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Receiving & Installation 3-3MN2410
Electrical Connections Continued
Table 3-1 Single Phase Power Receptacle Description
Model Electrical Connection Information (Receptacle Provided at Panel)
Straight 120VAC
(20Amp)
Twist Lock 120VAC
(30Amp)
Twist Lock 120/240VAC
(30Amp)
Twist Lock 120/240VAC
(50Amp)
Rated Watts/
(Full load Amps 120/240)
K3000 2- 5-20R GFCI 120VAC 1- L5-30R 120VAC 2500 / (20.8)
K5000 4- 5-20R GFCI 120VAC 1- L5-30R 120VAC 1- L14-30R 120/240VAC 4500 / (37.5/18.7)
K5000E 4- 5-20R GFCI 120VAC 1- L5-30R 120VAC 1- L14-30R 120/240VAC 4500 / (37.5/18.7)
K6500 4- 5-20R GFCI 120VAC 1- L5-30R 120VAC 1- L14-30R 120/240VAC 6000 / (50.0/25.0)
K6500E 4- 5-20R GFCI 120VAC 1- L5-30R 120VAC 1- L14-30R 120/240VAC 6000 / (50.0/25.0)
R30 4- 5-20R GFCI 120VAC 2500 / (20.8)
R45/R45E 4- 5-20R GFCI 120VAC 1- L5-30R 120VAC 1- L14-30R 120/240VAC 4000 / (33.3/16.7)
R60/R60E 4- 5-20R GFCI 120VAC 1- L5-30R 120VAC 1- L14-30R 120/240VAC 5000 / (41.6/20.8)
OHV30 4- 5-20R GFCI 120VAC 2500 / (20.8)
OHV50H 4- 5-20R GFCI 120VAC 1- L5-30R 120VAC 1- L14-30R 120/240VAC 4000 / (33.3/16.7)
OHV60/OHV60E 4- 5-20R GFCI 120VAC 1- L5-30R 120VAC 1- L14-30R 120/240VAC 5000 / (41.6/20.8)
OHV85E 4- 5-20R GFCI 120VAC 1- L5-30R 120VAC 1- L14-30R 120/240VAC 10000 / (83.3/41.6)
OHV100E 4- 5-20R GFCI 120VAC 1- L5-30R 120VAC 1- L14-30R 120/240VAC 1- CS6369 120/240VAC 8000 / (66.7/33.4)
OHV110E 4- 5-20R GFCI 120VAC 1- L5-30R 120VAC 1- L14-30R 120/240VAC 1- CS6369 120/240VAC 9500 / (79.2/39.6)
Note: GFCI is Ground Fault Protected power.
Class 1 wiring methods must be used for field wiring connections to terminals of a Class 2 circuit.
Figure 3-2 Receptacle Connections
X
(GOLD)
G
W
(SILVER)
NEMA
L5-30R
125V
30A
(GOLD)
X
G
W
(SILVER)
Y
(GOLD)
NEMA
L14-30R
125/250V
30A
(GOLD)
X
W
(SILVER)
(GOLD)
Y
CS6369
125/250V
50A
X
Y
W
NEMA 5-20R
125V 20A
Frame Ground Connection
WARNING: Be sure the system is properly grounded before applying power. Do not apply AC power
before you ensure that grounds are connected. Electrical shock can cause serious or fatal
injury. NEC requires that the frame and exposed conductive surfaces (metal parts) be
connected to an approved earth ground. Local codes may also require proper grounding of
generator systems.
The NEC requires that the frame and exposed metal surfaces be at local ground reference
potential to avoid electrical shock hazard. A local ground reference may require a driven earth
ground conductor at the generator installation site. Make the ground connection as shown in
Figure 3-3. Use the appropriate size wire (normally 6 AWG) as required by NEC and local
codes. The local reference ground is normally a copper clad earth ground rod driven into the
earth at least 8 feet.
WARNING: Do not connect the generator output neutral to the frame or local ground. The generator
output is isolated from ground. NEC and local codes require that the generator output remain
isolated from local ground reference.