DC Generator Theory
DC generators are
widely used to produce a DC voltage. The amount of voltage produced depends on
a variety of factors.
Voltage Production
Recall from Module 3,
DC Circuits, that there are three conditions necessary to induce a voltage into
a conductor.
1.
A magnetic field
2.
A conductor
3.
Relative motion between the two
A DC generator
provides these three conditions to produce
a DC voltage output.
Theory of Operation
A basic DC generator
has four basic parts: (1) a magnetic field; (2) a single conductor, or loop;
(3) a commentator; and (4) brushes. The magnetic field may be supplied by
either a permanent magnet or an electromagnet. For now, we will use a permanent
magnet to describe a basic DC generator.
Fig(1) Basic Operation of a DC Generator |
A single conductor,
shaped in the form of a loop, is positioned between the magnetic poles. As long
as the loop is stationary, the magnetic field has no effect (no relative
motion). If we rotate the loop, the loop cuts through the magnetic field, and
an EMF (voltage) is induced into the loop.
When we have relative
motion between a magnetic field and a conductor in that magnetic field, and the
direction of rotation is such that the conductor cuts the lines of flux, an EMF
is induced into the conductor. The magnitude of the induced EMF depends on the
field strength and the rate at which the flux lines are cut, as given in
equation (5-1). The stronger the field or the more flux lines cut for a given
period of time, the larger the induced EMF.
The direction of the
induced current flow can be determined using the "left-hand rule" for
generators. This rule states that if you point the index finger of your left
hand in the direction of the magnetic field (from North to South) and point the
thumb in the direction of motion of the conductor, the middle finger will point
in the direction of current flow. In the generator shown in Figure 2, for
example, the conductor closest to the N pole is traveling upward across the
field; therefore, the current flow is to the right, lower corner. Applying the
left-hand rule to both sides of the loop will show that current flows in a
counter-clockwise direction in the loop.
Fig(2) Left-Hand Rule for Generators |
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