9 protection systems – Generac PRIMEPACT 50 04164-3 User Manual

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2.8.1 DO NOT OVERLOAD THE GENERATOR

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Read the rated wattage/amperage capacity of the generator on the

generator data decal (see "Generator Identification").
Applying electrical loads in excess of the unit’s rated capacity will

cause the engine/generator to automatically shut down.
To avoid overloading, add up the wattage of all connected electrical

lighting, appliance, tool and motor loads. This total should not be

greater than the generator’s rated wattage capacity.

Most lighting, appliance, tool and motor loads indicate their

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required watts on their nameplate or data plate. For light bulbs,

simply note the wattage rating of the bulb.

If a load does not show its rated wattage, multiply that load’s

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rated VOLTS times AMPS to obtain WATTS.

Induction type motors (such as those that run the vehicle’s

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furnace fan, refrigerator, air conditioner, etc.) need about 2-1/2

time more watts of power for starting than for running (for a

few seconds during motor starting). Be sure to allow for this

when connecting electrical loads to the generator. First, figure

the watts needed to start electric motors in the system. To that

figure, add the running wattages of other items that will be oper-

ated by the generator.

Do not apply heavy electrical loads for the first two or three

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hours of operation.

2.9 PROTECTION SYSTEMS

2.9.

LOW OIL PRESSURE SWITCH

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This switch (Figure 2.4) has normally closed (N.C.) contacts that

are held open by engine oil pressure during cranking and operating.

Should oil pressure drop below a preset level, switch contacts close,

and the engine automatically shuts down. The unit should not be

restarted until oil is added.

2.9.2 HIGH TEMPERATURE SWITCH

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This switch (Figure 2.4), which has normally open (N.O.) contacts,

is mounted near the oil filter. The contacts close if the temperature

should exceed approximately 293º F (145º C), initiating an engine

shutdown.

Figure 2.4 – Low Oil Pressure and

High Temperature Switches

2.9.3 FIELD

BOOST

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The Controller Circuit Board houses a field boost diode and resistor

that are not part of the automatic choke circuit. These two compo-

nents are part of a “field boost” circuit (Figure 2.5). During engine

cranking only, a positive DC (battery) voltage is delivered through

the diode, resistor, brushes and slip rings, and the generator rotor.

Application of this voltage to the rotor “flashes the field” whenever

it is started. Flashing of the field each time the generator starts

makes sure that a sufficiently strong magnetic field is available to

produce “pickup” voltage in the stator windings.

Figure 2.5 – Field Boost Circuit

2.9.4 OVERVOLTAGE

PROTECTION

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A solid-state voltage regulator (Figure 2.6) controls the generator’s

AC output voltage. This regulator supplies an excitation current to

the rotor. By regulating the rotor’s excitation current, the strength

of its magnetic field is regulated and, in turn, the voltage delivered

to connected electrical loads is controlled. When the AC frequency

is 60 Hertz, voltage is regulated at 120 volts (voltage-to-frequency

ratio is 2-to-1).

Figure 2.6 – Solid State Voltage Regulator

The voltage regulator also incorporates a “voltage surge protection

circuit.” This circuit prevents troublesome surges in the generator

AC output voltage. Voltage surge is a common cause of damage

to electronic equipment.

Section 3 – Maintenance

Recreational Vehicle Generator