Note: The GSC does not receive battery power when the ECS is in the OFF/RESET position. The GSC does receive power when the contact "6" and the contact "9" of the ECS are jumpered.
The GSC treats a CID 168 as an alarm fault.
Procedure
The GSC receives information on the battery voltage from the engine ECM by the CAT data link. Therefore, see the topic "P-503" in Troubleshooting, SENR1003, "3500B EPG Engines" for a FMI 3. The setpoint for the system voltage (P07) specifies the battery voltage as "0" for 24 volts and "1" for 32 volts. Clear the diagnostic code from the fault log after troubleshooting is complete.
The following table defines the possible causes of the various CID 168 diagnostic codes that are displayed by the engine ECM and the GSC:
Possible Causes For CID 168     | |||
---|---|---|---|
Displayed On     | Diagnostic Code     | Battery Voltage Thresholds (24 Volt Battery System)     | Battery Voltage Thresholds (24 Volt And 32 Volt Systems)     |
Engine ECM     | 168 E 00     | Engine is running, and battery voltage is greater than 32 DCV for at least two seconds     | |
Engine ECM     | 168 E 01     | Engine is not running, and battery voltage is less than 9 DCV for two seconds     | |
Engine ECM     | 168 E 02     | Engine running or not, and battery voltage is less than 9 DCV for 0.06 seconds and returns, or battery voltage is less than 9 DCV three times in the last seven seconds     | |
GSC     | 168 03     | Engine is running or not, and battery voltage is greater than 32 DCV for a 24 volt systems or 45 DCV for a 32 volt systems     | |
GSC     | 168 04     | Engine is running or not, and battery voltage is less than 18 DCV for both a 24 and a 32 volt systems.     |
The possible cause of this diagnostic code is the battery voltage is greater than 32 DCV for a 24 volt systems. Another cause is that the battery voltage is greater than 45 DCV for a 32 volt systems. The setpoint for system voltage (P07) specifies the battery voltage as "0" for 24 volts and "1" for 32 volts. Clear the diagnostic code from the fault log after troubleshooting is complete.
This procedure is used for troubleshooting an active fault or an inactive fault. Active alarm faults are shown on the upper display when the alarm codes key is pressed and the ECS is in any position except the OFF/RESET position. Inactive alarm faults are viewed in the fault log while the operator is in service mode. See Systems Operation, "Fault Log Viewing OP1".
- Verify the fault.
- View the upper display and check for active diagnostic faults for the battery voltage (CID 168 FMI 3).
- Enter service mode and check the fault log for inactive diagnostic faults for the battery voltage (CID 168 FMI 3).
Expected Result: A CID 168 FMI 3 is active.
Results:
- No - Battery voltage diagnostic faults, DO NOT EXIST. STOP.
- Yes - Battery voltage diagnostic faults, DO EXIST. Proceed to next step.
- No - Battery voltage diagnostic faults, DO NOT EXIST. STOP.
- Check the voltage.
- Turn the ECS to the STOP position.
- Note the battery voltage that is showing on the lower display.
- Measure the voltage (DCV) between the terminals of the battery.
- Measure the voltage (DCV) between RM-1 (B+) and RM-28 (B-) of the terminal strip on the relay module.
Expected Result: The three voltages (preceding step 2.b, 2.c and 2.d) should be within 2.0 volt of each other.
Results:
- OK - All voltages agree (less than 2.0 DCV difference). Proceed to step 4.
- NOT OK - Voltage measured at the batteries does not agree (greater than 2.0 DCV difference) with voltage measured at relay module terminal strip. Proceed to step 3.
- NOT OK - Voltage that is showing on the lower display does not agree (greater than 2.0 DCV difference) with voltage measured at relay module terminal strip. Replace the GSC. See the Testing And Adjusting, "EMCP Electronic Control (Generator Set) - Replace". STOP.
- OK - All voltages agree (less than 2.0 DCV difference). Proceed to step 4.
- Check the harness.
- Disconnect the "B+" and "B-" cables from the battery.
- Disconnect the "B+" wire from RM-1 and the "B-" wire from RM-28 of the terminal strip on the relay module.
- Measure the resistance of each wire. Measure the resistance from the end of the battery to the end of the terminal strip.
Expected Result: The resistance of a single harness wire should be 5 ohms or less.
Results:
- OK - Both resistance measurements are correct. Therefore, an intermittent harness problem is likely. To further check the harness, proceed to Testing And Adjusting, "Electrical Connector - Inspect". STOP.
- NOT OK - A resistance measurement is greater than 5 ohms. The harness wiring with the incorrect resistance measurement is faulty. Troubleshoot and repair the faulty harness wiring between the battery and the terminal strip on the relay module.
- OK - Both resistance measurements are correct. Therefore, an intermittent harness problem is likely. To further check the harness, proceed to Testing And Adjusting, "Electrical Connector - Inspect". STOP.
- Check the system voltage.
- Ensure that the engine is off. Measure the system voltage at the battery.
Expected Result: For 24 volt systems, the battery voltage should be from 24.8 to 29.5 DCV. For 32 volt systems, the battery voltage should be from 33.1 to 39.3 DCV.
Results:
- OK - This procedure did not find the cause of the fault. The GSC is an unlikely cause of this diagnostic code. If the batteries or the charging system are suspect, perform "Charging System - Test". See Testing And Adjusting, "Charging System - Test". If an intermittent harness or a terminal problem is suspected, proceed to Testing And Adjusting, "Electrical Connector - Inspect". If the diagnostic code is not discovered, clear the fault log. Check for another occurrence of a CID 168. If a CID 168 persists, replace the GSC. See Testing And Adjusting, "EMCP Electronic Control (Generator Set) - Replace". STOP.
- NOT OK - The battery voltage is NOT correct. The charging system and/or the batteries are faulty. Perform the "Charging System - Test". See Testing And Adjusting, "Charging System - Test". STOP.
- OK - This procedure did not find the cause of the fault. The GSC is an unlikely cause of this diagnostic code. If the batteries or the charging system are suspect, perform "Charging System - Test". See Testing And Adjusting, "Charging System - Test". If an intermittent harness or a terminal problem is suspected, proceed to Testing And Adjusting, "Electrical Connector - Inspect". If the diagnostic code is not discovered, clear the fault log. Check for another occurrence of a CID 168. If a CID 168 persists, replace the GSC. See Testing And Adjusting, "EMCP Electronic Control (Generator Set) - Replace". STOP.
- Ensure that the engine is off. Measure the system voltage at the battery.