0396609 STEERING BRACKET EVINRUDE
E10ECCD, E10ECDB, E10ECES, E10ECUE, E15ECCS, E15ECDE, E15ECEC, E15ECUD
STEERING
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$25.04
06-03-2024
US: FOOTGLOSS
FOOTGLOSS 039-6609 for Beck Arnley for Valve Cover Grommets Set of 3 for Subaru for Legacy for Forester for 98
FOOTGLOSS 039-6609 For Beck Arnley for Valve Cover Grommets Set of 3 For Subaru For Legacy For Forester For 98 || for direct for fit for 20042009 for jaguar xj8 , vanden plas xjr || for durable and general purpose heavy duty steel construction || for resistant plating for longlasting seal performance
FOOTGLOSS 039-6609 For Beck Arnley for Valve Cover Grommets Set of 3 For Subaru For Legacy For Forester For 98 || for direct for fit for 20042009 for jaguar xj8 , vanden plas xjr || for durable and general purpose heavy duty steel construction || for resistant plating for longlasting seal performance
$5.73
20-06-2024
0.1[0.05] pounds
Amazon.com
Beck/Arnley 039-6609 Valve Cover Grommet
Beck/Arnley Matches OE form, fit, and function || Made of high quality rubber material || Quality construction for durability || Packaged in clear plastic for easy visibility and identification of all components || Application specific to ensure a correct fit for your vehicle
Beck/Arnley Matches OE form, fit, and function || Made of high quality rubber material || Quality construction for durability || Packaged in clear plastic for easy visibility and identification of all components || Application specific to ensure a correct fit for your vehicle
Number on catalog scheme: 19
BRP EVINRUDE entire parts catalog list:
E10ECDB, E10ELCDB, E10RCDB, E10RLCDB, E10SELCDB 1986
E10ECES, E10ELCES, E10RCES, E10RLCES, E10SELCES, TE10ELCES, TE10RLCES 1989
E10ECUE, E10ELCUE, E10RCUE, E10RLCUE, E10SELCUE 1987
E15ECCS, E15ELCCS, E15RCCS, E15RLCCS 1988
E15ECDE, E15ELCDE, E15RCDE, E15RLCDE 1986
E15ECEC, E15ELCEC, E15RCEC, E15RLCEC, TE15RLCEC 1989
E15ECUD, E15ELCUD, E15RCUD, E15RLCUD 1987
Information:
If a fault occurs with the primary throttle with secondary throttle is installed, the secondary throttle will be used until the fault is repaired.If a fault occurs with the secondary throttle, the engine will use the primary throttle until the fault is repaired.If a functional throttle is not available, the following conditions will occur:
The engine will default to the limp home speed.
If the engine speed is higher than the limp home speed, the engine will decelerate to the limp home speed.
If the engine speed is lower than the limp home speed, the engine speed will remain at the current speed.
The engine will remain at this speed while the diagnostic code remains active.
All inputs from the faulty throttle are ignored by the ECM until the fault is repaired.
All inputs from the repaired throttle will be ignored by the ECM until the keyswitch has been cycled.The diagnostic codes above relate to an analog sensor. Use this procedure only if the analog sensor uses an output from a variable resistor.The sensor is most likely to be mounted on a throttle pedal. The sensor is attached directly to the throttle assembly. The sensor provides an output voltage to the ECM. The sensor output voltage will vary with the position of the throttle. Foot operated or hand operated throttle assemblies are available.The sensor receives +5 VDC power from the ECM. The sensor will produce a raw signal voltage that will alter between low idle and high idle. The voltage is changed into a throttle position within the range 0% to 100% by the ECM.The sensor senses the speed requirement from the throttle position. A second sensor may override this speed requirement from the first sensor. This override will be subject to an input from a secondary throttle or from the SAE J1939 (CAN) data link or from a PTO control.Use the electronic service tool to check the input status.Note: The identification letters for the terminals in the connectors may vary dependent on the manufacturer of the throttle pedal.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. Thoroughly inspect the terminal connections on the P1/J1 ECM connector and the analog throttle position sensors.
Refer to Troubleshooting, "Electrical Connector - Inspect".
B. Perform a 45 N (10 lb) pull test on each of the wires in the ECM connector and the analog throttle position sensor connectors that are associated with the active diagnostic code.
C. Check the screw for the ECM connector for the correct torque of 6 N m (53 lb in).
D. Check the harness for corrosion, abrasion, and pinch points from the analog throttle position sensors to the ECM.
Loose connection or damaged wire
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.
Use the electronic service tool to clear all logged diagnostic codes and verify that the repair eliminates the fault.
Result: All connectors, pins, and sockets are correctly coupled and/or inserted. The harness is free of corrosion, abrasion, and pinch points.
Proceed to Test Step 2.
2. Check for Active Diagnostic Codes
A. Turn the keyswitch to the OFF position.
B. Connect the electronic service tool to the diagnostic connector.
C. Turn the keyswitch to the ON position. Wait at least
The engine will default to the limp home speed.
If the engine speed is higher than the limp home speed, the engine will decelerate to the limp home speed.
If the engine speed is lower than the limp home speed, the engine speed will remain at the current speed.
The engine will remain at this speed while the diagnostic code remains active.
All inputs from the faulty throttle are ignored by the ECM until the fault is repaired.
All inputs from the repaired throttle will be ignored by the ECM until the keyswitch has been cycled.The diagnostic codes above relate to an analog sensor. Use this procedure only if the analog sensor uses an output from a variable resistor.The sensor is most likely to be mounted on a throttle pedal. The sensor is attached directly to the throttle assembly. The sensor provides an output voltage to the ECM. The sensor output voltage will vary with the position of the throttle. Foot operated or hand operated throttle assemblies are available.The sensor receives +5 VDC power from the ECM. The sensor will produce a raw signal voltage that will alter between low idle and high idle. The voltage is changed into a throttle position within the range 0% to 100% by the ECM.The sensor senses the speed requirement from the throttle position. A second sensor may override this speed requirement from the first sensor. This override will be subject to an input from a secondary throttle or from the SAE J1939 (CAN) data link or from a PTO control.Use the electronic service tool to check the input status.Note: The identification letters for the terminals in the connectors may vary dependent on the manufacturer of the throttle pedal.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. Thoroughly inspect the terminal connections on the P1/J1 ECM connector and the analog throttle position sensors.
Refer to Troubleshooting, "Electrical Connector - Inspect".
B. Perform a 45 N (10 lb) pull test on each of the wires in the ECM connector and the analog throttle position sensor connectors that are associated with the active diagnostic code.
C. Check the screw for the ECM connector for the correct torque of 6 N m (53 lb in).
D. Check the harness for corrosion, abrasion, and pinch points from the analog throttle position sensors to the ECM.
Loose connection or damaged wire
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.
Use the electronic service tool to clear all logged diagnostic codes and verify that the repair eliminates the fault.
Result: All connectors, pins, and sockets are correctly coupled and/or inserted. The harness is free of corrosion, abrasion, and pinch points.
Proceed to Test Step 2.
2. Check for Active Diagnostic Codes
A. Turn the keyswitch to the OFF position.
B. Connect the electronic service tool to the diagnostic connector.
C. Turn the keyswitch to the ON position. Wait at least
Parts steering EVINRUDE:
0397001
0397001 STEERING HANDLE ASSY., Inner
B25JREUR, BE20SRECB, BE20SREDA, BE20SREUM, BE25ARECA, BE25AREDC, BE25AREUR, BE25BAECM, BE25BAEDR, BE30BAECS, BE30BAEDE, BE30BAEEC, BE30BAEUD, BE30BASIA, BE30BASSR, BE35ARECR, BE35AREDS, BE35AREEA, BE35AREUC, BE35ARSIB, BE35ARSSM, BE40EECR, BE40EEDS,
0396566
0396567
