22295879 Volvo.Penta Thermostat


22295879 Thermostat Volvo.Penta TAD1640GE; TAD1641GE; TAD1642GE, TWD1672GE; TWD1673GE; TWD1672-1673GE Thermostat
22295879 Thermostat Volvo Penta
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Buy Thermostat 22295879 Volvo Penta genuine, new aftermarket parts with delivery
Number on catalog scheme: 6
 

Volvo Penta entire parts catalog list:

TAD1640GE; TAD1641GE; TAD1642GE; TAD1650GE; TAD1651GE; TWD1643GE; TWD1652GE; TWD1653GE; TWD1663GE
TWD1672GE; TWD1673GE; TWD1672-1673GE

Information:


Table 1
Diagnostic Trouble Codes for the CAN Data Link Circuit
J1939 Code CDL Code Code Description
(code descriptions may vary) Comments
639-9 247-9 J1939 Network #1 : Abnormal Update Rate Another controller has incorrectly stopped transmitting an expected J1939 message or another controller has incorrectly started transmitting a conflicting J1939 message.
The ECM will log the diagnostic code.
The engine will not start.
1196-2 1639-2 Anti-theft Component Status States : Erratic, Intermittent, or Incorrect The Electronic Control Module (ECM) detects poor communications with the Machine Security System (MSS).
The engine warning lamp will come on and the ECM will log the diagnostic code.
The engine will not start.
1196-9 1639-9 Anti-theft Component Status States : Special Instruction The Electronic Control Module (ECM) detects a loss of communications with the Machine Security System (MSS).
The warning lamp will come on and the ECM will log the diagnostic code.
The engine will not start.
1235-9 5856-9 J1939 Network #3 : Abnormal Update Rate The Pump and Electronics Unit (PEU), the ammonia sensor, the soot sensor, or a NOx sensor has incorrectly stopped or started transmitting a data request.
The ECM will log the diagnostic code.
3360-9 3820-9 Aftertreatment #1 DEF Controller : Abnormal Update Rate The Dosing Control Unit (DCU) has incorrectly stopped or started transmitting a data request.
This diagnostic code applies to the CAN A datalink.
The ECM will log the diagnostic code. The following background information is related to this procedure:The CAN data links are also known as J1939 data links. A data link is an industry standard for sending data between different devices in the same application.High-speed data is transferred via the data links. The data links cannot be accurately tested without complicated equipment. The data links require a resistance of 60 Ohms between the two wires to transmit the data correctly. This resistance is made up of two 120 Ohm resistors. The two resistors are known as "Terminating Resistors". The terminating resistors should be at opposite ends of a data link circuit. If this resistance is not present, then the data will be intermittent or unreadable.Note: The wiring for a J1939 data link is a shielded twisted-pair cable. If the wiring is damaged, the replacement type must be shielded twisted-pair cable.
Illustration 1 g03705249
Typical example of the schematic for the CAN A data link
Illustration 2 g03705266
Typical example of the schematic for the CAN C data link
Table 2
Troubleshooting Test Steps Values Results
1. Use the "System Communication Status to Check the Status of the Other Devices on the Suspect CAN Data Link"
A. In the electronic service tool, click the "Diagnostics" tab on the tool bar.
B. Select the "System Communication Status" option from the drop-down list.
Note: The Aftertreatment #1 Intake NOx Level Sensor is displayed as Aftertreatment #1 Information #1 in some versions of software.
Component Identified
Result: One or more of the devices on the suspect data link is not visible on the electronic service tool.
Repair: Thoroughly inspect the electrical connectors for the suspect devices
Refer to Troubleshooting, "Electrical Connectors - Inspect".
Check the power supply to the suspect devices.
If necessary, refer to Troubleshooting, "Electrical Power Supply - Test".
Inspect the wiring between any suspect devices and the ECM for abrasions and pinch points. If necessary, repair the wiring.
If the suspect device is the DCU, check the ignition keyswitch line between the DCU and the ECM, and between the DCU and tank header unit for continuity. Make any necessary repairs. If necessary, refer to Troubleshooting, "DEF Control Module Power - Test" for the correct procedure to check between DCU and ECM.
To check between the DCU and the DEF tank header unit, use the following procedure:
A. Disconnect the harness at the DEF tank header.
B. Disconnect the harness at the DEF tank header. Turn the keyswitch to the ON position.
C. Measure the voltage between terminals 3 and 4.
D. Turn the keyswitch to the OFF position.
If the fault has been resolved, return the engine to service.
If the fault is still present, proceed to Test Step 2.
Result: All devices are visible on the electronic service tool.
Proceed to Test Step 2.
2. Check the Data Link Terminating Resistance
A. Disconnect the P1 connector from the ECM.
B. Measure the resistance between P1:25 and P1:26.
C. Measure the resistance between the P1:17 and P1:18.
Between 50 Ohms and 70 Ohms
Result: The resistance is less than 50 Ohms - there is a short circuit in the harness.
Repair: Repair the connectors or the harness and/or replace the connectors or the harness. Ensure that all the seals are correctly in place and ensure that the connectors are correctly connected.
Use the electronic service tool to clear all logged diagnostic codes and then verify that the repair eliminates the fault.
Result: The resistance is between 110 and 130 Ohms - one of the terminating resistors may have failed.
Repair: Locate the two terminating resistors and remove the two terminating resistors from the harness. Depending on the application, one or both of the terminating resistors may be located in other ECMs on the data link.
Measure the resistance of the two terminating resistors.
If one of the terminating resistors is incorrect, replace the faulty terminating resistor.
If the two terminating resistors are between 110 and 130 Ohms, proceed to Test Step 4.
Result: The resistance is greater than 150 Ohms.
Proceed to Test Step 3.
Result: The resistance is between 50 and 70 Ohms
The resistance is correct. The fault may be in the connection to other devices on the data link.
Proceed to Test Step 3.
3. Check the Data Link Wiring
A. Disconnect each of the connectors that connect other devices on the data link.
B. Use a multimeter to measure the resistance between P1:25 and each of the CAN+ pins on other devices on the CAN A data link.
C. Use a multimeter to measure the resistance between P1:25 and pin (G) on the diagnostic connector.
D. Use a multimeter to measure the resistance between P1:26 and each of the CAN- pins on other devices on the CAN A data link.
E. Use a multimeter to measure the resistance between P1:26 and pin (F) on the diagnostic connector.
F. Use a multimeter to measure the resistance between P1:17 to each of the CAN+ pins on other devices on the CAN C data


Parts thermostat Volvo Penta:

21412639
Thermostat
21412639 Thermostat
D12D-A MG; D12D-E MG, D12D-A MH; D12D-B MH; D12D-C MH, D13B-A MP; D13B-B MP; D13B-C MP, D13B-E MH; D13B-E MH (FE); D13B-N MH, D13B-F MG; D13B-E MG; D13B-E MG (FE), D13C1-A MP; D13C2-A MP; D13C3-A MP, D16C-A MG, TAD1140VE; TAD1141VE; TAD1142VE, TAD115
21237213
Thermostat
21237213 Thermostat
D13B-A MP; D13B-B MP; D13B-C MP, D13B-E MH; D13B-E MH (FE); D13B-N MH, D13B-F MG; D13B-E MG; D13B-E MG (FE), D16C-A MG, D9A2A; D9A2A MG; D9A2A D9A-MG, TAD1640GE; TAD1641GE; TAD1642GE, TAD1641VE; TAD1642VE; TAD1643VE
21613426
Thermostat
21613426 Thermostat
D16C-A MG, TAD1640GE; TAD1641GE; TAD1642GE, TAD1641VE; TAD1642VE; TAD1643VE, TAD1643VE-B, TAD1650VE-B; TAD1650VE-B/51VE; TAD1651VE, TAD1670VE; TAD1671VE; TAD1672VE, TWD1672GE; TWD1673GE; TWD1672-1673GE
21412642
 
21412642 Thermostat
TAD1640GE; TAD1641GE; TAD1642GE
22322741
 
22322741 Thermostat
TAD1640GE; TAD1641GE; TAD1642GE, TWD1672GE; TWD1673GE; TWD1672-1673GE
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