Testing policy, Unit capabilities, Generator connections – Winco 2FS Generators 2000 Watt Belt Drive User Manual

2095-0

4

60706-230

TESTING POLICY

Before any generator is shipped from the factory, it

is fully checked for performance. The generator is

loaded to its full capacity, and the voltage, current

and frequency are carefully checked.

Rated output of generator is based on engineering

tests of typical units, and is subject to, and limited

by, the temperature, altitude, fuel, and other condi-

tions specified by the manufacturer of the applicable

engines.

UNIT CAPABILITIES

GENERATOR CONNECTIONS

These generators are designed for 20 volt alternat-

ing current (AC) use only. They utilize two different

means of connecting to you loads. Some models

come with two 20 Volt outlets mounted in them and

other models come with three wire. Actual connec-

tions will be discussed later in the manual.

Check the appliance or tool nameplate for the cur-

rent and voltage to insure compatibility.

STARTING ELECTRIC MOTORS

Electric motors require much more current (amps) to

start them than to run them. Some motors, par-

ticularly low cost split-phase motors, are very hard

to start and require 5 to 7 times as much current

to start them as to run them. Capacitor motors are

easier to start and usually require 2 to 4 times as

much current to start them as to run them. Repul-

sion Induction motors are the easiest to start and

require /2 to 2 /2 times as much to start them as

to run them.

Most fractional horsepower motors take about the

same amount of current to run them whether they

are Repulsion Induction (RI), Capacitor (Cap), or

Split-Phase (SP) type. The chart below shows the

approximate current required to start and run various

types and sizes of 20 volt 60 cycle electric motors

under average load conditions.

HP AMPS

RUNNING

STARTING AMPS

SP

CAP

RI

1/6

3.2

16 to 22

6 to 13

5 to 8

1/4

4.5

22 to 32

9 to 18

7 to 12

1/3

5.2

26 to 35

10 to 21

8 to 17

1/2

7.2

not made 14 to 29 11 to 18

1

13.0

not made 26 to 52 20 to 33

The figures given above are an average load such

as a blower or fan. If the electric motor is connected

to a hard starting load such as an air compressor, it

will require more starting current. If it is connected

to a light load, or no load such as a power saw, it will

require less starting current. The exact requirement

will also vary with the brand or design of the motor.

Self-exiting generators respond to severe overload-

ing differently than utility power. When overloaded,

the engine is not able to supply enough power to

bring the electric motor up to operating speed. the

generator responds with high initial starting current,

but the engine speed drops sharply. The overload

may stall the engine. If allowed to operate at very

low speeds, the electric motor starting winding will

burn out in a short time. The generator winding

might also be damaged.

CAUTION: EQUIPMENT DAMAGE

RUNNING THE GENERATOR SET UNDER

THESE CONDITIONS MAY RESULT IN DAMAGING

THE GENERATOR STATOR AS WELL AS THE MO-

TOR WINDING.

Because the heavy surge of current required for

starting motors is required for only an instant, the

generator will not be damaged if it can bring the

motor up to speed in a few seconds of time. If dif-

ficulty is experienced in starting motors, turn all other

electrical loads off and if possible reduce the load on

the electric motor.