Operation Manual

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PRINCIPLE OF OPERATION

MagnaPLUS

generators are brushless, self excited,

externally voltage regulated, synchronous AC generator. The

generator is made up of six major components: main stator

(armature), main rotor (field), exciter stator (field), exciter

rotor (armature), rectifier assembly, and voltage regulator. In

understanding the above terminology, note the following:

stators are stationary, rotors rotate, a field is a DC electrical

input, and an armature is an AC electrical output. These

system components are electrically interconnected as shown

in Figure 1 and physically located as shown in Figure 2.

The generator’s exciter consists of a stationary field and a

rotating armature. The stationary field (exciter stator) is

designed to be the primary source of the generator’s residual

magnetism. This residual magnetism allows the exciter rotor

(armature) to produce AC voltage even when the exciter

stator (field) is not powered. This AC voltage is rectified to DC

by the rotating rectifier assembly and fed directly to the main

rotor (field). As the generator shaft continues to rotate, the

main rotor (field) induces a voltage into the generator's main

stator (armature). At rated speed, the main stator’s voltage

produced by the residual magnetism of the exciter allows the

automatic voltage regulator to function. The regulator

provides voltage to the exciter field resulting in a build-up of

generator terminal voltage. This system of using residual

magnetism eliminates the need for a special field flashing

circuit in the regulator. After the generator has established the

initial residual voltage, the regulator provides a controlled DC

field voltage to the exciter stator resulting in a controlled

generator terminal voltage.

Voltage Regulation

In the standard configuration (shunt excited), the automatic

voltage regulator receives both its input power and voltage

sensing from the generator's output terminals (See Figure 1).

With the optional PMG configuration, the regulator receives

input power from the PMG. The regulator automatically

monitors the generator's output voltage against an internal

reference set point and provides the necessary DC output

voltage to the exciter field required to maintain constant

generator terminal voltage. The generator's terminal voltage

is changed by adjusting the regulator's reference set point.

Consult the regulator manual for specific adjustment and

operating instructions.

MOTOR STARTING

When a motor is started, a large surge of current is drawn by

the motor. This starting current is equivalent to the motors

locked rotor or stall current and is 5 to 10 times normal full

load current. When the generator supplies this in-rush of

starting current, the generator voltage dips temporarily. If the

motor is too large for the generator, the generator’s voltage

dips greater than 30 percent. This may result in the motor

starter de-energizing or the motor stalling. MagnaPlus

generators generally supply .3 to .4 horsepower per

generator KW in motor starting capability. For specific data

contact Marathon Electric.

PARALLEL OPERATION

All MagnaPlus

generators are built with 2/3 pitch main

stator windings and full amortisseur (damper) windings.

These features make the MagnaPlus® generators suitable for

parallel operation when equipped with the proper voltage

regulators and voltage regulator accessories. Consult with the

factory for further information relative to parallel operations.

NONLINEAR LOADING

Solid state electronic control devices (variable frequency

drives, precision motor controls, battery chargers, etc.) utilize

electronic switching circuits (thyristors, SCRs, Diodes, etc.).

These switching circuits introduce high frequency harmonics

which distort the normal wave form of the generator. This

creates additional heat in the generator windings and may

cause the generator to over-heat. Problems which can occur

are not limited to the generator. Poor wave shape may

adversely effect various loads connected to the generator.

Consult Marathon Electric for further information relative to

nonlinear loads.

INSTALLATION

PREPARATION FOR USE

Although the generator has been carefully inspected and

tested in operation prior to shipment from the factory, it is

recommended that the generator be thoroughly inspected.

Check all bolts for tightness and examine the insulation on

lead wires for chafing prior to proceeding with installation.

Remove all shipping tapes, bags, skids and rotor support

blocking. For two bearing units, rotate the shaft by hand to

ensure that it rotates smoothly without binding.