0390822 PROPELLER, 14 1/4 X 21 SST JOHNSON
J120TLAEM, J120TLAIE, J120TLAND, J120TLASB, J120TLCCA, J125ESXENR, J140CXCCS, J140CXCEC, J140CXEIA, J140CXENM, J140CXESR, J150CXCCA, J150CXCEM, J150CXEIE, J150CXESB, J150ELAIS, J175EXEIS, J175STLACM, J175STLCEB, J175STLEID, J175STLESE, J185ESXENR, J1
PROPELLER
Price: query
Rating:
Compatible models:
J120TLAEM
J120TLAIE
J120TLAND
J120TLASB
J120TLCCA
J125ESXENR
J140CXCCS
J140CXCEC
J140CXEIA
J140CXENM
J140CXESR
J150CXCCA
J150CXCEM
J150CXEIE
J150CXESB
J150ELAIS
J175EXEIS
J175STLACM
J175STLCEB
J175STLEID
J175STLESE
J185ESXENR
J185ESXESS
J185ESXW
J200CXCCR
J200CXCEA
J200CXEIB
J200CXENE
J200CXESM
J225CXCCE
J225CXCED
J225CXEIC
J225CXENR
J225CXESS
J250CXEIE
J250CXEND
J275CXCCA
J300CXCCA
J300CXCEM
J300CXEIE
J300CXEND
J300CXESB
JOHNSON
BRP JOHNSON entire parts catalog list:
- GEARCASE - 140CX COUNTER ROTATION » 0390822
J120TLAND, J120TLEND, J120TXEND, VJ120TLAND, VJ120TLEND, VJ120TXEND 1992
J120TLASB, J120TLESB, J120TXESB, VJ120TLASB, VJ120TLESB, VJ120TXESB 1990
J120TLCCA, J120TXCCA 1988
J125ESXENR 1992
J140CXCCS, J140TLCCM, J140TXCCM 1988
J140CXCEC, J140TLAEB, J140TLCEB, J140TXCEB 1989
J140CXEIA, J140TLEID, J140TXEID, VJ140TLAID, VJ140TLEID, VJ140TXEID 1991
J140CXENM, J140TLANS, J140TLENS, J140TXENS, VJ140TLANS, VJ140TLENS, VJ140TXENS 1992
J140CXESR, J140TLASE, J140TLESE, J140TXESE, VJ140TLASE, VJ140TLESE, VJ140TXESE 1990
J150CXCCA, J150TLCCA, J150TXCCA 1988
J150CXCEM, J150TLAEM, J150TLCEM, J150TXCEM, TJ150TXCEM 1989
J150CXEIE, J150JLEIE, J150TLAIE, J150TLEIE, J150TXEIE, VJ150TLEIE, VJ150TXEIE 1991
J150CXESB, J150TLASB, J150TLESB, J150TXESB, VJ150TLESB, VJ150TXESB 1990
J150ELAIS, J150ELEIS, J150EXEIS, J150GLEIS, J150NXEIS, TJ150GLEIS, VJ150ELEIS, VJ150EXEIS, VJ150GLEIS 1991
J175EXEIS, J175GLEIS, VJ175EXEIS, VJ175GLEIS 1991
J175STLACM, J175STLCCM, J175TLCCM, J175TXCCM 1988
J175STLCEB, J175TXCEB 1989
J175STLEID, J175TXEID, VJ175SLEID, VJ175TXEID 1991
J175STLESE, J175TXESE, VJ175SLESE, VJ175TXESE 1990
J185ESXENR 1992
J185ESXESS 1990
J185ESXW 1989
J200CXCCR, J200STLACM, J200STLCCM, J200TXCCR 1988
J200CXCEA, J200STLCEB, J200TXCEA, TJ200TXCEA 1989
J200CXEIB, J200STLEID, J200TXEIB, VJ200SLEID, VJ200TXEIB 1991
J200CXENE, J200STLENS, J200TXENE, VJ200SLENS, VJ200TXENE 1992
J200CXESM, J200STLESE, J200TXESM, VJ200SLESE, VJ200TXESM 1990
J225CXCCE, J225PLCCE, J225PXCCE, J225TLCCE, J225TXCCE 1988
J225CXCED, J225PLAED, J225PLCED, J225PXCED, J225TLAED, J225TLCED, J225TXCED 1989
J225CXEIC, J225PLEIC, J225PXEIC, J225TLEIC, J225TXEIC, VJ225PLEIC, VJ225PXEIC, VJ225TLEIC, VJ225TXEIC 1991
J225CXENR, J225PLENR, J225PXENR, J225TLENR, J225TXENR, VJ225PLENR, VJ225PXENR, VJ225TLENR, VJ225TXENR 1992
J225CXESS, J225PLASS, J225PLESS, J225PXESS, J225TLASS, J225TLESS, J225TXESS, VJ225PLESS, VJ225PXESS, VJ225TLASS, VJ225TLESS, VJ225TXESS 1990
J250CXEIE, J250TXEIE 1991
J250CXEND, J250CZEND, J250TXEND, J250TZEND 1992
J275CXCCA, J275PLCCA, J275PXCCA 1988
J300CXCCA, J300PLCCA, J300PXCCA 1988
J300CXCEM, J300PLCEM, J300PXCEM 1989
J300CXEIE, J300PLEIE, J300PXEIE 1991
J300CXEND, J300PLEND, J300PXEND 1992
J300CXESB, J300PLESB, J300PXESB 1990
Information:
Probable Causes
Diagnostic codes
Fuel supply
Transfer Pump Inlet Regulator (TPIR)
Electric Fuel Lift Pump (EFLP)
Return fuel lines
Throttle position sensor
CAN data link
High-pressure fuel pump
Low compression (cylinder pressure)
Electronic unit injectors
Individual malfunctioning cylinderRecommended Actions
Note: The procedures have been listed in order of probability. Complete the procedures in order.
Table 1
Troubleshooting Test Steps Values Results
1. Diagnostic Codes
A. Establish communication between the electronic service tool and the Electronic Control Module (ECM). Refer to Troubleshooting, "Electronic Service Tools", if necessary.
B. Download the Warranty Report and the Product Status Report with Histograms before performing any troubleshooting or clearing any diagnostic codes.
Note: The downloaded information will be required by the Dealer Solutions Network (DSN) if troubleshooting assistance is needed.
C. Use the electronic service tool to check for active or logged codes.
Codes
Result: There are active codes.
Repair: Troubleshoot any active codes before continuing with this procedure.
Result: There are no active codes.
Proceed to Test Step 2.
2. Fuel Supply
A. Visually check the fuel tank for fuel. The fuel gauge may be faulty.
B. Ensure that the vent in the fuel cap is not filled with debris.
C. Ensure that the fuel supply valve (if equipped) is in the full OPEN position.
D. Check the primary filter/water separator for water in the fuel.
E. Check for fuel supply lines that are restricted.
F. Check that the Electric Fuel Lift Pump (EFLP) is operating. If the EFLP is suspect, refer to Troubleshooting, "Relay - Test (Electric Fuel Lift Pump)".
G. Check for air in the fuel system. Refer to Systems Operation, Testing, and Adjusting, "Air in Fuel - Test".
H. Obtain a fuel analysis to confirm that the correct fuel is being used. Refer to Systems Operation/Testing and Adjusting, "Fuel Quality - Test" for the correct procedure.
Fuel supply
Result: There is air in the fuel system.
Repair: Prime the fuel system. Refer to Systems Operation, Testing, and Adjusting, "Fuel System - Prime".
Result: The fuel quality is not OK.
Repair: Replace the fuel. Replace the in line fuel filter that is upstream of the EFLP. Replace the primary and secondary fuel filters. Verify that the repair eliminated the fault.
Proceed to Test Step 13.
Result: The fuel quality is OK.
Proceed to Test Step 3.
Illustration 1 g03700009
Transfer Pump Inlet Regulator (TPIR) components on a C4.4 engine
(1) Transfer Pump Inlet Regulator (TPIR)
(2) TPIR return port
Illustration 2 g06100802
Transfer Pump Inlet Regulator (TPIR) components on a C6.6 engine
(1) Transfer Pump Inlet Regulator (TPIR)
(2) TPIR return port
Illustration 3 g02485896
Minimum TPIR flow rate in a 12 VDC system on a C4.4 engine
Illustration 4 g02485897
Minimum TPIR flow rate in a 24 VDC system on a C4.4 engine
Illustration 5 g02355128
Minimum TPIR flow rate in a 12 VDC system on a C6.6 engine
Illustration 6 g02355130
Minimum TPIR flow rate in a 24 VDC system on a C6.6 engine
Table 2
Troubleshooting Test Steps Values Results
3. Transfer Pump Inlet Regulator (TPIR) Flow Test
For a C4.4 engine, refer to Illustration 1. For a C6.6 engine, refer to Illustration 2.
A. Disconnect the TPIR return line from the drain port on the TPIR. Install a suitable blanking cap on the open port in the TPIR return line.
B. Connect a temporary drain line to the drain port on the TPIR.
C. Place the end of the temporary drain line into a suitable calibrated container.
D. With the isolator switch in the ON position but the engine not running, use a suitable multimeter to measure the input voltage to the EFLP. Record the reading.
E. With the isolator switch in the ON position but the engine not running, measure the fuel flow from the temporary drain line.
F. Refer to Illustration 3 through 6 for the minimum acceptable flow rate.
G. Remove the temporary drain line from the drain port on the TPIR. Connect the TPIR return line to the TPIR.
TPIR flow rate
Result: The fuel flow is greater than the minimum limit.
Proceed to Test Step 5.
Result: The fuel flow is less than the minimum limit.
Proceed to Test Step 4.
Illustration 7 g02527498
Minimum EFLP flow rate in a 12 VDC system
Diagnostic codes
Fuel supply
Transfer Pump Inlet Regulator (TPIR)
Electric Fuel Lift Pump (EFLP)
Return fuel lines
Throttle position sensor
CAN data link
High-pressure fuel pump
Low compression (cylinder pressure)
Electronic unit injectors
Individual malfunctioning cylinderRecommended Actions
Note: The procedures have been listed in order of probability. Complete the procedures in order.
Table 1
Troubleshooting Test Steps Values Results
1. Diagnostic Codes
A. Establish communication between the electronic service tool and the Electronic Control Module (ECM). Refer to Troubleshooting, "Electronic Service Tools", if necessary.
B. Download the Warranty Report and the Product Status Report with Histograms before performing any troubleshooting or clearing any diagnostic codes.
Note: The downloaded information will be required by the Dealer Solutions Network (DSN) if troubleshooting assistance is needed.
C. Use the electronic service tool to check for active or logged codes.
Codes
Result: There are active codes.
Repair: Troubleshoot any active codes before continuing with this procedure.
Result: There are no active codes.
Proceed to Test Step 2.
2. Fuel Supply
A. Visually check the fuel tank for fuel. The fuel gauge may be faulty.
B. Ensure that the vent in the fuel cap is not filled with debris.
C. Ensure that the fuel supply valve (if equipped) is in the full OPEN position.
D. Check the primary filter/water separator for water in the fuel.
E. Check for fuel supply lines that are restricted.
F. Check that the Electric Fuel Lift Pump (EFLP) is operating. If the EFLP is suspect, refer to Troubleshooting, "Relay - Test (Electric Fuel Lift Pump)".
G. Check for air in the fuel system. Refer to Systems Operation, Testing, and Adjusting, "Air in Fuel - Test".
H. Obtain a fuel analysis to confirm that the correct fuel is being used. Refer to Systems Operation/Testing and Adjusting, "Fuel Quality - Test" for the correct procedure.
Fuel supply
Result: There is air in the fuel system.
Repair: Prime the fuel system. Refer to Systems Operation, Testing, and Adjusting, "Fuel System - Prime".
Result: The fuel quality is not OK.
Repair: Replace the fuel. Replace the in line fuel filter that is upstream of the EFLP. Replace the primary and secondary fuel filters. Verify that the repair eliminated the fault.
Proceed to Test Step 13.
Result: The fuel quality is OK.
Proceed to Test Step 3.
Illustration 1 g03700009
Transfer Pump Inlet Regulator (TPIR) components on a C4.4 engine
(1) Transfer Pump Inlet Regulator (TPIR)
(2) TPIR return port
Illustration 2 g06100802
Transfer Pump Inlet Regulator (TPIR) components on a C6.6 engine
(1) Transfer Pump Inlet Regulator (TPIR)
(2) TPIR return port
Illustration 3 g02485896
Minimum TPIR flow rate in a 12 VDC system on a C4.4 engine
Illustration 4 g02485897
Minimum TPIR flow rate in a 24 VDC system on a C4.4 engine
Illustration 5 g02355128
Minimum TPIR flow rate in a 12 VDC system on a C6.6 engine
Illustration 6 g02355130
Minimum TPIR flow rate in a 24 VDC system on a C6.6 engine
Table 2
Troubleshooting Test Steps Values Results
3. Transfer Pump Inlet Regulator (TPIR) Flow Test
For a C4.4 engine, refer to Illustration 1. For a C6.6 engine, refer to Illustration 2.
A. Disconnect the TPIR return line from the drain port on the TPIR. Install a suitable blanking cap on the open port in the TPIR return line.
B. Connect a temporary drain line to the drain port on the TPIR.
C. Place the end of the temporary drain line into a suitable calibrated container.
D. With the isolator switch in the ON position but the engine not running, use a suitable multimeter to measure the input voltage to the EFLP. Record the reading.
E. With the isolator switch in the ON position but the engine not running, measure the fuel flow from the temporary drain line.
F. Refer to Illustration 3 through 6 for the minimum acceptable flow rate.
G. Remove the temporary drain line from the drain port on the TPIR. Connect the TPIR return line to the TPIR.
TPIR flow rate
Result: The fuel flow is greater than the minimum limit.
Proceed to Test Step 5.
Result: The fuel flow is less than the minimum limit.
Proceed to Test Step 4.
Illustration 7 g02527498
Minimum EFLP flow rate in a 12 VDC system
Parts propeller JOHNSON:
0382761
0382761 PROPELLER, 14x11
100ESL71A, 100ESL72R, 100ML79S, 115EL77S, 115ESL69E, 115ESL70D, 115ESL73M, 115ESL74B, 115ESL75E, 115ETZ78C, 115ML79R, 115TXL77S, 125ESL71C, 125ESL72R, 135ESL73M, 135ESL74B, 135ESL75E, 140ML77S, 140ML78C, 140ML79R, 50ES71S, 50ES72C, 50ES73R, 50ES74M,
0387818
0387818 PROPELLER SHAFT ASSY.
100ML79S, 115EL77S, 115ETZ78C, 115ML79R, 115TXL77S, 140ML77S, 140ML78C, 140ML79R, 85EL77S, 85ETLR78C, 85ML79R, 85TXLR77S, J100MLCSC, J100STLCCA, J100STLCEM, J100STLEIE, J100STLEND, J100STLERC, J100STLESB, J100STLETS, J110MLCCA, J110MLCDC, J110MLCEM,
0389925
0389925 PROPELLER, 15 x 17 sst
150TL79C, 175TL79R, 200TL79A, 235TL70A, CJ275TLCDC, CJ275TLCOS, CJ300TLCDC, D100WTLM, J100WMLCDR, J100WMLCOC, J100WMLCRS, J100WTLCUA, J100WTLEIB, J100WTLENE, J100WTLESM, J100WTLZ, J115PXSOR, J115WPLSOC, J120TLAEM, J120TLAIE, J120TLAND, J120TLASB, J12
0391536
0391536 PROPELLER, 15-1/2 X 13
D100WTLM, J100WMLCDR, J100WMLCOC, J100WMLCRS, J100WTLCUA, J100WTLEIB, J100WTLENE, J100WTLESM, J100WTLZ, J120TLAEM, J120TLAIE, J120TLAND, J120TLASB, J120TLCCA, J120TLCOS, J125ESXENR, J140CXCCS, J140CXCEC, J140CXEIA, J140CXENM, J140CXESR, J140TLCOS, J1
0395209
0395209 PROPELLER SHAFT ASSY.
CJ275TLCDC, CJ275TLCOS, CJ300TLCDC, CJ300TLCOS, D100WTLM, J100WMLCDR, J100WMLCOC, J100WTLCUA, J100WTLESM, J100WTLZ, J120TLAEM, J120TLASB, J120TLCCA, J120TLCOS, J140CXCCS, J140CXCEC, J140CXESR, J140TLCOS, J150CXCCA, J150CXCEM, J150CXESB, J150GTLCUR, J
0431930
0431930 PROPELLER, 15 X 17 SST
J120TLAEM, J120TLAIE, J120TLAND, J120TLASB, J120TLCCA, J125ESXENR, J140CXCCS, J140CXCEC, J140CXEIA, J140CXENM, J140CXESR, J150CXCCA, J150CXCEM, J150CXEIE, J150CXESB, J150ELAIS, J175EXEIS, J175STLACM, J175STLCEB, J175STLEID, J175STLESE, J185ESXENR, J1
0398504
0398504 PROPELLER, 14 1/2 X 24 SSTR
J115PXSOR, J115WPLSOC, J120TLAEM, J120TLAIE, J120TLAND, J120TLASB, J120TLCCA, J125ESXENR, J140CXCCS, J140CXCEC, J140CXEIA, J140CXENM, J140CXESR, J150CXCCA, J150CXCEM, J150CXEIE, J150CXESB, J150CXSOB, J150ELAIS, J150GLSOB, J150PLSOE, J150PXSOE, J175CX
0394761
0394761 PROPELLER, 13 1/2 X 24 OMC Raker
J115GLSOB, J115PLSOR, J120TLAEM, J120TLAIE, J120TLAND, J120TLASB, J125ESXENR, J125ESXESS, J125ESXW, J140CXCEC, J140CXEIA, J140CXENM, J140CXESR, J55WRLSOE, J90GLSOB, J90PLSOA