GenTran R1220 Manuale Utente
3
For “Hard-wired” Generator Connection: (Models R6010, R6020, R1020, R1220)
1. Follow steps 1 - 6 as described above.
2. Installer to determine size of conduit for bringing power from generator to the Power Center. KOs on bottom of Power Center should be
2. Installer to determine size of conduit for bringing power from generator to the Power Center. KOs on bottom of Power Center should be
used, although alternate entry is adequate when necessary. Watertight hubs should be used above live breaker terminals. NOTE: If a 2” KO
is cut in the side of the Power Center enclosure, the dead front panel may need to be “notched” to clear the 2” fittings. The back of the KO
must be 3/8” from the rear of the enclosure.
is cut in the side of the Power Center enclosure, the dead front panel may need to be “notched” to clear the 2” fittings. The back of the KO
must be 3/8” from the rear of the enclosure.
3. Terminate wires from generator to “Generator Main” circuit breaker lugs on the Right side of the bus assembly. Terminate neutral and
ground wires into the appropriate bars provided.
4. Proceed with steps 7, 8 and 9 as described above.
TABLE 1 - SPECIFICATIONS:
MODEL #
R2060
R3060
R5010
R2020
R3020
R5020
UTILITY MAIN breaker, Included
60 Amp
60 Amp
100 Amp
200 Amp
200 Amp
200 Amp
GEN MAIN breaker, included
20 Amp
30 Amp
50 Amp
20 Amp
30 Amp
50 Amp
Max Load per Circuit
As marked
As marked
As marked
As marked
As marked
As marked
Max Load on Generator
20 Amp
30 Amp
50 Amp
20 Amp
30 Amp
50 Amp
Max Watts @ 250 Volt
5000
7500
12,500
5000
7500
12,500
Max Watts @ 125 Volt
5000
7500
12,500
5000
7500
12,500
Max 1-pole Circuits *
16
16
16
12
12
12
Max 2-pole Circuits *
8
8
8
6
6
6
NEMA Config. of Inlet
L14-20
L14-30
CS6365
L14-20
L14-30
CS6365
Min. gauge Cord Size
12/4 wire
10/4 wire
6/4 wire
12/4 wire
10/4 wire
6/4 wire
TABLE 1A – SPECIFICATIONS:
MODEL #
R6010
R6020
R1020
R1220
UTILITY MAIN breaker, Included
100 Amp
200 Amp
200 Amp
200 Amp
GEN MAIN breaker, included
60 Amp
60 Amp
100 Amp
125 Amp
Max Load per Circuit
As marked
As marked
As marked
As marked
Max Load on Generator
60 Amp
60 Amp
100 Amp
125 Amp
Max Watts @ 250 Volt
15,000
15,000
25,000
30,000
Max Watts @ 125 Volt
15,000
15,000
25,000
30,000
Max 1-pole Circuits *
16
12
12
12
Max 2-pole Circuits *
8
6
6
6
NEMA Config. of Inlet
N/A
N/A
N/A
N/A
Min. gauge Cord Size
Hardwired
Hardwired
Hardwired
Hardwired
NOTE: if Ground Fault Circuit Interrupting (GFCI) breakers, Arc-Fault breaker or surge protecting circuit breakers are used in the Power Center,
they will reduce the maximum number of circuits from the number shown in the table above. Also if circuit breakers larger than 50 amps are used
as sub-feed breakers, the maximum number of circuit breakers will also be reduced. Contact Gen/Tran at 1-888-GEN-TRAN for more information
on GFCI, Arc-Fault and Surge Protecting circuit breakers.
they will reduce the maximum number of circuits from the number shown in the table above. Also if circuit breakers larger than 50 amps are used
as sub-feed breakers, the maximum number of circuit breakers will also be reduced. Contact Gen/Tran at 1-888-GEN-TRAN for more information
on GFCI, Arc-Fault and Surge Protecting circuit breakers.
Operating Your Power Center Transfer Switch:
Transferring from Utility Power to Generator Power:
1.
Move generator outdoors. WARNING: Operating a generator indoors or in a garage could result in injury or death.
2.
Insert the male plug of the Power Cord into the correct outlet on the generator.
3.
Plug in the female connector of the Power Cord to the inlet (if provided) located on the bottom of the Power Center.
4.
Turn OFF all circuit breakers in the Power Center and Main load center.
5.
Start the generator outdoors, following the procedures described in the generator’s owner’s manual furnished by the manufacturer.
6.
Turn ON the GENERATOR MAIN circuit breaker in the Power Center.
7.
Turn ON individual circuit breakers in the Power Center and the Main load center up to the continuous wattage rating of your generator. If the Generator
Main breaker trips, you have overloaded the generator. Some circuit breakers must be turned OFF to avoid damage to the generator or to the loads being
connected.
Main breaker trips, you have overloaded the generator. Some circuit breakers must be turned OFF to avoid damage to the generator or to the loads being
connected.