How a generator works, Ocoii – Generac Power Systems 53187 User Manual

PARTI

THE REVOLVING FIELD AC GENERATOR

1

SECTION 1.2

HOW A GENERATOR WORKS

Section i.2

HOW A GENERATOR WORKS

General

It has long been know n that a relationship exists

betw een m agnetism and electricity. The revolving field
generator (or alternator) depends on this relationship
for its operation. In order to diagnose problem s and

repair a generator, the service technician m ust under­

stand this relationship.

Why Generators Produce Electricity.

Generators produce an electrical current flow be­

cause of the follow ing law s of m agnetic induction:

□ W hen a m agnetic field is m oved so that it cuts across

a conductor, a voltage and current flow are induced
into the conductor.

□ W hen current flow s through a conductor, a m agnetic

field is created around that conductor.

MAGNETIC FIELD CREATES A VOLTAGE;

See Figure 1. W hen a w ire, or coil of w ire, is m oved

through a m agnetic field, an electrom otive force (EMF)
or voltage is induced into the w ire. Conversely, m ove­

m ent of the m agnetic field so that its lines of flux cut
across the w ire w ill induce a voltage into the w ire. If the
ends of the w ire are connected to form a com plete
circuit, current w ill flow in the w ire. The direction in

w hich the current flow s depends on the polarity of the

m agnetic field and the direction in w hich the m agnet is
m oved.

CURRENT FLOW CREATES A MAGNETIC FIELD:

See Rgure 2. Current flow through a w ire or coil of

w ire w ill create a m agnetic field around the w ire. The

strength of the m agnetic field depends on the am ount
of current flow and the num ber of loops or coils in the
w ire. The direction (polarity) of the m agnetic field de­
pends on the direction of current flow through the w ire.

A Simple AC Generator

See Figure 3. In the sim ple generator show n, the

revolving m agnetic field (Rotor) is a perm anent m ag­
net. As the m agnet rotates, its m agnetic lines of flux cut
across a stationary coil of w ire called a STATOR. If the
stator circuit is com pleted (by adding a load such as the
light bulb), current w ill flow through the circuit.

A

More

Sophisticated

Generator

In Figure 4, direct current (DC) is delivered to the

ROTOR coil through CARBON BRUSHES and SLIP
RINGS, to create a m agnetic field around the ROTOR.
The greater the current flow through the ROTOR w ind­
ings, the stronger the m agnetic field around the

ROTOR. The ROTOR’S m agnetic field cuts across the
stationary STATOR w indings, to induce a voltage into
those w indings, w ith the induced voltage proportional
to the strength of the ROTOR’S m agnetic field.

11

11

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Figure 1. M agnetism Creates Electricity

Figure 2. Current Flow Creates a M agnetic Field

Û.

T

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ü э ” r ^

< o ¿»V.

STATOR

z

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a.

oc

u 3

o u

BRUSHES

RINGS

Figure 4. A M ore Sophisticated Generator

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