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Operation
OUTPUT POWER AVAILABLE AND LOAD DETERMINATION
Before using the generator, read and understand the following
information.
Generator output current (amperage) is internally limited by
circuit breakers. If too much demand is placed on a generator
output (if you try to drive too many motors with it, for example),
one of the circuit breakers will trip, cutting off the output in
order to protect the generator.
A 15 amp push-to-reset circuit breaker protects the 120V
duplex receptacle output circuit. 15 amps is the total limit for
both outputs of the duplex receptacle.
A 50 amp two pole switch type circuit breaker protects the
240V receptacle output circuit.
A large two pole switch type main circuit breaker protects the
generator windings and output circuits, including the load
disconnect receptacle outputs. The load disconnect recep-
tacle on the 25PTOC is the large round black rubber recep-
tacle on the generator output panel. The mating plug is a
WINCO part number 91357-000. On the 12PTOC it is the 50
amp 4 wire twistlock receptacle on the output panel. The
mating plug is a Hubbell CS6365.
To aid in determining how much load can be applied to the
generator, and how it should be distributed among the
generator output receptacles, the following formulas may be
useful. Get load voltage, current, and wattage from the
nameplates on the equipment in the load.
(Load Current, in amps) x (Load Voltage) = (Load Wattage)
AMPS X VOLTS = WATTS
WATT/1000 = kW
(Load Current in amps) = (Load Wattage)/(Load Voltage)
Example:
250W, 120V floodlight load = 250W/120V= 2 amps (approx.)
NOTE:
Electric motors require much more current to start than to run.
Commonly, the current rating given on a motor nameplate is
the full load (running) current required by the motor, not its
starting current, which is a lot higher. Motor starting current
requirements vary greatly, by motor size and type. Repulsion-
induction type motors are the easiest to start, typically using 1
1/2 to 2 1/2 times as much current to start as to run; capacitor
type motors usually require 2 to 4 times as much current to
start as to run; split-phase type motors are the hardest to start,
normally using 5 to 7 times as much current to start as to run.
MOTOR LOAD
SINGLE PHASE
Motor
Amps
Amps
Horsepower
115V
230V
(Running Amps)
1/4
5.8
2.9
1/3
7.2
3.6
1/2
9.8
4.9
3/4
13.8
6.9
1
16
8
1-1/2
20
10
2
24
12
3
34
17
5
56
28
7-1/2
80
40
Compiled from N.E.C. manual.
To use the full capacity of the generator without tripping its
circuit breaker(s), start the motors in the load one at a time,
highest starting current motor first, next highest second, etc.
Use the preceding table as a source of general information
about motor running current requirements. For more specific
information, see motor nameplate or motor manufacturer’s
catalog.
PRE-START CHECKS
WARNING: Personal Injury
When working on or around these generators, do not wear
loose fitting clothing or any articles that may get caught in
moving parts.
1. Visually inspect the generator. Check for:
a
Correct mounting
b. Physical damage
c. Debris in cooling vents and screens (could
cause generator to overheat).
IMPORTANT: The manufacturer recommends that, if the gen-
erator has been stored for any length of time, before using it,
the operator remove the control box cover and cooling fan
screen, then inspect the generator for rodent nests or other
objects that could cause generator binding and/or overheat-
ing. See “Cleaning” portion of Maintenance section.
2. Check gear case oil level. (See Figure 6.) Case should be
filled with oil to plug marked “OIL LEVEL.” Fill or remove oil
as required.
NOTE: EITHER TOO LITTLE OR TOO MUCH OIL CAN HARM
THE EQUIPMENT.
See “Lubrication” portion of Maintenance for oil specifications.
