0328299 DRIESHAFT,Sel only EVINRUDE
BE10FAEDC, BE10FAEUR, BE8FRBECA, BE8FRBEDC, BE8FRBEUR, E10ECCD, E10ECDB, E10ECES, E10ECOM, E10ECUE, E10EEIR, E10EENA, E10EERB, E10EESC, E10EETM, E10ELCRA, E10ELCTC, E10FOECA, E15ECCS, E15ECDE, E15ECEC, E15ECOB, E15ECRM, E15ECTR, E15ECUD, E15EEIA, E15
DRIESHAFT
Price: query
Compatible models:
BRP EVINRUDE entire parts catalog list:
- GEARCASE » 0328299
BE8FRBECA, BE8FRBLECA, E8FRECA, E8FRLECA, E8FRXECA 1998
BE8FRBEDC, BE8FRBLEDC, BE8FRBXEDC, E8FREDC, E8FRXEDC, HE8FREDC, HE8FRLEDC 1996
BE8FRBEUR, BE8FRBLEUR, BE8FRBXEUR, E8FREUR, E8FRXEUR, HE8FREUR, HE8FRLEUR 1997
E10ECCD, E10ELCCD, E10RCCD, E10RLCCD, E10SELCCD 1988
E10ECDB, E10ELCDB, E10RCDB, E10RLCDB, E10SELCDB 1986
E10ECES, E10ELCES, E10RCES, E10RLCES, E10SELCES, TE10ELCES, TE10RLCES 1989
E10ECOM, E10ELCOM, E10RCOM, E10RLCOM, E10SELCOM 1985
E10ECUE, E10ELCUE, E10RCUE, E10RLCUE, E10SELCUE 1987
E10EEIR, E10ELEIR, E10REIR, E10RELEIR, E10RLEIR, E10SELEIR, TE10RELEIR 1991
E10EENA, E10ELENA, E10RELENA, E10RENA, E10RLENA, E10SELENA, TE10RELENA 1992
E10EERB, E10ELERB, E10RELERB, E10RERB, E10RLERB, E10SELERB 1994
E10EESC, E10ELESC, E10RELESC, E10RESC, E10RLESC, E10SELESC, TE10ELESC, TE10RELESC, TE10RLESC 1990
E10EETM, E10ELETM, E10RELETM, E10RETM, E10RLETM, E10SELETM, TE10RELETM 1993
E10ELCRA, E10RCRA, E10RLCRA, E10SELCRA 1984
E10ELCTC, E10RCTC, E10RCTR, E10RLCTC, E10SELCTC 1983
E10FOECA, E10FOLECA, HE10FELECA 1998
E15ECCS, E15ELCCS, E15RCCS, E15RLCCS 1988
E15ECDE, E15ELCDE, E15RCDE, E15RLCDE 1986
E15ECEC, E15ELCEC, E15RCEC, E15RLCEC, TE15RLCEC 1989
E15ECOB, E15ELCOB, E15RCOB, E15RLCOB 1985
E15ECRM, E15ELCRM, E15RCRM, E15RLCRM 1984
E15ECTR, E15ELCTR, E15RCTA, E15RCTR, E15RLCTA, E15RLCTR 1983
E15ECUD, E15ELCUD, E15RCUD, E15RLCUD 1987
E15EEIA, E15ELEIA, E15REIA, E15RELEIA, E15RLEIA 1991
E15EENM, E15ELENM, E15RELENM, E15RENM, E15RLENM 1992
E15EERE, E15ELERE, E15RELERE, E15RERE, E15RLERE 1994
E15EESR, E15ELESR, E15RELESR, E15RESR, E15RLESR 1990
E15EETB, E15ELETB, E15RELETB, E15RETB, E15RLETB 1993
Information:
Table 1
Diagnostic Codes Table
Code and Description Conditions which Generate this Code System Response
91-8 Throttle Position Sensor abnormal frequency, pulse width, or period The Electronic Control Module (ECM) detects an incorrect frequency on the throttle signal or an incorrect duty cycle on the throttle signal. The frequency is below 150 Hz or the frequency in above 1000 Hz. The duty cycle is less than 5 percent or the duty cycle is greater than 95 percent.
This code is used when the parameter for the "Desired Speed Input Configuration" is configured to "PWM". The code is logged. The ECM flags the throttle position as invalid data and a default value of zero percent is used. The engine speed is limited to high idle.
1690-8 Throttle #2 Position Sensor abnormal frequency, pulse width, or period The ECM detects an incorrect value for the throttle signal. The value for the analog input is outside the range of zero to five volts.
This code is used when the parameter for the "Desired Speed Input Configuration" is configured to "0 - 5 VDC". The Electronic Control Module (ECM) can be configured to receive three different types of throttle signals for the engine throttle control:"PWM" - The Pulse Width Modulated signal (PWM) must be received via terminal P1-66 at the ECM connector."CAN Input" - A J1939 signal is received via the CAN data link."0 - 5 VDC" - This analog signal must be received via terminal P1-1 at the ECM connector.The signals must be present at the respective inputs in order for the signals to be received by the ECM.The ECM also allows a primary throttle and a secondary throttle to be configured for the engine. The type of signal that will be used for the primary throttle is configured by setting the "Desired Speed Input Configuration" parameter. The type of signal that will be used for the secondary throttle is configured by setting the "Secondary Desired Speed Input Configuration" parameter. For information on these parameters, refer to Troubleshooting, "Configuration Parameters".Note: Configuring both of these parameters to the same setting will invalidate the setting for the secondary throttle.The ECM will utilize the signal that is defined as the primary throttle as long as a valid signal is available from the expected source. If the signal from the primary throttle becomes unavailable, the ECM will use the signal that is defined as the secondary throttle. If both of these throttle signals become unavailable, the ECM will use the rated speed of the engine as the setpoint for the desired engine speed.From the factory, the ECM is configured to receive the primary throttle via the CAN data link (J1939 broadcast). The secondary throttle is configured to be received at terminal P1-66 of the ECM connector (PWM signal). The speed control provides a PWM signal for the secondary throttle at this location.Two available throttle signals are unused for this application. Refer to Illustration 1. The second is the inputs for the analog throttle at terminal P2-95.
Illustration 1 g01563453
Schematic of the circuit for the speed control
Test Step 1. Inspect the Electrical Connectors and the Wiring
Remove the electrical power from the ECM.
Illustration 2 g01564874
Location of the connectors at the control box that are for the speed control
(1) J1/P1 ECM connectors
(2) J2/P2 ECM connectors
(3) Engine interface connectors
Thoroughly inspect connectors (1), (2), and (3). Inspect all of the connectors in the harness from the engine interface connector to the speed control that are associated with the circuit. Refer to Troubleshooting, "Electrical Connectors - Inspect" for details.
Illustration 3 g01564895
Terminal locations at the P1 ECM connector for the speed control
(P1-1) Secondary throttle
(P1-66) Primary throttle
Illustration 4 g01564934
Terminal locations at the P2 ECM connector for the speed control
(P2-95) Analog throttle
Illustration 5 g01564973
Terminal locations at the engine interface connector for the speed control
(Terminal 15) Analog throttle
(Terminal 66) Primary throttle
(Terminal 68) Secondary throttle
Perform a 45 N (10 lb) pull test on each of the wires in the ECM connectors, the engine interface connector, and the connector for the EMCP that are associated with the circuit.
Check the torque of the allen head screws for each of the ECM connectors. Refer to Troubleshooting, "Electrical Connectors - Inspect" for the correct torque values.
Check the harness and the wiring for abrasion and for pinch points from the batteries to the ECM. Expected Result:All connectors, pins, and sockets are completely coupled and/or inserted, and the harness and wiring are free of corrosion, of abrasion and of pinch points.Results:
OK - The connectors and wiring appear to be OK. Proceed to Test Step 2.
Not OK - The connectors and/or wiring are not OK.Repair: Repair the wiring and/or the connectors. Replace parts, if necessary. Verify that the original problem has been resolved.STOPTest Step 2. Check for Active Diagnostic Codes
Connect Caterpillar Electronic Technician (ET) to the service tool connector.
Restore the electrical power to the ECM.
Monitor the active diagnostic code screen on Cat ET. Check for an active 08 code for the throttle signal. Note: Wait at least 30 seconds in order for the diagnostic codes to become active.
Remove the electrical power from the ECM. Expected Result:No diagnostic codes are active.Results:
OK - No diagnostic codes are active.Repair: If the above code has been logged, there may be an intermittent problem in the harness or in a connector. Refer to Troubleshooting, "Electrical Connectors - Inspect" in order to troubleshoot intermittent electrical problems.If a problem with the speed control circuit is suspected, proceed to Test Step 3.
Not OK - A 08 diagnostic code is active at this time. The ECM has detected an erratic signal at the input for the throttle signal. Proceed to Test Step 3.Test Step 3. Check the Supply Voltage to the Speed Control
Restore the electrical power to the ECM.
Start the engine.
Measure the voltage between terminals +B and −B at the speed control.
Stop the engine. Remove the electrical power from the ECM. Expected Result:The supply voltage is 24 3.0 VDC at the speed control.Results:
OK - The engine started and the supply voltage is 24 3.0 VDC at the spe