20587125 Volvo.Penta Compressor


20587125 Compressor Volvo.Penta TAD1340VE; TAD1341VE; TAD1342VE, TAD1350VE, TAD1360VE, TAD1361VE, TAD1363VE Compressor
20587125 Compressor Volvo Penta
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$494.54

11-04-2025
0.1102[0.05] pounds
CN: LENB0722
BOLEUITD SD7H15 7H15 AC Air Conditioning Compressor Compatible for Volvo Truck FH FM FH12 FH16 20587125 84094705 85000458 8500458(24VO)
BOLEUITD Compact space optimization: compact appearance design, occupies very little space, does not affect the layout of the vehicle, efficient refrigeration at the same time, release more practical space in the vehicle || Extreme Environmental Adaptation: Whether it's the scorching desert heat or the bone-chilling polar low temperature, it can work stably and the cooling performance is always the same || Enhance the overall performance: deep integration with the automobile air conditioning system, perfect synergy, significantly improve the overall cooling effect of air conditioning and operational stability, bringing a new experience || Strong durability: long service life and outstanding performance || Wide range of climate adaptation: the compressor maintains its performance in humid and rainy weather as well as hot summer days, adapting to a wide range of climatic conditions
$365.03

11-04-2025
0.1102[0.05] Pounds
CN: CAIWEI51627
SD7H15 Air AC Compressor Compatibility With Volvo Truck FH FM FH16 85000458 20587125 84094705 SANDEN 4324 4326 4134(24V)
YGBTGFAQ The design and manufacturing technology adopted by the compressor can provide better cooling effect, making the air inside the car fresher and more comfortable. || The materials used in compressors and strict manufacturing standards can maintain stable working conditions in various environments, reducing failure rates and maintenance costs. || Compressors have excellent durability and can maintain reliable working conditions during long-term use, extending the service life of automotive air conditioning systems. || The refrigeration efficiency of automotive air conditioning compressors is high, which can provide significant cooling effect in a short period of time || SD7H15 Air AC Compressor Compatibility With Truck FH FM FH16 85000458 20587125 84094705 SANDEN 4324 4326 4134
$387.09

11-12-2024
0.1102[0.05] Pounds
CN: qingxiabaihuodian
SD7H15 7H15 Car Air Conditioner AC Compressor Compatible With VOLVO TRUCK FH FM FH12 FH16 20587125 84094705 85000458 8500458(12V)
ZHENGQIE Low noise, low vibration, reduce the load || Strong compressor compression, rapid cooling || Solve the noise, energy saving and environmental protection || Sufficient pressure of air-conditioning compressor, smooth operation, low output power at high speeds || SD7H15 7H15 Car Air Conditioner AC Compressor Compatible With VOLVO TRUCK FH FM FH12 FH16 20587125 84094705 85000458 8500458
Number on catalog scheme: 1
 

Volvo Penta entire parts catalog list:

TAD1340VE; TAD1341VE; TAD1342VE; TAD1343VE; TAD1344VE; TAD1345VE; TAD1360VE; TAD1361VE; TAD1362VE; TAD1363VE; TAD1364VE; TAD1365VE; TAD1360-
TAD1350VE
TAD1360VE
TAD1361VE
TAD1363VE

Information:


Table 1
Diagnostic Trouble Codes for Ether Injection
J1939 Code CDL Code Code Description Comments
626-5 2417-5 Ether Injection Control Solenoid : Current Below Normal The Electronic Control Module (ECM) detects the following conditions:
A low current condition in the output from the ECM to the solenoid for ether injection
The ECM has been powered for at least 2 seconds.
If equipped, the warning lamp will come on. The ECM will log the diagnostic code.
626-6 2417-6 Ether Injection Control Solenoid : Current Above Normal The Electronic Control Module (ECM) detects the following conditions:
A high current condition in the output from the ECM to the solenoid for ether injection
The ECM has been powered for at least 2 seconds.
If equipped, the warning lamp will come on. The ECM will log the diagnostic code. If there is an active engine shutdown, the ether injection system is disabled .Activation of the ether starting aid is based from a map using the coolant temperature, intake manifold temperature, and atmospheric pressure. Refer to Illustration 1.
Illustration 1 g02445796The following conditions must be met for the ether injection system to be enabled:
Ether injection is set to "Enabled" in the ECM parameters
Engine coolant temperature is less than the "Start Aid Selection Temperature - Coolant". Refer to Illustration 1.
Intake manifold temperature is less than the "Start Aid Selection Temperature - IMAT."
Coolant temperature and intake manifold air temperature are within 11° C of each other.During the following procedure, refer to the electrical schematic for the application.Complete the procedure in the order in which the steps are listed.
Table 2
Troubleshooting Test Steps Values Results
1. Inspect Electrical Connectors and Wiring
A. Remove the electrical power from the ECM.
B. Thoroughly inspect the ECM connector J1/P1. Inspect all the other connectors for the circuit. Refer to the diagnostic functional test Troubleshooting, "Electrical Connectors - Inspect".
C. Perform a 45 N (10 lb) pull test on each of the wires in the ECM connector that are associated with the circuit.
D. Check the ECM connector (allen head screw) for the correct torque of 6 N m (53 lb in).
E. Check the harness and the wiring for abrasion and for pinch points.
Loose connection or damaged wire
Result: The harness and wiring are OK.
Proceed to Test Step 2.
Result: There is a fault in a connector or the wiring.
Repair: Repair any faulty connectors or replace the wiring harness. Ensure that all the seals are properly in place and ensure that the connectors are correctly coupled. Proceed to Test Step 7.
2. Check for Active or Logged Diagnostic Codes
The ether canister must be removed prior to performing this procedure.
A. Verify that the keyswitch is in the OFF position.
B. Remove the ether canister.
C. Connect the electronic service tool to the diagnostic connector.
D. Turn the keyswitch to the ON position.
E. Check for active or logged diagnostic codes that relate to the ether injection system.
Diagnostic codes
Result: No diagnostic codes are present.
Repair: There may be an intermittent fault in an electrical component between the ECM and the harness connector for the ether control. The problem may be inside an electrical connector. Refer to Troubleshooting, "Electrical Connector - Inspect".
Result: A 626-5 (2417-5) code is present.
Proceed to Test Step 3.
Result: A 626-6 (2417-6) code is present.
Proceed to Test Step 5.
3. Create a Short at the Solenoid Connector
A. Verify that the keyswitch is in the OFF position.
B. Disconnect the harness connector from the ether solenoid.
C. Fabricate a jumper wire and install the jumper wire between terminal 1 and terminal 2 on the harness connector for the ether solenoid.
D. Turn the keyswitch to the ON position.
E. Access the "Diagnostic Overrides" screen on the electronic service tool and then activate the ether injection system.
Diagnostic code
Result: A 626-5 (2417-5) diagnostic code was previously active. A 626-6 (2417-6) diagnostic code is active with the jumper installed.
Repair: Replace the ether solenoid assembly.
Proceed to Test Step 7.
Result: The 626-5 (2417-5) diagnostic code remains active.
Proceed to Test Step 4.
4. Check the Wiring for an Open Circuit
A. Verify that the keyswitch is in the OFF position.
B. Disconnect the harness connector from the ether solenoid.
C. Disconnect the P1 connector from the ECM.
D. Use a multimeter to check the resistance between terminal 1 on the solenoid connector and the ether injection signal terminal on the P1 connector.
E. Use a multimeter to check the resistance between terminal 2 on the solenoid connector and the ether injection return terminal on the P1 connector.
Less than 2.0 Ohms
Result: The resistance measurements are both less than 2.0 Ohms.
Proceed to Test Step 7
Result: At least one of the resistance measurements is greater than 2.0 Ohms.
Repair: Replace the wiring between the ether solenoid and the P1 connector.
5. Create an Open Circuit at the Solenoid Connector
A. Verify that the keyswitch is in the OFF position.
B. Disconnect the harness connector from the ether solenoid.
C. Turn the keyswitch to the ON position.
D. Use the electronic service to check for active diagnostic codes. Wait at least 10 seconds for activation of the diagnostic codes.
E. Turn the keyswitch to the OFF position.
Diagnostic codes
Result: A 626-6 (2417-6) diagnostic code was previously active. A 626-5 (2417-5) diagnostic code is active with the solenoid disconnected.
Repair: Install a replacement ether solenoid.
Proceed to Test Step 7.
Result: The 626-6 (2417-6) diagnostic code is still active.
Proceed to Test Step 6.
6. Check the Wiring for a Short Circuit
A. Verify that the keyswitch is in the OFF position.
B. Disconnect the connector for the ether solenoid. Disconnect the P1 connector from the ECM.
C. Use a suitable multimeter to measure the resistance between the following terminals:
The ether injection signal terminal on the P1 connector and all other terminals on the P1 connector.
The ether injection return terminal on the P1 connector and all other terminals on the P1 connector.
Greater than 100 Ohms
Result: All resistance measurements are greater than 100 Ohms.
Proceed to Test Step 7.
Result: At least one of the resistance measurements is less than 100 Ohms.
Repair: Replace the wiring between the ether solenoid and the P1 connector.
Proceed to Test Step 7.
Illustration 2 g03152796
Table 3
Troubleshooting Test Steps Values Results
7. Verify the


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