See DTC P2006)
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