2001 CHRYSLER VOYAGER air condition

Symptom List:
FCM, ORC RUN ONLY DRIVER OPEN - STORED
FCM, ORC RUN ONLY DRIVER OVER CURRENT - STORED
FCM, ORC RUN ONLY DRIVER OVER TEMP - STORED
FCM, ORC RUN ONLY DRIVER OVER VOLT - STORED
FCM, ORC RUN ONLY DRIVER SHORT TO GROUND - STORED
FCM, ORC RUN-START DRIVER OPEN - STORED
FCM, ORC RUN-START DRIVER OVER CURRENT - STORED
FCM, ORC RUN-START DRIVER OVER TEMP - STORED
FCM, ORC RUN-START DRIVER OVER VOLT - STORED
FCM, ORC RUN-START DRIVER SHORT TO GROUND - STORED
FCM, SIACM RUN-START DRIVER OPEN - STORED
FCM, SIACM RUN-START DRIVER OVER CURRENT - STORED
FCM, SIACM RUN-START DRIVER OVER TEMP - STORED
FCM, SIACM RUN-START DRIVER OVER VOLT - STORED
FCM, SIACM RUN-START DRIVER SHORT TO GROUND - STORED
Test Note: All symptoms listed above are diagnosed using the same tests.
The title for the tests will be FCM, ORC RUN ONLY DRIVER
OPEN - STORED.
When Monitored and Set Condition:
FCM, ORC RUN ONLY DRIVER OPEN - STORED
When Monitored: When the ignition is turned OFF, the microprocessor controlled
transistor (high side driver) places a diagnostic voltage on the ORC Run-Start circuit for
60 seconds. An open high side driver (HSD) circuit voltage is between 2.4 and 5.0 volts.
Set Condition: This code will set within 10 second, if the microprocessor senses 2.4 to 5.0
volts on the HSD. Note: the diagnostic voltage will only last for 60 seconds after the
ignition is turned off.
FCM, ORC RUN ONLY DRIVER OVER CURRENT - STORED
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the ORC. The microprocessor monitors the high side driver (HSD)
internal temperature when the ignition is in the Run Only position.
Set Condition: The code will set within 1 second, if the microprocessor senses HSD
internal temperature. The high temperature is caused by over current.
FCM, ORC RUN ONLY DRIVER OVER TEMP - STORED
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the ORC. The microprocessor monitors the high side driver (HSD)
internal temperature when the ignition is in the Run position.
Set Condition: The code will set within 2.5 second, if the microprocessor senses high HSD
internal temperature. The high temperature is caused by over current.
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AIRBAG

FCM, ORC RUN ONLY DRIVER OVER VOLT - STORED
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the ORC. The microprocessor monitors the high side driver (HSD)
battery voltage when the ignition is in the run position.
Set Condition: The code will set if the microprocessor senses HSD battery voltage is over
30 volts.
FCM, ORC RUN ONLY DRIVER SHORT TO GROUND - STORED
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the ORC. The microprocessor monitors the high side driver (HSD)
internal temperature when the ignition is in the Run Only position.
Set Condition: The code will set within 1 second, if the microprocessor senses high HSD
internal temperature. The high temperature is caused by a short to ground.
FCM, ORC RUN-START DRIVER OPEN - STORED
When Monitored: When the ignition is turned OFF, the microprocessor controlled
transistor (high side driver) places a diagnostic voltage on the ORC Run Only circuit for 60
seconds. An open high side driver (HSD) circuit voltage is between 2.4 and 5.0 volts.
Set Condition: This code will set within 10 second, if the microprocessor senses 2.4 to 5.0
volts on the HSD. Note: the diagnostic voltage will only last for 60 seconds after the
ignition is turned off.
FCM, ORC RUN-START DRIVER OVER CURRENT - STORED
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the ORC. The microprocessor monitors the high side driver (HSD)
internal temperature when the ignition is in the Run or Start position.
Set Condition: The code will set within 1 second, if the microprocessor senses high HSD
internal temperature. The high temperature is caused by over current.
FCM, ORC RUN-START DRIVER OVER TEMP - STORED
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the ORC. The microprocessor monitors the high side driver (HSD)
internal temperature when the ignition is in the Run or Start position.
Set Condition: The code will set within 2.5 second, if the microprocessor senses high HSD
internal temperature. The high temperature is caused by over current.
FCM, ORC RUN-START DRIVER OVER VOLT - STORED
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the ORC. The microprocessor monitors the high side driver (HSD)
battery voltage when the ignition is in the Run or Start position.
Set Condition: The code will set if the microprocessor senses HSD battery voltage is over
30 volts.
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AIRBAG
FCM, ORC RUN ONLY DRIVER OPEN - STORED ÐContinued

FCM, ORC RUN-START DRIVER SHORT TO GROUND - STORED
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the ORC. The microprocessor monitors the high side driver (HSD)
circuit for short to ground when the ignition is in the Run or Start position.
Set Condition: The code will set within 1 second, if the microprocessor senses high HSD
internal temperature. The high temperature is caused by short to ground.
FCM, SIACM RUN-START DRIVER OPEN - STORED
When Monitored: When the ignition is turned OFF, the microprocessor controlled
transistor (high side driver) places a diagnostic voltage on the SIACM Run-Start circuit for
60 seconds. An open high side driver (HSD) circuit voltage is between 2.4 and 5.0 volts.
Set Condition: This code will set within 10 second, if the microprocessor senses 2.4 to 5.0
volts on the HSD. Note: the diagnostic voltage will only last for 60 seconds after the
ignition is turned off.
FCM, SIACM RUN-START DRIVER OVER CURRENT - STORED
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the SIACM. The microprocessor monitors the high side driver (HSD)
internal temperature when the ignition is in the Run or Start position.
Set Condition: The code will set within 1 second, if the microprocessor senses high HSD
internal temperature. The high temperature is caused by over current.
FCM, SIACM RUN-START DRIVER OVER TEMP - STORED
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the SIACM. The microprocessor monitors high side driver (HSD)
internal temperature when the ignition is in the Run or Start position.
Set Condition: The code will set within 2.5 second, if the microprocessor senses high HSD
internal temperature. The high temperature is caused by over current.
FCM, SIACM RUN-START DRIVER OVER VOLT - STORED
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the SIACM. The microprocessor monitors the high side driver (HSD)
battery voltage when the ignition is in the Run or Start position.
Set Condition: The code will set if the microprocessor senses the HSD battery voltage is
over 30 volts.
FCM, SIACM RUN-START DRIVER SHORT TO GROUND - STORED
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the SIACM. The microprocessor monitors high side driver (HSD)
internal temperature when the ignition is in the Run or Start position.
Set Condition: The code will set within 1 second, if the microprocessor senses high HSD
internal temperature. The high temperature is caused by over current.
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AIRBAG
FCM, ORC RUN ONLY DRIVER OPEN - STORED ÐContinued

Symptom List:
FCM, ORC RUN-START DRIVER OPEN - ACTIVE
FCM, ORC RUN-START DRIVER OVER CURRENT - ACTIVE
FCM, ORC RUN-START DRIVER OVER TEMP - ACTIVE
FCM, ORC RUN-START DRIVER OVER VOLT - ACTIVE
FCM, ORC RUN-START DRIVER SHORT TO GROUND - ACTIVE
ORC, LOSS OF IGNITION RUN-START - ACTIVE
Test Note: All symptoms listed above are diagnosed using the same tests.
The title for the tests will be FCM, ORC RUN-START DRIVER
OPEN - ACTIVE.
When Monitored and Set Condition:
FCM, ORC RUN-START DRIVER OPEN - ACTIVE
When Monitored: When the ignition is turned OFF, the microprocessor controlled
transistor (high side driver) places a diagnostic voltage on the ORC Run Only circuit for 60
seconds. An open high side driver (HSD) circuit voltage is between 2.4 and 5.0 volts.
Set Condition: This code will set within 10 second, if the microprocessor senses 2.4 to 5.0
volts on the HSD. Note: the diagnostic voltage will only last for 60 seconds after the
ignition is turned off.
FCM, ORC RUN-START DRIVER OVER CURRENT - ACTIVE
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the ORC. The microprocessor monitors the high side driver (HSD)
internal temperature when the ignition is in the Run or Start position.
Set Condition: The code will set within 1 second, if the microprocessor senses high HSD
internal temperature. The high temperature is caused by over current.
FCM, ORC RUN-START DRIVER OVER TEMP - ACTIVE
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the ORC. The microprocessor monitors the high side driver (HSD)
internal temperature when the ignition is in the Run or Start position.
Set Condition: The code will set within 2.5 second, if the microprocessor senses high HSD
internal temperature. The high temperature is caused by over current.
FCM, ORC RUN-START DRIVER OVER VOLT - ACTIVE
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the ORC. The microprocessor monitors the high side driver (HSD)
battery voltage when the ignition is in the Run or Start position.
Set Condition: The code will set if the microprocessor senses HSD battery voltage is over
30 volts.
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AIRBAG

FCM, ORC RUN-START DRIVER SHORT TO GROUND - ACTIVE
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the ORC. The microprocessor monitors the high side driver (HSD)
circuit for short to ground when the ignition is in the Run or Start position.
Set Condition: The code will set within 1 second, if the microprocessor senses high HSD
internal temperature. The high temperature is caused by short to ground.
ORC, LOSS OF IGNITION RUN-START - ACTIVE
When Monitored: With the ignition in the Run-Start position the ORC monitors the ORC
Run-Start Driver circuit for proper system voltage.
Set Condition: If the voltage on the ORC Run-Start Driver circuit drops below 4.5 volts,
the code will set.
POSSIBLE CAUSES
VERIFYING ORC RUN-START DRIVER CODES
CHECK BATTERY VOLTAGE
FCM, RUN-START DRIVER OVER VOLTAGE
ORC, RUN-START TEST
FCM, RUN ONLY OPEN TEST
IPM, RUN ONLY OPEN TEST
ORC RUN ONLY DRIVER CIRCUIT OPEN
FCM, RUN-START SHORT TEST
IPM, RUN-START SHORT TEST
ORC RUN-START DRIVER CIRCUIT SHORT
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AIRBAG
FCM, ORC RUN-START DRIVER OPEN - ACTIVE ÐContinued

Symptom List:
FCM, SIACM RUN-START DRIVER OPEN - ACTIVE
FCM, SIACM RUN-START DRIVER OVER CURRENT - ACTIVE
FCM, SIACM RUN-START DRIVER OVER TEMP - ACTIVE
FCM, SIACM RUN-START DRIVER OVER VOLT - ACTIVE
FCM, SIACM RUN-START DRIVER SHORT TO GROUND - ACTIVE
Test Note: All symptoms listed above are diagnosed using the same tests.
The title for the tests will be FCM, SIACM RUN-START
DRIVER OPEN - ACTIVE.
When Monitored and Set Condition:
FCM, SIACM RUN-START DRIVER OPEN - ACTIVE
When Monitored: When the ignition is turned OFF, the microprocessor controlled
transistor (high side driver) places a diagnostic voltage on the SIACM Run-Start circuit for
60 seconds. An open high side driver (HSD) circuit voltage is between 2.4 and 5.0 volts.
Set Condition: This code will set within 10 second, if the microprocessor senses 2.4 to 5.0
volts on the HSD. Note: the diagnostic voltage will only last for 60 seconds after the
ignition is turned off.
FCM, SIACM RUN-START DRIVER OVER CURRENT - ACTIVE
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the SIACM. The microprocessor monitors the high side driver (HSD)
internal temperature when the ignition is in the Run or Start position.
Set Condition: The code will set within 1 second, if the microprocessor senses high HSD
internal temperature. The high temperature is caused by over current.
FCM, SIACM RUN-START DRIVER OVER TEMP - ACTIVE
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the SIACM. The microprocessor monitors high side driver (HSD)
internal temperature when the ignition is in the Run or Start position.
Set Condition: The code will set within 2.5 second, if the microprocessor senses high HSD
internal temperature. The high temperature is caused by over current.
FCM, SIACM RUN-START DRIVER OVER VOLT - ACTIVE
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the SIACM circuit. The microprocessor monitors the battery voltage
when the ignition is in the run or start position.
Set Condition: The code will set if the microprocessor senses the battery voltage is over
30 volts.
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AIRBAG

FCM, SIACM RUN-START DRIVER SHORT TO GROUND - ACTIVE
When Monitored: The FCM uses a microprocessor controlled transistor (high side driver)
to supply power to the SIACM. The microprocessor monitors high side driver (HSD)
internal temperature when the ignition is in the Run or Start position.
Set Condition: The code will set within 1 second, if the microprocessor senses high HSD
internal temperature. The high temperature is caused by over current.
POSSIBLE CAUSES
CHECK BATTERY VOLTAGE
FCM, SIACM RUN-START DR OVER VOLTAGE
FCM, SIACM RUN-START OPEN TEST
FCM, SIACM RUN-START OPEN TEST
FCM, SIACM RUN-START SHORT TEST
IPM, SIACM RUN-START OPEN TEST
RSIACM, RUN-START OPEN TEST
RUN-START OPEN TEST
SIACM RUN-START DRIVER CIRCUIT OPEN
IPM, SIACM RUN-START SHORT TEST
LSIACM, SIACM RUN-START SHORT TEST
RIGHT SIACM RUN-START DRIVER CIRCUIT OPEN
SIACM RUN-START DRIVER CIRCUIT SHORT
RIGHT SIACM, SIACM RUN-START SHORT TEST
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AIRBAG
FCM, SIACM RUN-START DRIVER OPEN - ACTIVE ÐContinued

Symptom List:
LEFT SIACM ACCELEROMETER 1 - ACTIVE
LEFT SIACM ACCELEROMETER 1 - STORED
LEFT SIACM ACCELEROMETER 2 - ACTIVE
LEFT SIACM ACCELEROMETER 2 - STORED
LEFT SIACM INTERNAL 1 - ACTIVE
LEFT SIACM INTERNAL 1 - STORED
LEFT SIACM OUTPUT DRIVER 1 - ACTIVE
LEFT SIACM OUTPUT DRIVER 1 - STORED
LEFT SIACM, LOSS OF IGNITION RUN-START - ACTIVE
LEFT SIACM, NO PCI TRANSMISSION - ACTIVE
Test Note: All symptoms listed above are diagnosed using the same tests.
The title for the tests will be LEFT SIACM ACCELEROMETER
1 - ACTIVE.
When Monitored and Set Condition:
LEFT SIACM ACCELEROMETER 1 - ACTIVE
When Monitored: When the ignition on, the Left SIACM on board diagnostics continu-
ously performs internal circuit tests.
Set Condition: This DTC will set if the Left SIACM identifies an out of range internal
circuit
LEFT SIACM ACCELEROMETER 1 - STORED
When Monitored: When the ignition on, the Left SIACM on board diagnostics continu-
ously performs internal circuit tests.
Set Condition: This DTC will set if the Left SIACM identifies an out of range internal
circuit.
LEFT SIACM ACCELEROMETER 2 - ACTIVE
When Monitored: When the ignition on, the Left SIACM on board diagnostics continu-
ously performs internal circuit tests.
Set Condition: This DTC will set if the Left SIACM identifies an out of range internal
circuit.
LEFT SIACM ACCELEROMETER 2 - STORED
When Monitored: When the ignition on, the Left SIACM on board diagnostics continu-
ously performs internal circuit tests.
Set Condition: This DTC will set if the Left SIACM identifies an out of range internal
circuit.
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AIRBAG