0211388 DECAL EVINRUDE
E100STLCEM, E100STLEIE, E100STLEND, E100STLESB, E100STLETS, E110MLCEM, E115JLEIE, E115JLEND, E115JLETS, E115MLESB, E120TLCEM, E120TLEIE, E120TLESB, E140CXCEC, E140CXEIA, E140CXESR, E150CXCEM, E150CXEIE, E150CXESB, E150ELEIS, E150ELENC, E150ELETG, E15
DECAL
Price: query
Rating:
Compatible models:
E100STLCEM
E100STLEIE
E100STLEND
E100STLESB
E100STLETS
E110MLCEM
E115JLEIE
E115JLEND
E115JLETS
E115MLESB
E120TLCEM
E120TLEIE
E120TLESB
E140CXCEC
E140CXEIA
E140CXESR
E150CXCEM
E150CXEIE
E150CXESB
E150ELEIS
E150ELENC
E150ELETG
E150STLCEM
E150STLEIE
E150STLESB
E175EXATG
E175EXEIS
E175EXENC
E175STLCEB
E175STLEID
E175STLESE
E185ESXESS
E185ESXETA
E185ESXW
E200CXATF
E200CXCEA
E200CXEIB
E200CXESM
E225CXATF
E225CXCED
E225CXEIC
E225CXESS
E250CXEIE
E28ESLENE
E28ESLETD
E300CXCEM
E300CXEIE
E300CXESB
E40ECEC
E40EEIA
E40EESR
E48ESLCER
E48ESLEIM
E48ESLENB
E48ESLESA
E48ESLETE
E50BECEC
E50BEEIA
E50BEESR
E50TELCEC
E60ELCEA
E60ELEIB
E60ELESM
E60TTLEIB
E70ELCEM
E70ELEIE
E70ELESB
E70TTLEIE
E85TTLEIE
E88MSLCER
E88MSLEIM
E88MSLENB
E88MSLESA
E88MSLETE
VE48ESLCER
VE48ESLENB
VE48ESLETE
EVINRUDE
BRP EVINRUDE entire parts catalog list:
- EXHAUST HOUSING » 0211388
E100STLEND, VE100SLEND 1992
E100STLESB, VE100SLESB 1990
E100STLETS, VE100SLETS 1993
E110MLCEM, E110TLCEM, E110TXCEM, TE110TLCEM, TE110TLESF, TE110TXCEM 1989
E115JLEIE, E115MLEIE, E115TLEIE, E115TXEIE, TE115TLEIE, VE115TLEIE, VE115TXEIE 1991
E115JLEND, E115MLEND, E115TLEND, E115TXEND, TE115TLEND 1992
E115JLETS, E115MLETS, E115TLETS, E115TXATS, TE115TLETS, VE115TLETS 1993
E115MLESB, E115TLESB, E115TXESB, TE115TLESB, VE115TLESB, VE115TXESB 1990
E120TLCEM, E120TXCEM, TE120TXCEM 1989
E120TLEIE, E120TXEIE, VE120TLEIE, VE120TXEIE 1991
E120TLESB, E120TXESB, VE120TLESB, VE120TXESB 1990
E140CXCEC, E140TLCEB, E140TXCEB 1989
E140CXEIA, E140TLEID, E140TXEID, VE140TLEID, VE140TXEID 1991
E140CXESR, E140TLESE, E140TXESE, VE140TLESE, VE140TXESE 1990
E150CXCEM, E150TLCEM, E150TXCEM, TE150TXCEM 1989
E150CXEIE, E150JLEIE, E150TLEIE, E150TXEIE, VE150TLEIE, VE150TXEIE 1991
E150CXESB, E150TLESB, E150TXESB, VE150TLESB, VE150TXESB 1990
E150ELEIS, E150EXEIS, E150GLEIS, E150NXEIS, TE150GLEIS, VE150ELEIS, VE150EXEIS, VE150GLEIS 1991
E150ELENC, E150EXENC, E150GLENC, E150JLENC, E150NXENC, TE150GLENC, VE150ELENC, VE150EXENC 1992
E150ELETG, E150ELETR, E150EXATG, E150EXATS, E150EXETG, E150EXETR, E150GLETG, E150GLETR, E150JLETG, E150JLETR, E150NXATG, E150NXATS, E150NXETG, E150NXETR, TE150GLETG, TE150GLETR, VE150ELETG, VE150ELETR, VE150EXETG, VE150EXETR, VE150GLETG, VE150GLETR 1993
E150STLCEM, TE150SLCEM 1989
E150STLEIE, TE150SLEIE, VE150SLEIE 1991
E150STLESB, TE150SLESB, VE150SLESB 1990
E175EXATG, E175EXATS, E175EXETG, E175EXETR, E175GLETG, E175GLETR, E175NXATG, E175NXATS, E175NXETG, E175NXETR, VE175EXETG, VE175EXETR, VE175GLETG, VE175GLETR 1993
E175EXEIS, E175GLEIS, VE175EXEIS, VE175GLEIS 1991
E175EXENC, E175GLENC, E175NXENC, VE175EXENC, VE175GLENC 1992
E175STLCEB, E175TXCEB 1989
E175STLEID, E175TXEID, VE175SLEID, VE175TXEID 1991
E175STLESE, E175TXESE, VE175SLESE, VE175TXESE 1990
E185ESXESS 1990
E185ESXETA, E185ESXETF 1993
E185ESXW 1989
E200CXATF, E200CXATS, E200CXETD, E200CXETF, E200CZATF, E200CZATS, E200CZETD, E200CZETF, E200STLETC, E200STLETF, E200TXATF, E200TXATS, E200TXETD, E200TXETF, E200TZATF, E200TZATS, E200TZETD, E200TZETF, VE200SLETC, VE200SLETF, VE200TXETD, VE200TXETF, VE200TZETD, VE200TZETF 1993
E200CXCEA, E200STLCEB, E200TXCEA, TE200TXCEA 1989
E200CXEIB, E200STLEID, E200TXEIB, VE200SLEID, VE200TXEIB 1991
E200CXESM, E200STLESE, E200TXESM, VE200SLESE, VE200TXESM 1990
E225CXATF, E225CXATS, E225CXETA, E225CXETF, E225CZATF, E225CZATS, E225CZETA, E225CZETF, E225PLETA, E225PLETF, E225PXATF, E225PXATS, E225PXETA, E225PXETF, E225PZATF, E225PZATS, E225PZETA, E225PZETF, E225STLETF, E225TLETA, E225TLETF, E225TXATF, E225TXATS, E225TXETA, E225TXETF, E225TZATF, E225TZATS, E225TZETA, E225TZETF, VE225PLETA, VE225PLETF, VE225PXETA, VE225PXETF, VE225PZETA, VE225PZETF, VE225STLETF, VE225TLETA, VE225TLETF, VE225TXETA, VE225TXETF, VE225TZETA, VE225TZETF 1993
E225CXCED, E225PLCED, E225PXCED, E225TLCED, E225TXCED 1989
E225CXEIC, E225PLEIC, E225PXEIC, E225TLEIC, E225TXEIC, VE225PLEIC, VE225PXEIC, VE225TLEIC, VE225TXEIC 1991
E225CXESS, E225PLESS, E225PXESS, E225TLESS, E225TXESS, VE225PLESS, VE225PXESS, VE225TLESS, VE225TXESS 1990
E250CXEIE, E250TXEIE 1991
E28ESLENE 1992
E28ESLENE 1992
E28ESLETD 1993
E28ESLETD 1993
E300CXCEM, E300PLCEM, E300PXCEM 1989
E300CXEIE, E300PLEIE, E300PXEIE 1991
E300CXESB, E300PLESB, E300PXESB 1990
E40ECEC, E40ELCEC, E40RCEC, E40RLCEC, E40TECEC, E40TELCEC, E40TLCEC, E40TTLCEC, TE40ELCEC 1989
E40EEIA, E40ELEIA, E40REIA, E40RLEIA, E40TEEIA, E40TELEIA, E40TLEIA, E40TTLEIA, TE40ELEIA, VE40EEIA, VE40ELEIA, VE40TELEIA, VE40TLEIA 1991
E40EESR, E40ELESR, E40RESR, E40RLESR, E40TEESR, E40TELESR, E40TLESR, E40TTLESR, TE40ELESR, TE40TELESF, TE40TELESR, VE40EESR, VE40ELESR, VE40TELESR, VE40TLESR 1990
E48ESLCER 1989
E48ESLCER 1989
E48ESLEIM 1991
E48ESLEIM 1991
E48ESLENB, E50RNLIB 1992
E48ESLENB 1992
E48ESLESA, VE48ESLESA 1990
E48ESLESA, E50RNLIA 1990
E48ESLETE, TE48ESLETE 1993
E48ESLETE, TE48ESLETE 1993
E50BECEC, E50BELCEC, E50TLCEC, TE50TLCEC, TE50TLESF 1989
E50BEEIA, E50BELEIA, E50JEIA, E50TELEIA, E50TLEIA, VE50BEEIA, VE50BELEIA, VE50TLEIA 1991
E50BEESR, E50BELESR, E50TELESR, E50TLESR, TE50TLESF, TE50TLESR, VE50BEESR, VE50BELESR, VE50TLESR 1990
E50TELCEC 1989
E60ELCEA, E60TLCEA, E60TTLCEA, TE60TLCEA, TE60TLESF 1989
E60ELEIB, E60TLEIB, TE60TLEIB, VE60ELEIB, VE60TLEIB 1991
E60ELESM, E60TLESM, E60TTLESM, TE60TLESF, TE60TLESM, VE60ELESM, VE60TLESM 1990
E60TTLEIB 1991
E70ELCEM, E70TLCEM, TE70TLCEM, TE70TLESF 1989
E70ELEIE, E70TLEIE, VE70ELEIE, VE70TLEIE 1991
E70ELESB, E70TLESB, TE70TLESB, TE70TLESF, VE70ELESB, VE70TLESB 1990
E70TTLEIE 1991
E85TTLEIE 1991
E88MSLCER, E90TLCEM, TE90TLCEM, TE90TLESF 1989
E88MSLCER, VE88MSLCER 1989
E88MSLEIM, E90JLEIE, E90TLEIE, TE90TLEIE, VE90MLEIE, VE90TLEIE 1991
E88MSLEIM 1991
E88MSLENB 1992
E88MSLENB, E90JLEND, E90TLEND, TE90TLEND, VE90MLEND, VE90TLEND 1992
E88MSLESA, VE88MSLESA 1990
E88MSLESA, E90TLESB, TE90TLESB, TE90TLESF, VE90MLESB, VE90TLESB 1990
E88MSLETE 1993
E88MSLETE, E90JLETS, E90TLETS, E90TXATS, TE90TLETS, VE90MLETS, VE90TLETS 1993
VE48ESLCER 1989
VE48ESLENB 1992
VE48ESLETE 1993
Information:
Safety
Do not operate or work on this product unless you have read and understood the instruction and warnings in the relevant Operation and Maintenance Manuals and relevant service literature. Failure to follow the instructions or heed the warnings could result in injury or death. Proper care is your responsibility.
Required Tools
Table 1
Required Tools
Item Qty Part Number Part Name
T1 1 393-0673 EMISSIONS ANALYZER TOOL GP
T2 1 391-8170 EMISSIONS ANALYZER TOOL GP (Bluetooth Module) Procedure
Set the Natural Gas Fuel Supply Pressure
The regulator should be sized so that the supply pressure to the tecjet fuel valve is between 0.5 psig minimum at rated load and 5 psig maximum at idle. The regulator must be able to provide constant pressure to the tecjet from cranking speed to full load.Determining the Ignition Timing
The timing parameters allow the customer to program the ignition timing of the engine to meet the needs for specific applications and installations.Note: Timing will be provided within the Gas Engine Rating Pro (GERP) program.First Desired Timing
The "First Desired Timing" is determined with the methane number of the primary fuel that is being used. Obtain the timing information for the specific fuel and site conditions from the local Caterpillar dealer. The timing can also be obtained using the Caterpillar® Gas Engine Rating Pro (GERP) software program.Note: If the fuel composition at a given site changes greater than three methane points, the timing will need to be reset. Contact the local dealer or use GERP if such a change occurs.A free copy of GERP can be obtained by going to the following link and searching GERP in the search field. More information regarding the GERP program can also be obtained from the following website.https://catoilandgas.cat.com
GERP can provide the maximum rating capability for conditions at a given site. Use the following procedure to use GERP.
Select "Electric Power" under the "Application" drop-down box.
Select the desired engine.Setting the Ignition Timing
Use the following procedure to set the timing value found in the "Determining Ignition Timing" section using the engine display panel.
Select "Main Menu".
Select "Configure".
Select "All Set Points".
Select "Engine Configuration Parameters".
Select "Timing Control".
Select "Desired Engine Timing".
Select and change the "Desired Engine Timing".Initial Set-Up Procedure
Ensure that all these factors are in proper working condition prior to the initial start-up: engine installation, driven equipment, all the related hardware and electrical connections. Failure to perform the commissioning procedure could result in unsatisfactory operation.Perform the following procedure for the initial start-up and for start-up after major maintenance and/or after repair.Note: Use Cat® Electronic Technician (Cat ET) Service Tool, version 2019C or later.
Current fuel analysisObtain a fuel analysis for natural gas fuel quality supplied to the engine. The following parameters are required to input into Cat ET:
Gas Lower Heating Value (LHV)
Gas Specific Gravity
Fuel specific Heat Ratio
Illustration 1 g06531878
Engine load factor equation
(1) Generator load (ekW)
(2) Generator efficiency
(3) Auxiliary driven load (kW)
(4) Engine load factor
(5) Engine rated power (bkW)
Update engine load factor parameters in Cat ET.Note: The following parameters impact the engine software load factor calculation, which uses the equation shown above.The accuracy of these parameters will impact the performance and emissions of the engine.
Engine driven accessory load.The total accessory load at 1800 rpm must be input into Cat ET. This accessory load includes a package mounted-radiator and alternator (if applicable). Use the following guidance for load:Package Mounted Radiator: 30 kW (40 hp)Alternator: 3 kW (4 hp)If the generator set is not using a package-mounted radiator or alternator, this value must be set to 0 kW (0 hp).
Generator efficiency configuration.Input expected generator efficiency into ET. This efficiency is based on power factor and maximum electric load that the generator set is able to achieve at operating site.
Check EmissionsNote: Desired NOx level has been disabled in Cat ET. For emissions compliance, the desired NOx level has been hard-coded to 250 ppm in the engine softwareBy using ET, monitor the NOx PPM. The NOx PPM screen will display the value shown on the analyzer ( 10 PPM) for a 5 minute period. If not, proceed to step 4.
Calibrate the NOx sensor.Note: Desired NOx level has been disabled in Cat ET. For emissions compliance, the desired NOx level has been hard-coded to 250 ppm in the engine softwareThe NOx sensor must be calibrated at initial engine setup, with changes in fuel quality on site, and whenever the sensor is replaced. A calibration procedure is available in Cat ET. This procedure adjusts the slope of the sensor to account for this drift.During the calibration, the concentration of NOx that is reported by Cat ET is compared to the actual concentration that is reported by an emissions analyzer.Note: Make small changes to the slope value during the calibration procedure. If large changes are made to the slope value, the engine operation may become unstable. Allow engine to stabilize after each adjustment is made.Before a calibration of the NOx sensor is performed, obtain a recent gas analysis of the fuel to confirm the settings of the engine fuel quality and specific gravity. If necessary, update the configurable parameters in Cat ET.Calibration must be done during controlled engine operating conditions. The engine must be running and the operating conditions of the engine must be stabilized. Ensure that the requirements that are displayed on Cat ET are satisfied prior to initiating the calibration. If these conditions are not maintained during the entire calibration procedure, the calibration will be aborted.
Start the engine, allow the engine to warm to normal operating temperature.
Connect a 391-8170 EMISSIONS ANALYZER TOOL GP (Bluetooth Module) or a 393-0673 EMISSIONS ANALYZER TOOL GP to the engine exhaust system.
Allow the NOx readings from the analyzer to stabilize.
Connect Cat ET to the service tool connector. Establish communications with the ECM.
Access the "Service/Calibrations/Engine Exhaust NOx Level Sensor Calibration" screen of Cat ET. Use Cat ET to start the calibration.
Follow the prompts to guide you through the calibration procedure. Be sure to allow the engine to stabilize before each measurement is taken.
Compare the value of the NOx that is reported from
Do not operate or work on this product unless you have read and understood the instruction and warnings in the relevant Operation and Maintenance Manuals and relevant service literature. Failure to follow the instructions or heed the warnings could result in injury or death. Proper care is your responsibility.
Required Tools
Table 1
Required Tools
Item Qty Part Number Part Name
T1 1 393-0673 EMISSIONS ANALYZER TOOL GP
T2 1 391-8170 EMISSIONS ANALYZER TOOL GP (Bluetooth Module) Procedure
Set the Natural Gas Fuel Supply Pressure
The regulator should be sized so that the supply pressure to the tecjet fuel valve is between 0.5 psig minimum at rated load and 5 psig maximum at idle. The regulator must be able to provide constant pressure to the tecjet from cranking speed to full load.Determining the Ignition Timing
The timing parameters allow the customer to program the ignition timing of the engine to meet the needs for specific applications and installations.Note: Timing will be provided within the Gas Engine Rating Pro (GERP) program.First Desired Timing
The "First Desired Timing" is determined with the methane number of the primary fuel that is being used. Obtain the timing information for the specific fuel and site conditions from the local Caterpillar dealer. The timing can also be obtained using the Caterpillar® Gas Engine Rating Pro (GERP) software program.Note: If the fuel composition at a given site changes greater than three methane points, the timing will need to be reset. Contact the local dealer or use GERP if such a change occurs.A free copy of GERP can be obtained by going to the following link and searching GERP in the search field. More information regarding the GERP program can also be obtained from the following website.https://catoilandgas.cat.com
GERP can provide the maximum rating capability for conditions at a given site. Use the following procedure to use GERP.
Select "Electric Power" under the "Application" drop-down box.
Select the desired engine.Setting the Ignition Timing
Use the following procedure to set the timing value found in the "Determining Ignition Timing" section using the engine display panel.
Select "Main Menu".
Select "Configure".
Select "All Set Points".
Select "Engine Configuration Parameters".
Select "Timing Control".
Select "Desired Engine Timing".
Select and change the "Desired Engine Timing".Initial Set-Up Procedure
Ensure that all these factors are in proper working condition prior to the initial start-up: engine installation, driven equipment, all the related hardware and electrical connections. Failure to perform the commissioning procedure could result in unsatisfactory operation.Perform the following procedure for the initial start-up and for start-up after major maintenance and/or after repair.Note: Use Cat® Electronic Technician (Cat ET) Service Tool, version 2019C or later.
Current fuel analysisObtain a fuel analysis for natural gas fuel quality supplied to the engine. The following parameters are required to input into Cat ET:
Gas Lower Heating Value (LHV)
Gas Specific Gravity
Fuel specific Heat Ratio
Illustration 1 g06531878
Engine load factor equation
(1) Generator load (ekW)
(2) Generator efficiency
(3) Auxiliary driven load (kW)
(4) Engine load factor
(5) Engine rated power (bkW)
Update engine load factor parameters in Cat ET.Note: The following parameters impact the engine software load factor calculation, which uses the equation shown above.The accuracy of these parameters will impact the performance and emissions of the engine.
Engine driven accessory load.The total accessory load at 1800 rpm must be input into Cat ET. This accessory load includes a package mounted-radiator and alternator (if applicable). Use the following guidance for load:Package Mounted Radiator: 30 kW (40 hp)Alternator: 3 kW (4 hp)If the generator set is not using a package-mounted radiator or alternator, this value must be set to 0 kW (0 hp).
Generator efficiency configuration.Input expected generator efficiency into ET. This efficiency is based on power factor and maximum electric load that the generator set is able to achieve at operating site.
Check EmissionsNote: Desired NOx level has been disabled in Cat ET. For emissions compliance, the desired NOx level has been hard-coded to 250 ppm in the engine softwareBy using ET, monitor the NOx PPM. The NOx PPM screen will display the value shown on the analyzer ( 10 PPM) for a 5 minute period. If not, proceed to step 4.
Calibrate the NOx sensor.Note: Desired NOx level has been disabled in Cat ET. For emissions compliance, the desired NOx level has been hard-coded to 250 ppm in the engine softwareThe NOx sensor must be calibrated at initial engine setup, with changes in fuel quality on site, and whenever the sensor is replaced. A calibration procedure is available in Cat ET. This procedure adjusts the slope of the sensor to account for this drift.During the calibration, the concentration of NOx that is reported by Cat ET is compared to the actual concentration that is reported by an emissions analyzer.Note: Make small changes to the slope value during the calibration procedure. If large changes are made to the slope value, the engine operation may become unstable. Allow engine to stabilize after each adjustment is made.Before a calibration of the NOx sensor is performed, obtain a recent gas analysis of the fuel to confirm the settings of the engine fuel quality and specific gravity. If necessary, update the configurable parameters in Cat ET.Calibration must be done during controlled engine operating conditions. The engine must be running and the operating conditions of the engine must be stabilized. Ensure that the requirements that are displayed on Cat ET are satisfied prior to initiating the calibration. If these conditions are not maintained during the entire calibration procedure, the calibration will be aborted.
Start the engine, allow the engine to warm to normal operating temperature.
Connect a 391-8170 EMISSIONS ANALYZER TOOL GP (Bluetooth Module) or a 393-0673 EMISSIONS ANALYZER TOOL GP to the engine exhaust system.
Allow the NOx readings from the analyzer to stabilize.
Connect Cat ET to the service tool connector. Establish communications with the ECM.
Access the "Service/Calibrations/Engine Exhaust NOx Level Sensor Calibration" screen of Cat ET. Use Cat ET to start the calibration.
Follow the prompts to guide you through the calibration procedure. Be sure to allow the engine to stabilize before each measurement is taken.
Compare the value of the NOx that is reported from
Parts decal EVINRUDE:
0283759
0283652
0283819
0433209
0433857
0435350
0435214
0435243