0389922 JOHNSON HOUSING AND COVER ASSY


0389922 HOUSING AND COVER ASSY JOHNSON 100ML79S, 115ML79R, 140ML79R, 150TL79C, 175TL79R, 200TL79A, 235TL70A, 50R79C, 55E79C, 70EL79R, 75ELR79R, 85ML79R, J100MLCSC, J115MLCIH, J115MLCSA, J140MLCIH, J140MLCSA, J150TLCIA, J150TLCSF, J175TLCIH, J175TLCSA, J200TLCIH, J200TLCSF, J235TLCIB, J235 HOUSING
0389922 HOUSING AND COVER ASSY JOHNSON
Rating:
18

Buy HOUSING AND COVER ASSY 0389922 JOHNSON genuine, new aftermarket parts with delivery
Number on catalog scheme: 18
 

BRP JOHNSON entire parts catalog list:

100ML79S, 100TLR79S, 100TXLR79S 1979
115ML79R, 115TL79R, 115TXL79R 1979
140ML79R, 140TL79R, 140TXL79R 1979
150TL79C, 150TXL79C 1979
175TL79R, 175TXL79R 1979
200TL79A, 200TXL79A 1979
235TL70A, 235TXL79A 1979
50R79C, 50RL79C 1979
55E79C, 55EL79C 1979
70EL79R 1979
75ELR79R, 75ER79R 1979
85ML79R, 85TL79R, 85TXL79R 1979
J100MLCSC, J100TRLCSC, J100TRXCSC 1980
J115MLCIH, J115MLCIM, J115TLCIH, J115TLCIM, J115TXCIH, J115TXCIM 1981
J115MLCSA, J115TLCSA, J115TXCSA 1980
J140MLCIH, J140MLCIM, J140TLCIH, J140TLCIM, J140TXCIH, J140TXCIM 1981
J140MLCSA, J140TLCSA, J140TXCSA 1980
J150TLCIA, J150TLCIH, J150TXCIA, J150TXCIH 1981
J150TLCSF, J150TLCSR, J150TXCSF, J150TXCSR 1980
J175TLCIH, J175TLCIM, J175TXCIH, J175TXCIM 1981
J175TLCSA, J175TLCSF, J175TXCSA, J175TXCSF 1980
J200TLCIH, J200TXCIB, J200TXCIH 1981
J200TLCSF, J200TLCSM, J200TXCSF, J200TXCSM 1980
J235TLCIB, J235TLCIH, J235TXCIB, J235TXCIH 1981
J235TLCSM, J235TXCSM 1980
J50BECIC, J50BELCIC 1981
J50ECSR, J50ELCSR 1980
J55RCIM, J55RLCIM 1981
J55RLCSA 1980
J60ECIA, J60ECIH, J60ELCIA, J60ELCIH, J60TLCIA, J60TLCIH 1981
J60ECSR, J60ELCSR 1980
J70ELCIH, J70ELCIM, J70TLCIM 1981
J70ELCSA 1980
J75ERCIH, J75ERCIM, J75ERLCIH, J75ERLCIM, J75TELCIM, J75TRLCIH 1981
J75ERCSA, J75ERLCSA, J75TRLCSA 1980
J85MLCSA, J85TLCSA, J85TXCSA 1980
J90MLCIH, J90MLCIM, J90TLCIH, J90TLCIM, J90TXCIH, J90TXCIM 1981

Information:


Personal injury or death can result from high voltage.When power generation equipment must be in operation to make tests and/or adjustments, high voltage and current are present.Improper test equipment can fail and present a high voltage shock hazard to its user.Make sure the testing equipment is designed for and correctly operated for high voltage and current tests being made.When servicing or repairing electric power generation equipment:
Make sure the unit is off-line (disconnected from utility and/or other generators power service) , and either locked out or tagged DO NOT OPERATE.
Remove all fuses.
Make sure the generator engine is stopped.
Make sure all batteries are disconnected.
Make sure all capacitors are discharged.Failure to do so could result in personal injury or death. Make sure residual voltage in the rotor, stator and the generator is discharged.
Accidental engine starting can cause injury or death to personnel working on the equipment.To avoid accidental engine starting, disconnect the battery cable from the negative (−) battery terminal. Completely tape all metal surfaces of the disconnected battery cable end in order to prevent contact with other metal surfaces which could activate the engine electrical system.Place a Do Not Operate tag at the Start/Stop switch location to inform personnel that the equipment is being worked on.
Grounding the Frame
In any generator set installation, the frame of the generator must be positively connected to an earth ground. This connection is the first connection that is made at the installation. This connection is the last connection that should be removed. If the generator set is on flexible mounting pads, the ground connection must be flexible in order to avoid possible breakage in later operation.Ground connection cable or straps should have at least the current carrying capacity of the largest line lead to the connected load. Joints in cables or straps must be clean, free of electrical resistance, and protected from possible oxidation. Bolted ground connection joints eventually oxidize. The joints are frequent sources of radio frequency interference (RFI). Joints that are silver soldered and bolted are preferred.Neutral Connections
The generators with a Wye Configuration usually have the neutral ground when the generator is installed. Grounding the neutral is for preventing damage to equipment.If the neutral wire is grounded and one of the phase leads becomes grounded, the excessive current will open a load circuit breaker. Also, the excessive current will cause the generator voltage to collapse. The result depends on the following items: electrical characteristics of the generator , type of fault and trip rating of the circuit breaker. An undervoltage device may be required in order to provide an adequate short circuit protection.There are some cases when the neutral wire is not grounded. An ungrounded generator neutral lead is acceptable when the possibility of grounds to the phase leads has been eliminated. An example of such measures are ground fault protective circuits. Ground fault protection requires the entire group of distribution circuits to be treated as a system. The owner should contact a certified consultant if a new distribution system is being developed. The owner should also contact a certified consultant if an existing system should be modified for the ground fault protection. Single Units
Each unit should be connected to a common ground.In a three-phase, four-wire system, the neutral wire should be grounded according to local wiring codes. Be sure to check your local wiring codes.Connection Diagrams
The connections are located in the enclosure for the control panel.Change the position of the wire terminals in order to modify the connection. The code for the winding is specified on the nameplate.Wiring Code A for Three-Phase Configuration
Illustration 1 g00952030
Illustration 2 g00952058
Factory connection for "A" wiring code
Table 1
L-L Voltage for Wiring Code A
Winding 50 Hz 60 Hz
6 190-208 190-240
7 220-230 -
8 - 190-208 R 230 voltage sensing - 0 => (T8) / 110 V => (T11)R 438 LS voltage sensing - 0 => (T3) / 220 V => (T2)Wiring Code B for Single-Phase Configuration or Three-Phase Configuration
Illustration 3 g00952097
Illustration 4 g00952196
Factory connection for "B" wiring code


Parts housing JOHNSON:

0313113
 
0313113 HOUSING
115ETZ78C, 140ML78C, 150TL78S, 175TL78C, 200TL78R, 235TL78R, 55ES69A, 85ETLR78C, CJ275TLCDC, CJ275TLCOS, CJ300TLCDC, CJ300TLCOS, D100WTLM, J100MLCSC, J100STLCCA, J100STLCEM, J100STLESB, J100WMLCDR, J100WMLCOC, J100WMLCRS, J100WTLCUA, J100WTLESM, J100
0309474
 
0309474 HOUSING, Terminal
100ML79S, 115ETZ78C, 115ML79R, 140ML78C, 140ML79R, 150TL78S, 150TL79C, 175TL78C, 175TL79R, 200TL78R, 200TL79A, 235TL70A, 235TL78R, 55ES69A, 85ETLR78C, 85ML79R, BJ50DTLEDC, BJ60ELEDR, BJ70ELEDA, CJ275TLCDC, CJ275TLCOS, CJ300TLCDC, CJ300TLCOS, D100WTLM
0581778
HOUSING,Rectifier and lead assembly
0581778 HOUSING,Rectifier and lead assembly
10E77A, 10E78M, 10EL79B, 15E77M, 15E78B, 15E79E, 25E77S, 25E78C, 25E79R, 35E77C, 35E78R, 35E79A, 50R79C, 55E78S, 55E79C, BJ20SEECB, BJ20SEEDA, BJ20SEEUM, BJ25EECE, BJ25EEDM, BJ25EEED, BJ25EEUB, BJ25ELSIC, BJ25ELSSS, BJ30EECS, BJ30EEDE, BJ30EEEC, BJ30
0389455
HOUSING AND BEARING ASSY.
0389455 HOUSING AND BEARING ASSY.
150TL79C, 175TL79R, 200TL79A, 235TL70A, BJ115ELEDR, BJ115ELEUA, BJ115GLECM, BJ115PLEEM, BJ115PLSIE, BJ115PLSSB, BJ130PLEED, BJ130PLSSS, BJ130TLECE, BJ130TLEDM, BJ130TLEUB, BJ135PLSIF, BJ150ELECD, BJ150ELEDB, BJ150ELEUC, BJ175EXECD, BJ175EXEDB, BJ175E
0326065
 
0326065 HOUSING,Starter
J35AELCDE, J40ECDE, J40ECOB, J40ECRM, J45RCCDS, J50BECDE, J50BECIC, J55RCIM, J55RLCSA, J55RSLN, J55RWLCDC, J55RWLCOS, J55RWLCRD, J60ECIA, J60ECSR, J65RWLCDR, J65RWLCOC, J65RWLCRS
0511806
 
0511806 HOUSING
J115MLCIH, J115MLCNB, J140MLCIH, J140MLCNB, J150STLCOH, J150STLCRD, J150STLCTE, J150TLCIA, J150TLCNM, J150TLCOS, J150TLCRD, J150TLCTB, J175TLCIH, J175TLCNB, J175TLCOC, J175TLCTD, J185TLCOC, J185TLCRS, J200TLCIH, J200TLCNE, J200TLCTD, J235STLCOR, J235
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