854G and 854K Wheel Dozers and 992G, 992K and 994F Wheel Loaders VIMSTM MID 049 - CID 0427 - FMI 03 Caterpillar


MID 049 - CID 0427 - FMI 03
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MID 049 CID 0427 FMI 03

Conditions Which Generate This Code:



Illustration 1g01968634
Schematic of the front axle oil temperature sensor
Sales model 854G/992G


Illustration 2g02118953
Schematic of the front axle oil temperature sensor
Sales model 994F

This diagnostic code is associated with the temperature sensor (front axle oil). The FMI 03 means that the ECM has determined that the voltage of the circuit for the sensor is above normal.

The pressure sensors are PWM sensors. The PWM signal is based on the input pressure and the signal will vary.

The possible causes of this diagnostic code are listed below:

  • The signal circuit for the sensor is open.

  • The signal circuit for the sensor is shorted to the +battery circuit.

  • The sensor has failed.

  • The power circuit or the ground circuit has failed.

  • The ECM has failed. This is unlikely.

Note: The following test procedure may create other diagnostic codes. Ignore these created diagnostic codes and clear the diagnostic codes when the original diagnostic code has been corrected. Ensure that the diagnostic code of CID 0427 FMI 03 is active before performing this procedure.

Note: Use the 146-4080 Digital Multimeter for the measurements in this procedure.

Test Step 1. CHECK FOR POWER AT THE SENSOR.

  1. Do not disconnect the harness connector from the sensor.

  2. Turn the key start switch and the disconnect switch to the ON position.

  3. At the back of the harness connector for the sensor, insert a 7X-1710 Multimeter Probe along the voltage supply wire (contact 1 for sales model 854G/992G).

  4. At the back of the harness connector for the sensor, insert a 7X-1710 Multimeter Probe along the voltage supply wire (contact A for sales model 994F).

  5. Measure the voltage from the supply to the frame ground.

Expected Result:

The voltage is 8 DCV.

Results:

  • OK - The voltage is 8 DCV. Proceed to Test Step 2.

  • NOT OK - The voltage is not 8 DCV. The + battery circuit in the machine harness has failed.

    Repair: Replace the machine harness or repair the machine harness.

    STOP

Test Step 2. CHECK FOR PROPER GROUND AT THE SENSOR.

  1. The machine harness remains connected to the sensor.

  2. Turn the key start switch and the disconnect switch to the OFF position.

  3. Remove the 7X-1710 Multimeter Probe from the voltage supply wire (contact 1 for sales model 854G/992G).

  4. Remove the 7X-1710 Multimeter Probe from the voltage supply wire (contact Afor sales model 994F).

  5. At the back of the harness connector for the sensor, insert a 7X-1710 Multimeter Probe along the ground wire (contact 2 for sales model 854G/992G).

  6. At the back of the harness connector for the sensor, insert a 7X-1710 Multimeter Probe along the ground wire (contact B for sales model 994F).

  7. Measure the resistance from the ground wire to frame ground.

Expected Result:

The resistance is less than 5 ohms.

Results:

  • OK - The resistance is less than 5 ohms. The ground circuit is correct. Proceed to Test Step 3.

  • NOT OK - The resistance is greater than 5 ohms. The ground circuit in the machine harness has failed.

    Repair: Replace the machine harness or repair the machine harness.

    STOP

Test Step 3. CHECK THE WIRING HARNESS OF THE SENSOR FOR AN OPEN CIRCUIT.

  1. The key start switch and the disconnect switch remain in the OFF position.

  2. Disconnect the machine harness from the sensor.

  3. At the harness connector for the sensor, connect a jumper wire between contact 2 and contact 3 for the sales model 854G.

  4. At the harness connector for the sensor, connect a jumper wire between contact B and contact C for the sales model 992G.

  5. Disconnect the machine harness connector(s) from the ECM.

  6. At the harness connector for the ECM, measure the resistance between contact J2-36 (wire 429-YL(Yellow)) and contact J2-19 (wire J842-BK(Black)).

Expected Result:

The resistance measurement is less than 5 ohms.

Results:

  • OK - The resistance measurement is less than 5 ohms. The circuit is correct. Proceed to Test Step 4.

  • NOT OK - The resistance is greater than 5 ohms. The circuit is not correct. There is an open circuit in the wiring harness.

    Repair: There is an open circuit in the wiring harness. Repair the wiring harness or replace the wiring harness.

    STOP

Test Step 4. CHECK THE WIRING HARNESS OF THE SENSOR FOR A SHORT TO THE +BATTERY CIRCUIT.

  1. The key start switch and the disconnect switch remain in the OFF position.

  2. The machine harness remains disconnected from the sensor. Remove the jumper wire that was installed in the previous step.

  3. The machine harness connector(s) remains disconnected from the ECM.

  4. At the machine harness connector for the ECM, measure the resistance from the signal contact J2-36 (wire 429-YL(Yellow)) of the machine harness to all contacts that are used in the machine harness connectors for the ECM.

Expected Result:

Each resistance measurement is greater than 5000 ohms.

Results:

  • OK - Each resistance measurement is greater than 5000 ohms. The machine harness is correct. Proceed to Test Step 5.

  • NOT OK - One or more resistance measurements is not correct. There is a short in the machine harness.

    Repair: The short is between signal contact J2-36 (wire 429-YL(Yellow)) and the circuit with the low resistance measurement. Repair the machine harness or replace the machine harness.

    STOP

Test Step 5. CHECK THE OUTPUT OF THE SENSOR.

  1. Reconnect the machine harness connectors to the ECM. Reconnect the machine harness connector to the sensor.

  2. At the back of the harness connector for the sensor, insert a 7X-1710 Multimeter Probe along the signal wire.

  3. At the back of the harness connector for the sensor, insert a 7X-1710 Multimeter Probe along the ground wire.

  4. Turn the disconnect switch and the key start switch to the ON position.

  5. Measure the signal of the sensor. The proper signal is described at the beginning of this procedure.

Expected Result:

The signal from the sensor is valid.

Results:

  • OK - The signal from the sensor is valid. Proceed to Test Step 6.

  • NOT OK - The signal from the sensor is not valid.

    Repair: The sensor has failed. Replace the sensor.

    STOP

Test Step 6. CHECK IF THE DIAGNOSTIC CODE REMAINS.

  1. Inspect the contacts of the harness connectors and clean the connectors.

  2. Reconnect all harness connectors.

  3. Turn the disconnect switch and the key start switch to the ON position.

  4. Operate the machine.

  5. Check the status of the CID 0427 FMI 03.

Expected Result:

The CID 0427 FMI 03 is active.

Results:

  • YES - The CID 0427 FMI 03 is active. The diagnostic code has not been corrected. The ECM may have failed.

    Repair: It is unlikely that the ECM has failed. Exit this procedure and perform this procedure again. If the cause of the diagnostic code is not found, replace the ECM. See Testing and Adjusting, "Module - Replace".

    STOP

  • NO - The CID 0427 FMI 03 is not active. The diagnostic code does not exist at this time.

    Repair: The initial diagnostic code was probably caused by a poor electrical connection at one of the harness connectors that was disconnected and reconnected. Resume normal machine operation.

    STOP

Information System:

992K Wheel Loader Electrohydraulic System MID 082 - CID 2408 - FMI 03
854G and 854K Wheel Dozers and 992G, 992K and 994F Wheel Loaders VIMSTM MID 049 - CID 0427 - FMI 03
854G and 854K Wheel Dozers and 992G, 992K and 994F Wheel Loaders VIMSTM MID 049 - CID 0427 - FMI 08
854G and 854K Wheel Dozers and 992G, 992K and 994F Wheel Loaders VIMSTM MID 049 - CID 0427 - FMI 08
Pilot Oil Pressure Reducing Valve Retrofit{5467}
D7E Track-Type Tractor Camera - If Equipped
Tier III Level Emissions Engine Retrofit for a 980C, 980F, and a 980F Series II Wheel Loader {1000, 1000, 7000}
992K Wheel Loader Electrohydraulic System MID 082 - CID 2409 - FMI 06
992K Wheel Loader Electrohydraulic System MID 082 - CID 2409 - FMI 05
992K Wheel Loader Electrohydraulic System MID 082 - CID 1571 - FMI 13
992K Wheel Loader Electrohydraulic System MID 082 - CID 2409 - FMI 03
992K Wheel Loader Electrohydraulic System MID 082 - CID 2415 - FMI 08
992K Wheel Loader Electrohydraulic System MID 082 - CID 2408 - FMI 05
992K Wheel Loader Electrohydraulic System MID 082 - CID 2408 - FMI 06
854G and 854K Wheel Dozers and 992G, 992K and 994F Wheel Loaders VIMSTM MID 049 - CID 0427 - FMI 04
854G and 854K Wheel Dozers and 992G, 992K and 994F Wheel Loaders VIMSTM MID 049 - CID 0427 - FMI 04
854G and 854K Wheel Dozers and 992G, 992K and 994F Wheel Loaders VIMSTM MID 049 - CID 0427 - FMI 06
854G and 854K Wheel Dozers and 992G, 992K and 994F Wheel Loaders VIMSTM MID 049 - CID 0427 - FMI 06
992K Wheel Loader Electrohydraulic System MID 082 - CID 2405 - FMI 03
992K Wheel Loader Electrohydraulic System MID 082 - CID 2405 - FMI 05
992K Wheel Loader Electrohydraulic System MID 082 - CID 2405 - FMI 06
992K Wheel Loader Electrohydraulic System MID 082 - CID 2405 - FMI 13
992K Wheel Loader Electrohydraulic System MID 082 - CID 2409 - FMI 11
992K Wheel Loader Electrohydraulic System MID 082 - CID 2405 - FMI 11