North Star 27500 Example = 600W When connecting Resistive load such as, 120V, 60 Hz Motors

Page 7

become excessively hot and cause the insulation to break down, reducing its ability to resist corrosive contaminants. Over time the effectiveness of the insulation is eliminated and a dead short can result.

Always compare the generator nameplate data with that of the equipment to be used to ensure that watts, volts, amperage, and frequency requirements are suitable for operating equipment. The wattage listed on the equipment nameplate is its rated output. However, some equipment may require three to ten times more wattage than its rating on the nameplate, as the wattage is influenced by the equipment efficiency, power factor and starting system. NOTE: If wattage is not given on equipment nameplate, approximate wattage may be determined by multiplying nameplate voltage by nameplate amperage.

VOLTS

X AMPS

= WATTS

Example: 120V

X 5A

= 600W

When connecting

a resistive load such as

incandescent lights, heaters or common electric power tools, a capacity of up to the generator full rated wattage output can be used.

When connecting a resistive-inductive load such as a fluorescent or mercury light, transformers or inductive coils, a capacity of up to 0.6 times the generator’s full rated output can be used.

Always allow the generator to reach operating speed before a load is applied.

STARTING ELECTRIC MOTORS

Electric motors require much more current (amps) to start than to run. Some motors, particularly low cost split-phase motors, are very hard to start and require 5 to 7 times more current to start than to run. Capacitor motors are easier to start and usually require 2 to 4 times as much current to start than to run. Repulsion Induction motors are the easiest to start and require

1.5to 2.5 times as much to start than to run.

Most fractional motors take about the same

amount of current to run them whether they are of Repulsion-Induction (RI), Capacitor (Cap), or Split- Phase (SP) type. The following chart shows the approximate current required to start and run various types and sizes of 120 volt 60 cycle electric motors under various conditions.

120V, 60 Hz Motors

 

Starting Amps

 

Hp motor

Running

RI type

 

Cap type

 

SP type

 

Watts

 

 

 

 

 

1/6

525

7-11

 

9-18

 

16-22

1/4

700

9-15

 

12-23

 

22-32

 

 

 

 

 

 

 

1/3

875

11-18

 

14-29

 

26-35

1/2

1175

15-25

 

20-40

 

NA

1

1925

24-40

 

32-64

 

NA

 

1 1/2

 

2400

 

30-50

 

40-80

 

NA

 

 

 

 

 

 

 

 

2

 

2900

 

36-60

 

48-96

 

NA

 

 

3

 

4075

 

51-85

 

68-136

 

NA

 

 

5

 

6750

 

84-140

 

112-224

 

NA

 

The figures given above are for 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.

Generators respond to severe overloading differently than the power line. When overloaded, the engine is not able to supply enough power to bring the electric motor up to operating speed. The generator responds to the 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 starter winding will burn out in a short time. The generator head winding might also be damaged.

Running the generator under these conditions may result in damage to the generator stator as well as the electric motor windings. Because the heavy surge of current 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. If difficulties in starting a motor are experienced, turn off all other electrical loads and if possible reduce the load on the electric motor.

EXTENSION CORDS

When electric power is to be provided to various loads at some distance from the generator, extension cords can be used. These cords should be sized to allow for distance in length and amperage so that the voltage drop between the set and point of use is held to a minimum.

Current/Power

Maximum Extension Cord Length

Amps

Load

#10

#12

 

#14

#16

at

(watts)

Ga.

Ga.

 

Ga.

Ga.

240V

 

Cord

Cord

 

Cord

Cord

10

2400

250’

150’

 

100’

75’

20

4800

125’

75’

 

50’

25’

 

 

 

 

 

 

 

30

7200

60’

35’

 

25’

10’

40

9600

30’

15’

 

10’

*

50

12000

15’

*

 

*

*

 

 

 

 

*Not recommended

CAUTION: Equipment damage can result from the low voltage caused by using an extension cord with a small wire size.

Use this chart to estimate the total load on your generator.

For Determining Generator Load Requirements

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Contents Thank YOU Model 27500 Ptog Item # Power Take-Off GeneratorSpecifications Table of ContentsMachine Component Identification Ansi Safety DefinitionsReferences 1 Voltmeter. Voltmeter needle Generator FeaturesRules for Safe Operations IntroductionReference 13 Gear Box. Cast iron frame Load Application InstallationFor Determining Generator Load Requirements Example = 600W When connecting Resistive load such asCurrent/Power Maximum Extension Cord Length 120V, 60 Hz MotorsDevice Running Watts PRE-START UP PreparationsLoad Output Generator Care Problem Possible Causes Possible Remedies Troubleshooting

27500 specifications

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Overall, the North Star 27500 represents a fine balance of functionality, comfort, and advanced technology. With its robust construction, spacious accommodation, and cutting-edge features, this vessel is positioned as an excellent choice for those exploring the open waters, whether for business or leisure.
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