5001722 THROTTLE ARM & PIN EVINRUDE
E100FPLSOC, E100FPLSRS, E115FPLSDS, E115FPLSIF, E115FPLSNF, E115FPLSOD, E115FPLSRE, E115FPLSSH, E115FPLSTB, E115FPXSDS, E115FPXSOD, E115FPXSRE, E115FSLSDS, E135FCXSDE, E135FCXSIF, E135FCXSNF, E135FCXSOB, E135FCXSRM, E135FCXSSS, E135FCXSTA, E135FPLSDE
THROTTLE
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Compatible models:
E100FPLSOC
E100FPLSRS
E115FPLSDS
E115FPLSIF
E115FPLSNF
E115FPLSOD
E115FPLSRE
E115FPLSSH
E115FPLSTB
E115FPXSDS
E115FPXSOD
E115FPXSRE
E115FSLSDS
E135FCXSDE
E135FCXSIF
E135FCXSNF
E135FCXSOB
E135FCXSRM
E135FCXSSS
E135FCXSTA
E135FPLSDE
E135FPLSOB
E135FPLSRM
E135FPLSTA
E135FPLSTF
E135FPXSDE
E135FPXSOB
E135FPXSRM
E135FSLSDE
E135FSLSTA
E135FSLSTF
E150FCXSDR
E150FCXSIF
E150FCXSNF
E150FCXSOC
E150FCXSRS
E150FCXSSM
E150FCXSTD
E150FHLSDR
E150FHLSOC
E150FHLSRS
E150FPLSDR
E150FPLSOC
E150FPLSRS
E150FPLSTD
E150FPLSTF
E150FPXSDR
E150FPXSOC
E150FPXSRS
E150FSLSDR
E150FSLSTF
E175FCXSDS
E175FCXSIF
E175FCXSNF
E175FCXSOD
E175FCXSRE
E175FCXSSR
E175FCXSTB
E175FPLSDS
E175FPLSOD
E175FPLSRE
E175FPLSTB
E175FPLSTF
E175FPXSDS
E175FPXSOD
E175FPXSRE
E175FSLSDD
E175FSLSTF
E175MFXSOS
E75FPLSIF
E75FPLSNF
E75FPLSSH
E75FPLSTA
E90FPLSIF
E90FPLSNF
E90FPLSSH
E90FPLSTB
EVINRUDE
BRP EVINRUDE entire parts catalog list:
- THROTTLE LINKAG » 5001722
E115FPLSDS 2006
E115FPLSIF, E115FPXSIF, E115FSLSIF, RE115FLSIF, RE115FSSIF, RE115FXSIF 2001
E115FPLSNF, E115FPXSNF 2002
E115FPLSOD, E115FSLSOD 2004,2005
E115FPLSRE, E115FSLSRE 2004
E115FPLSSH, E115FPLSSR, E115FPXSSH, E115FPXSSR, E115FSLSSH, E115FSLSSR, RE115FLSSSH, RE115FLSSSR, RE115FPLSSH, RE115FPLSSR, RE115FSSSH, RE115FSSSR, RE115FXSSH, RE115FXSSR 2000
E115FPLSTB, E115FPXSTB, E115FSLSTB 2003
E115FPXSDS 2006
E115FPXSOD 2004,2005
E115FPXSRE 2004
E115FSLSDS 2006
E135FCXSDE 2006
E135FCXSIF, E135FPLSIF, E135FSLSIF, E135FSXSIF, RE135FCSIF, RE135FLSIF, RE135FXSIF 2001
E135FCXSNF, E135FPLSNF, E135FPXSNF 2002
E135FCXSOB 2004,2005
E135FCXSRM 2004
E135FCXSSS, E135FPLSSS, E135FSLSSS, E135FSXSSS, RE135FCSSS, RE135FLSSS, RE135FXSSS 2000
E135FCXSTA 2003
E135FPLSDE 2006
E135FPLSOB, E135FSLSOB 2004,2005
E135FPLSRM, E135FSLSRM 2004
E135FPLSTA, E135FPXSTA 2003
E135FPLSTF 2003
E135FPXSDE 2006
E135FPXSOB 2004,2005
E135FPXSRM 2004
E135FSLSDE 2006
E135FSLSTA 2003
E135FSLSTF 2003
E150FCXSDR 2006
E150FCXSIF, E150FPLSIF, E150FPXSIF, E150FSLSIF, RE150FCSIF, RE150FLSIF, RE150FSSIF, RE150FXSIF 2001
E150FCXSNF, E150FPLSNF, E150FPXSNF 2002
E150FCXSOC 2004,2005
E150FCXSRS 2004
E150FCXSSM, E150FCXSSV, E150FPLSSM, E150FPLSSV, E150FPXSSM, E150FPXSSV, E150FSLSSM, E150FSLSSV, RE150FCSSM, RE150FCSSV, RE150FLSSM, RE150FLSSV, RE150FSSM, RE150FSSV, RE150FXSSM, RE150FXSSV 2000
E150FCXSTD 2003
E150FHLSDR 2006
E150FHLSOC 2004,2005
E150FHLSRS 2004
E150FPLSDR 2006
E150FPLSOC, E150FSLSOC 2004,2005
E150FPLSRS, E150FSLSRS 2004
E150FPLSTD, E150FPXSTD, E150FSLSTD 2003
E150FPLSTF 2003
E150FPXSDR 2006
E150FPXSOC 2004,2005
E150FPXSRS 2004
E150FSLSDR 2006
E150FSLSTF 2003
E175FCXSDS 2006
E175FCXSIF, E175FPLSIF, E175FPXSIF, E175FSLSIF, RE175FCSIF, RE175FLSIF, RE175FSSIF, RE175FXSIF 2001
E175FCXSNF, E175FPLSNF, E175FPXSNF 2002
E175FCXSOD 2004,2005
E175FCXSRE 2004
E175FCXSSR, E175FCXSSV, E175FPLSSR, E175FPLSSV, E175FPXSSR, E175FPXSSV, E175FSLSSC, E175FSLSSV, RE175FCSSR, RE175FCSSV, RE175FLSSR, RE175FLSSV, RE175FSSC, RE175FXSSR, RE175FXSSV 2000
E175FCXSTB 2003
E175FPLSDS 2006
E175FPLSOD, E175FSLSOE 2004,2005
E175FPLSRE, E175FSLSRB 2004
E175FPLSTB, E175FPXSTB, E175FSLSTM 2003
E175FPLSTF 2003
E175FPXSDS 2006
E175FPXSOD 2004,2005
E175FPXSRE 2004
E175FSLSDD 2006
E175FSLSTF 2003
E175MFXSOS 2005
E175MFXSOS 2004
E75FPLSIF, E75FVLSIF, RE75FPLSIF 2001
E75FPLSNF 2002
E75FPLSSH, RE75FPLSSH 2000
E75FPLSTA 2003
E90FPLSIF, E90FVLSIF, RE90FPLSIF 2001
E90FPLSNF 2002
E90FPLSSH, E90FPLSSR, RE90FPLSSH, RE90FPLSSR 2000
E90FPLSTB, E90FSLSTB 2003
Information:
Active Event Codes
An active event code represents a problem with engine operation. Correct the problem as soon as possible.Active event codes are listed in ascending numerical order. The code with the lowest number is listed first.Illustration 1 is an example of the operating range of a temperature sensor. Do not use the Illustration to troubleshoot temperature sensors.
Illustration 1 g01117578
Example of the typical operating range of a temperature sensor (1) This area represents the normal operating range of the parameter. The normal output voltage of the sensor is between 0.2 VDC and 4.2 VDC. (2) In this area, the temperature above 107 °C (225 °F) is higher than normal. The output voltage of the sensor will generate an event code. The sensor does not have an electronic problem. (3) In these areas, the output voltage of the sensor is too high or too low. The voltage is outside of the normal range. The electronic problem will generate a diagnostic code. Refer to Troubleshooting, "Troubleshooting with a Diagnostic Code" for additional information on diagnostic codes.Events are represented in two formats. In the first format, the "E" identifies the code as an event code. The "XXX" represents a numeric identifier for the event code. This is followed by a description of the code. If a warning, a derate, or a shutdown is applicable, the numeric identifiers are different. Refer to the following example:
E004 Engine Overspeed ShutdownIn the second format, the "E" identifies the code as an event code. The "XXX-X" represents a numeric identifier for the event code. The fourth "X" identifies the event as a warning, a derate, or a shutdown. This is followed by a description of the code. Refer to the following example:
E360(1) Low Oil Pressure Warning
E360(2) Low Oil Pressure Derate
E360(3) Low Oil Pressure ShutdownThe definition for a warning, a derate, and a shutdown are defined below:Warning - This condition represents a serious problem with engine operation. However, this condition does not require a derate or a shutdown.Derate - For this condition, the Electronic Control Module (ECM) reduces the engine's power in order to help prevent possible engine damage.Shutdown - For this condition, the ECM shuts down the engine in order to help prevent possible engine damage.Logged Event Codes
When the ECM generates an event code the ECM logs the code in permanent memory. The ECM has an internal diagnostic clock. The ECM will record the following information when an event code is generated:
The hour of the first occurrence of the code
The hour of the last occurrence of the code
The number of occurrences of the codeLogged events are listed in chronological order. The most recent event code is listed first.This information can be helpful for troubleshooting intermittent problems. Logged codes can also be used to review the performance of the engine.Clearing Event Codes
A code is cleared from memory when one of the following conditions occur:
The code does not recur for 100 hours.
A new code is logged and there are already ten codes in memory. In this case, the oldest code is cleared.
The service technician manually clears the code.Always clear logged event codes after investigating and correcting the problem which generated the code.Troubleshooting
For basic troubleshooting of the engine, perform the following steps in order to diagnose a malfunction:
Obtain the following information about the complaint:
Determine the time that the event occurred.
Determine the conditions for the event. The conditions will include the engine rpm and the load.
Determine if there are any systems that were installed by the dealer or by the customer that could cause the event.
Determine whether any additional events occurred.
Verify that the complaint is not due to normal engine operation. Verify that the complaint is not due to error of the operator.
Narrow the probable cause. Consider the operator information, the conditions of operation, and the history of the engine.
Perform a visual inspection. Inspect the following items:
Fuel supply
Oil level
Oil supply
Wiring
ConnectorsBe sure to check the connectors. This is very important for problems that are intermittent. Refer to Troubleshooting, "Electrical Connectors - Inspect".If these steps do not resolve the problem, identify the procedures in this manual that best describe the event. Check each probable cause according to the tests that are recommended.Trip Points for the Monitoring System
The monitoring system determines the level of action that is taken by the ECM in response to a condition that can damage the engine. When any of these conditions occur, the appropriate event code will trip.Table 1 contains the conditions that are monitored and the default trip points for each condition. Each condition has an associated parameter. The settings for each parameter can be viewed with the Caterpillar Electronic Technician (ET). The trip points for some of the parameters may be adjustable with Cat ET.
Table 1
Monitoring System Parameters    
Parameter    Action    Delay Time in Seconds    Trip Point    Default State    
Min Max Default    Min    Max    Default    
E198(1) Low Fuel Pressure     Derate     N/A     N/A     10     N/A     N/A    
400 kPa (58 psi)     On    
E360(1) Low Engine Oil Pressure     Warning     N/A     N/A     8     N/A     N/A     Map dependent value (1).     On    
E360(2) Low Engine Oil Pressure     Derate (2)     N/A     N/A     4     N/A     N/A     Map dependent value (3).     On    
E361(1) High Engine Coolant Temperature     Warning     N/A     N/A     10    
85 °C (185 °F)    
113 °C (235 °F)    
113 °C (235 °F)     On    
E361(2) High Engine Coolant Temperature     Derate (4) (5)     N/A     N/A     10    
86 °C (187 °F)    
116 °C (241°F)    
116 °C (241°F)    
An active event code represents a problem with engine operation. Correct the problem as soon as possible.Active event codes are listed in ascending numerical order. The code with the lowest number is listed first.Illustration 1 is an example of the operating range of a temperature sensor. Do not use the Illustration to troubleshoot temperature sensors.
Illustration 1 g01117578
Example of the typical operating range of a temperature sensor (1) This area represents the normal operating range of the parameter. The normal output voltage of the sensor is between 0.2 VDC and 4.2 VDC. (2) In this area, the temperature above 107 °C (225 °F) is higher than normal. The output voltage of the sensor will generate an event code. The sensor does not have an electronic problem. (3) In these areas, the output voltage of the sensor is too high or too low. The voltage is outside of the normal range. The electronic problem will generate a diagnostic code. Refer to Troubleshooting, "Troubleshooting with a Diagnostic Code" for additional information on diagnostic codes.Events are represented in two formats. In the first format, the "E" identifies the code as an event code. The "XXX" represents a numeric identifier for the event code. This is followed by a description of the code. If a warning, a derate, or a shutdown is applicable, the numeric identifiers are different. Refer to the following example:
E004 Engine Overspeed ShutdownIn the second format, the "E" identifies the code as an event code. The "XXX-X" represents a numeric identifier for the event code. The fourth "X" identifies the event as a warning, a derate, or a shutdown. This is followed by a description of the code. Refer to the following example:
E360(1) Low Oil Pressure Warning
E360(2) Low Oil Pressure Derate
E360(3) Low Oil Pressure ShutdownThe definition for a warning, a derate, and a shutdown are defined below:Warning - This condition represents a serious problem with engine operation. However, this condition does not require a derate or a shutdown.Derate - For this condition, the Electronic Control Module (ECM) reduces the engine's power in order to help prevent possible engine damage.Shutdown - For this condition, the ECM shuts down the engine in order to help prevent possible engine damage.Logged Event Codes
When the ECM generates an event code the ECM logs the code in permanent memory. The ECM has an internal diagnostic clock. The ECM will record the following information when an event code is generated:
The hour of the first occurrence of the code
The hour of the last occurrence of the code
The number of occurrences of the codeLogged events are listed in chronological order. The most recent event code is listed first.This information can be helpful for troubleshooting intermittent problems. Logged codes can also be used to review the performance of the engine.Clearing Event Codes
A code is cleared from memory when one of the following conditions occur:
The code does not recur for 100 hours.
A new code is logged and there are already ten codes in memory. In this case, the oldest code is cleared.
The service technician manually clears the code.Always clear logged event codes after investigating and correcting the problem which generated the code.Troubleshooting
For basic troubleshooting of the engine, perform the following steps in order to diagnose a malfunction:
Obtain the following information about the complaint:
Determine the time that the event occurred.
Determine the conditions for the event. The conditions will include the engine rpm and the load.
Determine if there are any systems that were installed by the dealer or by the customer that could cause the event.
Determine whether any additional events occurred.
Verify that the complaint is not due to normal engine operation. Verify that the complaint is not due to error of the operator.
Narrow the probable cause. Consider the operator information, the conditions of operation, and the history of the engine.
Perform a visual inspection. Inspect the following items:
Fuel supply
Oil level
Oil supply
Wiring
ConnectorsBe sure to check the connectors. This is very important for problems that are intermittent. Refer to Troubleshooting, "Electrical Connectors - Inspect".If these steps do not resolve the problem, identify the procedures in this manual that best describe the event. Check each probable cause according to the tests that are recommended.Trip Points for the Monitoring System
The monitoring system determines the level of action that is taken by the ECM in response to a condition that can damage the engine. When any of these conditions occur, the appropriate event code will trip.Table 1 contains the conditions that are monitored and the default trip points for each condition. Each condition has an associated parameter. The settings for each parameter can be viewed with the Caterpillar Electronic Technician (ET). The trip points for some of the parameters may be adjustable with Cat ET.
Table 1
Monitoring System Parameters    
Parameter    Action    Delay Time in Seconds    Trip Point    Default State    
Min Max Default    Min    Max    Default    
E198(1) Low Fuel Pressure     Derate     N/A     N/A     10     N/A     N/A    
400 kPa (58 psi)     On    
E360(1) Low Engine Oil Pressure     Warning     N/A     N/A     8     N/A     N/A     Map dependent value (1).     On    
E360(2) Low Engine Oil Pressure     Derate (2)     N/A     N/A     4     N/A     N/A     Map dependent value (3).     On    
E361(1) High Engine Coolant Temperature     Warning     N/A     N/A     10    
85 °C (185 °F)    
113 °C (235 °F)    
113 °C (235 °F)     On    
E361(2) High Engine Coolant Temperature     Derate (4) (5)     N/A     N/A     10    
86 °C (187 °F)    
116 °C (241°F)    
116 °C (241°F)    
Parts throttle EVINRUDE:
0438255
0438255 THROTTLE LEVER
E100FPLSOC, E100FPLSRS, E115FPLEEC, E115FPLSDS, E115FPLSIF, E115FPLSNF, E115FPLSOD, E115FPLSRE, E115FPLSSH, E115FPLSTB, E115FPXSDS, E115FPXSOD, E115FPXSRE, E115FSLECS, E115FSLSDS, E135FCXSDE, E135FCXSIF, E135FCXSNF, E135FCXSOB, E135FCXSRM, E135FCXSSS
0439158
0439158 THROTTLE BODY ASSY., Port
E100FPLSOC, E100FPLSRS, E115FPLEEC, E115FPLSDS, E115FPLSIF, E115FPLSNF, E115FPLSOD, E115FPLSRE, E115FPLSSH, E115FPLSTB, E115FPXSDS, E115FPXSOD, E115FPXSRE, E115FSLECS, E115FSLSDS, E75FPLSIF, E75FPLSNF, E75FPLSSH, E75FPLSTA, E90FPLEEC, E90FPLSIF, E90F
5000177
5000177 THROTTLE BODY ASSY., Port
E135FCXSDE, E135FCXSIF, E135FCXSNF, E135FCXSOB, E135FCXSRM, E135FCXSSS, E135FCXSTA, E135FPLSDE, E135FPLSOB, E135FPLSRM, E135FPLSTA, E135FPLSTF, E135FPXSDE, E135FPXSOB, E135FPXSRM, E135FSLSDE, E135FSLSTA, E135FSLSTF, E150FCXEEA, E150FCXSDR, E150FCXSIF
5001237
5001237 THROTTLE BODY ASSY., Stbd.
E135FCXSIF, E135FCXSSS, E150FCXEEA, E150FCXSIF, E150FCXSSM, E175FCXEEC, E175FCXSIF, E175FCXSSR
5001171
5001793
5001793 THROTTLE SENSOR
E100FPLSOC, E100FPLSRS, E115FPLSDS, E115FPLSNF, E115FPLSOD, E115FPLSRE, E115FPLSSH, E115FPLSTB, E115FPXSDS, E115FPXSOD, E115FPXSRE, E115FSLSDS, E135FCXSDE, E135FCXSIF, E135FCXSNF, E135FCXSOB, E135FCXSRM, E135FCXSSS, E135FCXSTA, E135FPLSDE, E135FPLSOB
5004325
5004325 THROTTLE BODY ASSY., Stbd.
E100FPLSOC, E100FPLSRS, E115FPLSDS, E115FPLSIF, E115FPLSNF, E115FPLSOD, E115FPLSRE, E115FPLSTB, E115FPXSDS, E115FPXSOD, E115FPXSRE, E115FSLSDS, E75FPLSIF, E75FPLSNF, E75FPLSTA, E90FPLSIF, E90FPLSNF, E90FPLSTB
5001792