File: 16-t05-195-2wire Page 1 of 10 TROUBLESHOOTING SUMMARY CAUTION To reduce the possibility of damaging a new ECM, all other active fault codes must be investigated prior to replacing the ECM. CAUTION To reduce the possibility of pin and harness damage, use the following test leads when taking a measurement:part Number 3822758 - male Deutsch/AMP/Metri-Pack test leadpart Number 3164133 - male Deutsch/AMP/Metri-Pack test lead. STEPS SPECIFICATIONS SRT CODE STEP 1: Check the fault codes. STEP 1A: Check for an active fault code. Fault Code 195 active? STEP 2: STEP 2A: Check the engine coolant level sensor and circuit. Inspect the engine coolant level sensor and connector pins. STEP 2B: Check the sensor resistance. Greater than 800k ohms? STEP 3: STEP 3A: STEP 3B: STEP 3B 1: STEP 3C: Check the ECM and OEM harness. Inspect the ECM and OEM harness connector pins. Check for an open circuit in the OEM harness. Check for an open circuit in the OEM harness. Check for a pin-to-pin short circuit in the OEM harness. Greater than 100k ohms? STEP 3D: Check for an inactive fault code. Fault Code 195 inactive? STEP 4: Clear the fault code. STEP : Disable the fault code. Fault Code 195 inactive? STEP 4B: Clear the inactive fault code. All fault codes cleared?
File: 16-t05-195-2wire Page 2 of 10 STEP 1: STEP 1A: Check the fault codes. Check for an active fault code. Turn keyswitch ON. Connect INSITE electronic service tool. TROUBLESHOOTING STEP Check for an active fault code. Use INSITE electronic service tool to read the fault codes. Fault Code 195 active? Fault Code 195 active? 2A Refer to Procedure 019-362 (Inactive or Intermittent Fault Codes) in Section 19 STEP 2: STEP 2A: Check the engine coolant level sensor and circuit. Inspect the engine coolant level sensor and connector pins. Disconnect the OEM harness from the ECM. Inspect the OEM harness and engine coolant level sensor connector pins for the following: Loose connector Corroded pins Bent or broken pins Pushed back or expanded pins Moisture in or on the connector Missing or damaged connector seals Dirt or debris in or on the connector pins Wire insulation damage Connector shell broken Damaged locking tab connector Refer to Procedure For general inspection techniques, 019-361 (Component Connector and Pin Inspection) in Section 19. A defective connection has been detected in the ECM connector or OEM harness connector. Clean the connector and pins. Repair the damaged harness, connector, or pins if possible. Refer to Procedure 019-071 (OEM Wiring Harness) in Section 19. 2B
File: 16-t05-195-2wire Page 3 of 10 STEP 2B: Check the sensor resistance. Disconnect the engine coolant level sensor from the OEM harness. Check the sensor resistance. Measure the resistance between the engine coolant level SIGNAL pin and the engine coolant level RETURN pin at the engine coolant level sensor connector. Refer to the circuit diagram or the wiring diagram for connector pin identification. Refer to Procedure For general resistance measurement techniques, 019-360 (Resistance Measurements Using a Multimeter) in Section 19 and a wiring diagram. Greater than 800k ohms? Replace the engine coolant level sensor. Refer to Procedure 019-017 (Engine Coolant Level Sensor) in Section 19. Greater than 800k ohms? 3A
File: 16-t05-195-2wire Page 4 of 10 STEP 3: STEP 3A: Check the ECM and OEM harness. Inspect the ECM and OEM harness connector pins. Disconnect the OEM harness from the ECM. Inspect the OEM harness and ECM connector pins for the following: Loose connector Corroded pins Bent or broken pins Pushed back or expanded pins Moisture in or on the connector Missing or damaged connector seals Dirt or debris in or on the connector pins Wire insulation damage Connector shell broken Damaged locking tab connector Refer to Procedure For general inspection techniques, 019-361 (Component Connector and Pin Inspection) in Section 19. A defective connection has been detected in the ECM connector or OEM harness connector. Clean the connector and pins. Repair the damaged harness, connector or pins, if possible. Refer to Procedure 019-071 (OEM Wiring Harness) in Section 19. 3B
File: 16-t05-195-2wire Page 5 of 10 STEP 3B: Check for an open circuit in the OEM harness. Disconnect the OEM harness from the ECM. Disconnect the engine coolant level sensor from the OEM harness. Check for an open circuit. Measure the resistance between the OEM harness ECM connector engine coolant level sensor RETURN pin and the OEM harness engine coolant level sensor connector RETURN pin. Refer to the circuit diagram or the wiring diagram for connector pin identification. Refer to Procedure For general resistance measurement techniques, 019-360 (Resistance Measurements Using a Multimeter) in Section 19 and a wiring diagram. An open RETURN circuit has been detected in the OEM harness. Repair or replace the OEM harness. Refer to Procedure 019-071 (OEM Wiring Harness) in Section 19. 3B-1
File: 16-t05-195-2wire Page 6 of 10 STEP 3B-1: Check for an open circuit in the OEM harness. Disconnect the OEM harness from the ECM. Disconnect the engine coolant level sensor from the OEM harness. Check for an open circuit. Measure the resistance between the OEM harness ECM connector engine coolant level sensor SIGNAL pin and the engine coolant level sensor connector SIGNAL pin. Refer to the circuit diagram or the wiring diagram for connector pin identification. Refer to Procedure For general resistance measurement techniques, 019-360 (Resistance Measurements Using a Multimeter) in Section 19 and a wiring diagram. An open SIGNAL circuit has been detected in the OEM harness. Repair or replace the OEM harness. Refer to Procedure 019-071 (OEM Wiring Harness) in Section 19. 3C
File: 16-t05-195-2wire Page 7 of 10 STEP 3C: Check for a pin-to-pin short circuit in the OEM harness. Disconnect the OEM harness form the ECM. Disconnect the engine coolant level sensor from the OEM harness. Check for a pin-to-pin short. Measure the resistance between the engine coolant level SIGNAL pin in the OEM harness ECM connector and all other pins in the OEM harness connector. Refer to the circuit diagram or the wiring diagram for connector pin identification. Refer to Procedure For general resistance measurement techniques, 019-360 (Resistance Measurements Using a Multimeter) in Section 19 and a wiring diagram. Greater than 100k ohms? Greater than 100k ohms? A pin-to-pin short circuit on the SIGNAL line has been detected in the OEM harness. Repair or replace the OEM harness. Refer to Procedure 019-071 (OEM Wiring Harness) in Section 19. 3D
File: 16-t05-195-2wire Page 8 of 10 STEP 3D: Check for an inactive fault code. Connect all components. Turn keyswitch ON. Connect INSITE electronic service tool. Check for the appropriate circuit response after 30 seconds. Use INSITE electronic service tool to read the fault codes. Fault Code 195 inactive? None. The removal and installation of the connector corrected the fault. Fault Code 195 inactive? Call for authorization to replace the ECM.Refer to Procedure Upon receipt of authorization, 019-031 (Electronic Control Module (ECM)) in Section 19. STEP 4: STEP : Clear the fault codes. Disable the fault code. Connect all components. Connect INSITE electronic service tool. Disable the fault code. Start the engine and let it idle for 1 minute. Use INSITE electronic service tool to verify the fault code is inactive. Fault Code 195 inactive? Fault Code 195 inactive? Return to the troubleshooting steps or contact your local Cummins Authorized Repair Location if all steps have been completed and checked again. 4B 1A
File: 16-t05-195-2wire Page 9 of 10 STEP 4B: Clear the inactive fault codes. Connect all components. Turn keyswitch ON. Connect INSITE electronic service tool. Clear the inactive fault codes. Use INSITE electronic service tool to clear the inactive fault codes. All fault codes cleared? All fault codes cleared? Repair complete Appropriate troubleshooti ng steps
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