22008175 Damping element Volvo.Penta
TAD1140VE; TAD1141VE; TAD1142VE, TAD1150VE; TAD1151VE; TAD1152VE, TAD1170VE; TAD1171VE; TAD1172VE, TAD1351VE; TAD1352VE; TAD1353VE, TAD1371VE; TAD1372VE; TAD1373VE, TAD1643VE-B, TAD1650VE-B; TAD1650VE-B/51VE; TAD1651VE, TAD1670VE; TAD1671VE; TAD1672V
Damping
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Compatible models:
Volvo Penta entire parts catalog list:
- Electric system, engine wiring harness » 22008175
TAD1170VE; TAD1171VE; TAD1172VE; TAD1170-72VE
TAD1351VE; TAD1352VE; TAD1353VE; TAD1351-53VE
TAD1371VE; TAD1372VE; TAD1373VE; TAD1374VE; TAD1375VE; TAD1371-75VE
TAD1643VE-B
TAD1650VE-B; TAD1650VE-B/51VE; TAD1651VE
TAD1670VE; TAD1671VE; TAD1672VE; TAD1670-72VE
TWD1672GE; TWD1673GE; TWD1672-1673GE
Information:
Table 1
Diagnostic Codes Table
J1939 Code and Description Comments
105-3
Engine Intake Manifold #1 Temperature : Voltage Above Normal The Electronic Control Module (ECM) detects the following conditions: The signal voltage from the intake manifold air temperature sensor is greater than 4.95 VDC for more than 8 seconds. Engine coolant temperature is above −10 °C (15.0 °F). The ECM will use the default value of 70 °C (158 °F) for the intake manifold air temperature. "Voltage High" will be displayed next to the status for "Intake Manifold Air Temperature" on the electronic service tool. The engine may show the following symptoms: Poor stability, Poor cold running, Poor acceleration under load, White smoke
105-4
Engine Intake Manifold #1 Temperature : Voltage Below Normal The ECM detects the following conditions: The signal voltage from the intake manifold air temperature sensor is less than 0.2 VDC for more than 8 seconds. The ECM will use the default value of 70°C (158°F) for the intake manifold air temperature. "Voltage Low" will be displayed next to the status for "Intake Manifold Air Temperature" on the electronic service tool. The engine may show the following symptoms: Poor stability Poor cold running, Poor acceleration under load, White smoke.
110-3
Engine Coolant Temperature Sensor : Voltage Above Normal The code is logged if the engine has been running for more than 7 minutes and an open circuit has been detected.
110-4
Engine Coolant Temperature Sensor : Voltage Below Normal The code is logged. The ECM detects voltage that is not in the acceptable range.
172-3
Air Inlet Temperature Sensor : Voltage Above Normal The code is logged.
The ECM detects voltage that is not in the acceptable range.
172-4
Air Inlet Temperature Sensor : Voltage Below Normal The code is logged.
The ECM detects voltage that is not in the acceptable range.
174-3
Fuel Temperature Sensor : Voltage Above Normal The code is logged. The ECM will flag the fuel temperature as invalid data and the fuel temperature is set to a default value of 40 °C (104 °F).
174-4
Fuel Temperature Sensor : Voltage Below Normal
175-3
Engine Oil Temperature Sensor:Voltage Above Normal The code is logged. The ECM detects voltage that is not in the acceptable range.
175-4
Engine Oil Temperature Sensor:Voltage Below Normal The code is logged. The ECM detects voltage that is not in the acceptable range.
441–3
Auxiliary Temperature #1 : Voltage Above Normal The ECM detects the following conditions:
The signal voltage from the hydraulic oil temperature sensor is greater than 4.975 VDC for more than 8 seconds.
441–4
Auxiliary Temperature #1 : Voltage Below Normal The ECM detects the following conditions:
The signal voltage from the hydraulic oil temperature sensor is less than 0.2 VDC for more than 8 seconds. System OverviewThe sensor signal for the passive sensor is routed from the ECM to terminal 1 of each sensor connector. The sensor return for the passive sensors is routed to the ECM from terminal 2 of each sensor connector.Diagnostics on the Caterpillar Electronic Technician (ET)Wiggle Test - The Wiggle Test allows you to monitor the status of the signals from the sensors.For additional information regarding the Wiggle Test, refer to the documentation that accompanies the Cat ET software.
Illustration 1 g01155187
Terminal locations at the connector for the passive analog sensors
(Terminal 1) Sensor signal
(Terminal 2) Analog sensor return
Illustration 2 g06206642Complete the procedure in the order in which the steps are listed.
Table 2
Troubleshooting Test Steps Values Results
1. Check for Diagnostic Trouble Codes
A. Connect to Caterpillar® Electronic Technician (Cat ET).
B. Turn the keyswitch to the ON position.
C. Access the "Active Diagnostic Code" screen on Cat ET.
Wait at least 30 seconds in order for the diagnostic codes to become active.
D. Look for these active codes or logged codes:
1. -3
2. -4
Codes
Result: A -3 diagnostic code is active.
Proceed to Test Step 2.
Result: A -4 diagnostic code is active.
Proceed to Test Step 3.
Result: For a diagnostic code that is logged but not currently active, Proceed to Test Step 4.
2. Create a Short at the Sensor Connector
A. Turn the keyswitch to the OFF position.
B. Disconnect the suspect sensor.
C. Install the jumper wire between terminal 1 (sensor signal) and terminal 2 (sensor return) at the sensor connector.
D. Turn the keyswitch to the ON position.
E. Monitor the diagnostic codes on Cat ET. Check for an active -4 diagnostic code for the suspect sensor.
Wait at least 30 seconds in order for the diagnostic codes to become active.
F. Turn the keyswitch to the OFF position.
Short Circuit Recognized
Result: The -3 diagnostic code remains active for the suspect sensor.
Repair: There is an open in the harness. Repair the wiring or replace the harness.
Verify that the problem is resolved.
Result: A -4 diagnostic code became active after creating the short at the sensor connector.
Repair: The wiring is OK. Replace the sensor.
Verify that the problem is resolved.
3. Create an Open at the Suspect Sensor Connector
A. Turn the keyswitch to the OFF position.
B. Disconnect the sensor connector of the suspect sensor with the active -4 diagnostic code.
C. Turn the keyswitch to the ON position.
D. Monitor the diagnostic codes on Cat ET. Check for an active -3 diagnostic code for the suspect sensor.
For a 110-3 code, start the engine and let the engine idle for 7 minutes. The engine must be running for at least 7 minutes in order for the diagnostic to run.
E. Turn the keyswitch to the OFF position.
Open Circuit Recognized
Result: The -4 diagnostic code remains active for the suspect sensor.
Repair: There is an open in the harness. Repair the wiring or replace the harness.
Verify that the problem is resolved.
Result: A -3 diagnostic code became active after disconnecting the sensor.
Repair: The wiring is OK. Replace the sensor.
Verify that the problem is resolved.
4. Perform the Wiggle Test
Carefully following this procedure is the best way to identify the root cause of an intermittent problem.
A. Turn the keyswitch to the ON position.
B. Use Cat ET to run the "Wiggle Test".
C. Slowly wiggle the wiring and the connectors between the P2 connector and the sensor. Slowly wiggle the wiring and the connectors between the P1 connector and the sensor. Pay particular attention to the wiring near each connector. Be sure to wiggle all of the wiring.
D. As you wiggle the wiring look