0314248 SCREW, Filter cap EVINRUDE
10424G, 10524C, 10624G, 10724A, 10824M, 10924B, 15404G, 15504C, 15604A, 18002C, 18102S, 18202R, 18304A, 18802A, 18902B, 25002C, 25102S, 25202R, 25302A, 25402M, 25502B, 25602E, 25902B, 3802A, 4006E, 4106D, 4206S, 4306C, 4406R, 4506A, 4606M, 4706B, 480
SCREW
Price: query
Rating:
Compatible models:
10424G
10524C
10624G
10724A
10824M
10924B
15404G
15504C
15604A
18002C
18102S
18202R
18304A
18802A
18902B
25002C
25102S
25202R
25302A
25402M
25502B
25602E
25902B
3802A
4006E
4106D
4206S
4306C
4406R
4506A
4606M
4706B
4806E
4902B
5802B
6002B
6102E
6202D
6302S
6402C
6504R
6604A
6704M
6802A
6804B
6902M
6904E
9022A
9122R
9222M
9322B
9822D
9922S
E10ECOM
E10ECSE
E10ELCID
E10ELCNS
E10ELCRA
E10ELCTC
E15ECIS
E15ECNC
E15ECOB
E15ECRM
E15ECSD
E15ECTR
E4BRCICI
E4BRHCNR
E4BRHCOB
E4BRHCRM
E4BRHCTA
E4WCNR
E5RCIC
E5RCSS
E5RHCNR
E5RHCTA
E6RCRM
E8RCIC
E8RCNR
E8RCRM
E8RCSS
E8RCTA
EVINRUDE
BRP EVINRUDE entire parts catalog list:
- FUEL PUMP » 0314248
10624G, 10624H, 10624R, 10625G, 10625H, 10625R, 10654G, 10654H, 10654R, 10655G, 10655H, 10655R 1976
10724A, 10725A, 10754A, 10755A, 15704M, 15705M, 15754M 1977
10824M, 10825M, 10835M, 10854M, 10855M, 15804B, 15805B, 15854B, 15855B 1978
10924B, 10925B, 10935B, 10955B, 15904E, 15905E, 15954E, 15955E 1979
15404G, 15404S, 15405G, 15405S, 15454G, 15454S, 15455G, 15455S 1974
15504C, 15505C, 15554C, 15555C 1975
15604A, 15604R, 15605A, 15605R, 15654A, 15654R, 15655A, 15655R 1976
18002C, 18002E, 18003C, 18003E 1970
18102S, 18103S 1971
18202R, 18203R 1972
18304A, 18305A 1973
18802A, 18802E, 18802M, 18803A, 18803E, 18803M 1968
18902B, 18902D, 18903B, 18903D 1969
25002C, 25002E, 25003C, 25003E 1970
25102S, 25103S 1971
25202R, 25203R, 25252R, 25253R 1972
25302A, 25303A, 25352A, 25353A 1973
25402M, 25403M, 25452M, 25453M 1974
25502B, 25503B, 25552B, 25553B 1975
25602E, 25603E, 25652E, 25653E 1976
25902B, 25902D, 25903B, 25903D 1969
3802A, 3802M, 3803A, 3803M, 3806A, 3806M, 3807A, 3807M, 3832A, 3832M, 3833A, 3833M, 3836A, 3836M, 3837A, 3837M 1968
4006E, 4007E, 4036E, 4037E 1970
4106D, 4107D, 4136D, 4137D 1971
4206S, 4236S 1972
4306C, 4336C 1973
4406R, 4436R 1974
4506A, 4536A 1975
4606M, 4636M 1976
4706B, 4736B 1977
4806E, 4836E, 4837E 1978
4902B, 4906B, 4936B 1969
5802B, 5802E, 5802M, 5803B, 5803E, 5803M 1968
6002B, 6003B 1970
6102E, 6102G, 6103E, 6103G 1971
6202D, 6203D 1972
6302S, 6303S 1973
6402C, 6403C 1974
6504R, 6505R 1975
6604A, 6605A 1976
6704M, 6705M 1977
6802A, 6802C, 6802R, 6803A, 6803C, 6803R 1968
6804B, 6805B 1978
6902M, 6903M 1969
6904E, 6905E 1979
9022A, 9022C, 9023A, 9023C 1970
9122R, 9123R 1971
9222M, 9223M 1972
9322B, 9323B 1973
9822D, 9822E, 9823D, 9823E 1968
9922S, 9923S 1969
E10ECOM, E10ELCOM, E10RCOM, E10RLCOM, E10SELCOM 1985
E10ECSE, E10ELCSE, E10RCSE, E10RLCSE, E10SELCSE 1980
E10ELCID, E10RCID, E10RLCID, E10SELCID 1981
E10ELCNS, E10RCNS, E10RLCNS, E10SELCNS 1982
E10ELCRA, E10RCRA, E10RLCRA, E10SELCRA 1984
E10ELCTC, E10RCTC, E10RCTR, E10RLCTC, E10SELCTC 1983
E15ECIS, E15RCIS, E15RLCIS 1981
E15ECNC, E15RCNC, E15RLCNC 1982
E15ECOB, E15ELCOB, E15RCOB, E15RLCOB 1985
E15ECRM, E15ELCRM, E15RCRM, E15RLCRM 1984
E15ECSD, E15ELCSD, E15RCSD, E15RLCSD 1980
E15ECTR, E15ELCTR, E15RCTA, E15RCTR, E15RLCTA, E15RLCTR 1983
E4BRCICI, E4BRLCIC 1981
E4BRHCNR, E4BRHLCNR 1982
E4BRHCOB, E4BRHLCOB 1985
E4BRHCRM, E4BRHLCRM 1984
E4BRHCTA, E4BRHLCTA 1983
E4WCNR 1982
E5RCIC, E5RHCIC, E5RHLCIC, E5RLCIC 1981
E5RCSS, E5RHCSS, E5RHLCSS, E5RLCSS 1980
E5RHCNR, E5RHLCNR 1982
E5RHCTA, E5RHLCTA 1983
E6RCRM, E6RLCRM, E6SLCRM 1984
E8RCIC, E8RLCIC 1981
E8RCNR, E8RLCNR, E8SRLCNR 1982
E8RCRM, E8RLCRM, E8SRLCRM 1984
E8RCSS, E8RLCSS 1980
E8RCTA, E8RLCTA, E8SRLCTA 1983
Information:
ECM Identification Parameters
Equipment ID
The customer can assign an "Equipment ID" for identification for the engine application.Engine Serial Number
The engine serial number is programmed into the ECM at the factory. The number is stamped on the engine information plate.Timing Control
These parameters allow the customer to program the ignition timing electronically in order to meet the needs for specific applications and installations.Note: The actual ignition timing at a given instance may vary from the desired timing value. This variance is due to variations in the engine speed, engine load, or detonation.First Desired Timing
The "First Desired Timing" is determined with the methane number of the primary fuel that is used. Use the Engine Performance Sheet, "Fuel Usage Guide". The ECM selects the "First Desired Timing" when the timing select switch creates an open circuit for terminal J1-20 at the engine ECM.Note: Determine the desired timing by using the Caterpillar Software, LEKQ6378, "Methane Number Program" with the results that are from the fuel analysis. Use of only the data from the gas analysis can result in incorrect settings.Second Desired Timing
The "Second Desired Timing" is determined with the methane number of the alternate fuel that is used and the Engine Performance Sheet, "Fuel Usage Guide". The ECM selects the "Second Desired Timing" when the timing select switch creates a short circuit to ground for terminal J1-20 at the engine ECM.If an alternate fuel is not used, enter the same timing value for the "Second Desired Timing" parameter that is entered in the "First Desired Timing" parameter.Global Timing Offset
The feature offsets the engine ignition timing in order to compensate for timing errors. The errors can be due to resistances in the electrical circuitry and the stackup of mechanical tolerances.This parameter provides a manual method that will allow additional timing adjustment to be performed after calibration of the speed/timing sensor. Perform a negative adjustment to this parameter for retardation of the engine timing. Perform a positive adjustment to this parameter in order to advance the engine timing. Only perform an adjustment to this parameter if engine operating indicators and measured data indicate that an adjustment is required.Air/Fuel Ratio Control
Before the initial start-up, a current gas analysis is required. Periodic gas analyses are also recommended. Use the Caterpillar Software, LEKQ6378, "Methane Number Program" in order to calculate the parameters for air/fuel ratio control for Caterpillar Gas Engines. The results are programmed into the ECM.Note: Use the Caterpillar Software, LEKQ6378, "Methane Number Program". The improper programming of the air/fuel ratio control can result in damage to the engine.The Caterpillar Software, LEKQ6378, "Methane Number Program" is also contained in Caterpillar Software, LERW4485, "GAS ENGINE RATING PRO - VERSION 3.01". This software also contains information that is related to engine performance.Fuel Quality
Low Heat Value (LHV) is the fuel quality. The air/fuel ratio control of the ECM will compensate for some inaccuracy in this setting. The ECM derives a corrected value that is multiplied by the "Fuel Correction Factor". The status of the parameter can be viewed with Cat ET.The "Fuel Quality" parameter can be used to change the air/fuel ratio when the engine is operating in the open loop mode. To richen the air/fuel mixture, reduce the value. The calculation will compensate for the reduced LHV by increasing the fuel flow. To lean the air/fuel mixture, increase the value. The calculation will compensate for the increased LHV by reducing the fuel flow.Gas Specific Gravity
This parameter is the fuel-specific gravity in relation to the specific gravity of air. The ECM does not use this information. The ECM provides the information to the fuel metering valve via the CAN data link. Some fuel metering valves require an input for the "Gas Specific Gravity" in order to precisely meter the fuel flow.Fuel Specific Heat Ratio
This ratio is the fuel-specific heat at a constant pressure and at a constant volume. The ratio is also known as "k". The ratio is related to the expansion of the gas across the fuel metering valve. The ECM does not use this information. The ECM provides the information to the fuel metering valve via the CAN data link. Some fuel metering valves require an input for the "Fuel Specific Heat Ratio" in order to precisely meter the fuel flow.Emissions Feedback Mode Configuration
The "Emissions Feedback Mode configuration" can be set to "NOx Feedback" or to "Feedback Disabled". This feature allows the feedback mode to be disabled in order to troubleshoot the engine. The disabling of this feature can help determine whether the air/fuel ratio control is the cause of a problem with instability.If the signal from the NOX sensor is not available, the control system does not have information for maintaining desired exhaust emissions.If there is a problem with the NOX sensor, this parameter can be set to "Feedback Disabled". "Feedback Disabled" allows the engine to run in the open loop mode until a new sensor is obtained. During operation in this mode, an emissions analyzer must be used to verify the emissions level. The "Fuel Quality" parameter is adjusted in order to change the air/fuel mixture for the engine.When the "Emissions Feedback Mode configuration" is set to "NOx Feedback", adjustment of the "Fuel Quality" parameter does not affect the air/fuel ratio. Do not adjust the "Fuel Quality" parameter when the "Emissions Feedback Mode configuration" is set to "NOx Feedback".Note: Do not operate an engine that is unattended in the open loop mode if the fuel has an LHV that is changing. The engine risks a shutdown due to lean misfire or to detonation.Desired Engine Exhaust NOx Level Setting
The ECM contains a control map for the NOX emissions that is programmed at the factory. The "Desired Engine Exhaust NOx Level Setting" parameter is used to trim this control map when the engine is in "NOx Feedback" mode. If the measured NOX emissions are not the required value, decrease the "Desired Engine Exhaust NOx Level Setting" parameter. Adjust this parameter in order to
Equipment ID
The customer can assign an "Equipment ID" for identification for the engine application.Engine Serial Number
The engine serial number is programmed into the ECM at the factory. The number is stamped on the engine information plate.Timing Control
These parameters allow the customer to program the ignition timing electronically in order to meet the needs for specific applications and installations.Note: The actual ignition timing at a given instance may vary from the desired timing value. This variance is due to variations in the engine speed, engine load, or detonation.First Desired Timing
The "First Desired Timing" is determined with the methane number of the primary fuel that is used. Use the Engine Performance Sheet, "Fuel Usage Guide". The ECM selects the "First Desired Timing" when the timing select switch creates an open circuit for terminal J1-20 at the engine ECM.Note: Determine the desired timing by using the Caterpillar Software, LEKQ6378, "Methane Number Program" with the results that are from the fuel analysis. Use of only the data from the gas analysis can result in incorrect settings.Second Desired Timing
The "Second Desired Timing" is determined with the methane number of the alternate fuel that is used and the Engine Performance Sheet, "Fuel Usage Guide". The ECM selects the "Second Desired Timing" when the timing select switch creates a short circuit to ground for terminal J1-20 at the engine ECM.If an alternate fuel is not used, enter the same timing value for the "Second Desired Timing" parameter that is entered in the "First Desired Timing" parameter.Global Timing Offset
The feature offsets the engine ignition timing in order to compensate for timing errors. The errors can be due to resistances in the electrical circuitry and the stackup of mechanical tolerances.This parameter provides a manual method that will allow additional timing adjustment to be performed after calibration of the speed/timing sensor. Perform a negative adjustment to this parameter for retardation of the engine timing. Perform a positive adjustment to this parameter in order to advance the engine timing. Only perform an adjustment to this parameter if engine operating indicators and measured data indicate that an adjustment is required.Air/Fuel Ratio Control
Before the initial start-up, a current gas analysis is required. Periodic gas analyses are also recommended. Use the Caterpillar Software, LEKQ6378, "Methane Number Program" in order to calculate the parameters for air/fuel ratio control for Caterpillar Gas Engines. The results are programmed into the ECM.Note: Use the Caterpillar Software, LEKQ6378, "Methane Number Program". The improper programming of the air/fuel ratio control can result in damage to the engine.The Caterpillar Software, LEKQ6378, "Methane Number Program" is also contained in Caterpillar Software, LERW4485, "GAS ENGINE RATING PRO - VERSION 3.01". This software also contains information that is related to engine performance.Fuel Quality
Low Heat Value (LHV) is the fuel quality. The air/fuel ratio control of the ECM will compensate for some inaccuracy in this setting. The ECM derives a corrected value that is multiplied by the "Fuel Correction Factor". The status of the parameter can be viewed with Cat ET.The "Fuel Quality" parameter can be used to change the air/fuel ratio when the engine is operating in the open loop mode. To richen the air/fuel mixture, reduce the value. The calculation will compensate for the reduced LHV by increasing the fuel flow. To lean the air/fuel mixture, increase the value. The calculation will compensate for the increased LHV by reducing the fuel flow.Gas Specific Gravity
This parameter is the fuel-specific gravity in relation to the specific gravity of air. The ECM does not use this information. The ECM provides the information to the fuel metering valve via the CAN data link. Some fuel metering valves require an input for the "Gas Specific Gravity" in order to precisely meter the fuel flow.Fuel Specific Heat Ratio
This ratio is the fuel-specific heat at a constant pressure and at a constant volume. The ratio is also known as "k". The ratio is related to the expansion of the gas across the fuel metering valve. The ECM does not use this information. The ECM provides the information to the fuel metering valve via the CAN data link. Some fuel metering valves require an input for the "Fuel Specific Heat Ratio" in order to precisely meter the fuel flow.Emissions Feedback Mode Configuration
The "Emissions Feedback Mode configuration" can be set to "NOx Feedback" or to "Feedback Disabled". This feature allows the feedback mode to be disabled in order to troubleshoot the engine. The disabling of this feature can help determine whether the air/fuel ratio control is the cause of a problem with instability.If the signal from the NOX sensor is not available, the control system does not have information for maintaining desired exhaust emissions.If there is a problem with the NOX sensor, this parameter can be set to "Feedback Disabled". "Feedback Disabled" allows the engine to run in the open loop mode until a new sensor is obtained. During operation in this mode, an emissions analyzer must be used to verify the emissions level. The "Fuel Quality" parameter is adjusted in order to change the air/fuel mixture for the engine.When the "Emissions Feedback Mode configuration" is set to "NOx Feedback", adjustment of the "Fuel Quality" parameter does not affect the air/fuel ratio. Do not adjust the "Fuel Quality" parameter when the "Emissions Feedback Mode configuration" is set to "NOx Feedback".Note: Do not operate an engine that is unattended in the open loop mode if the fuel has an LHV that is changing. The engine risks a shutdown due to lean misfire or to detonation.Desired Engine Exhaust NOx Level Setting
The ECM contains a control map for the NOX emissions that is programmed at the factory. The "Desired Engine Exhaust NOx Level Setting" parameter is used to trim this control map when the engine is in "NOx Feedback" mode. If the measured NOX emissions are not the required value, decrease the "Desired Engine Exhaust NOx Level Setting" parameter. Adjust this parameter in order to
Parts screw EVINRUDE:
0307560
0307560 SCREW,Rod cap
1002R, 1802S, 1902C, 2102A, 2202M, 2302B, 2402E, 2502D, 2602S, 2702C, 2802R, 2902A, 5802B, 6002B, 6102E, 6202D, 6302S, 6402C, 6504R, 6604A, 6704M, 6802A, 6804B, 6902M, 6904E
0301858
0301858 SCREW, Leaf to plate
100293R, 18002C, 18102S, 18202R, 18304A, 18802A, 18902B, 25002C, 25102S, 25202R, 25302A, 25402M, 25502B, 25602E, 25702H, 25802C, 25902B, 25904R, 33002M, 33802M, 33902A, 35602G, 40002A, 40052A, 40072A, 40102B, 40202E, 40304D, 40404S, 40504C, 40604A, 4
0302509
0302509 SCREW, By-pass cover
18002C, 18102S, 18202R, 18304A, 18802A, 18902B, 25002C, 25102S, 25202R, 25302A, 25402M, 25502B, 25602E, 25702H, 25802C, 25902B, 25904R, 33002M, 33802M, 33902A, 40102B, 40202E, 40304D, 40404S, 40504C, 40604A, E25CNE, E25ECIB, E25ECRS, E25ECTD, E25RCSA
0301989
0301989 SCREW, Co-pilot adjustment
10424G, 15404G, 18002C, 18102S, 18202R, 18304A, 18802A, 18902B, 25002C, 25102S, 25202R, 25302A, 25402M, 25502B, 25602E, 25702H, 25802C, 25902B, 25904R, 35602G, E25RCSA, E35ECSM
0310350
0310350 SCREW, Phillips, plate
18002C, 18102S, 18202R, 18304A, 18802A, 18902B, 25002C, 25102S, 25202R, 25302A, 25402M, 25502B, 25602E, 25902B, 33002M, 33802M, 33902A, 3802A, 40002A, 40052A, 4006E, 40072A, 40102B, 40202E, 40304D, 40802A, 40852A, 40872A, 40902R, 40952R, 40972R, 4106
0306424
0306424 SCREW, Cylinder head
18002C, 18102S, 18202R, 18304A, 18802A, 18902B, 25002C, 25102S, 25202R, 25302A, 25402M, 25502B, 25602E, 25902B, 35602G
0305346
0305346 SCREW, Cover
33002M, 33802M, 33902A, 40002A, 40052A, 40102B, 40802A, 40852A, 40872A, 40902R, 40952R, 40972R, 5802B, 6002B, 6102E, 6202D, 6302S, 6402C, 6504R, 6604A, 6704M, 6802A, 6804B, 6902M, 6904E
0312975
0312975 SCREW,Cup & stop assy.
3802A, 4006E, 4106D, 4206S, 4306C, 4406R, 4506A, 4606M, 4706B, 4806E, 4902B, E4RDHCDE, E5RCIC, E5RCSS, E5RHCNR, E5RHCTA, E8RCIC, E8RCNR, E8RCSS, E8RCTA