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Source: ELECTRICAL EQUIPMENT HANDBOOK
CHAPTER 11
SYNCHRONOUS MACHINES
A synchronous machine operates at a fixed speed determined by the frequency of the power
supply connected to it. The normal operating speed of the machine is known as the synchro-
nous speed, given by
f
n 120 r/min
s P
where f frequency of applied signal, Hz, and P number of poles of the synchronous
machine. In a synchronous machine, the relationship between the operating speed and the
frequency of the power supply connected to it remains unchanged.
Synchronous machines have a wide range of output power applications. On the low end,
the clock and timing motors and control alternators are in the milliwatt range. At the high
end, the large alternators used in electric power generation have exceeded 1500-MW
output power.
Synchronous machines are called alternators when used as generators. The smallest
alternator is probably an ac tachometer. It is used as a speed sensor.
Synchronous motors have a wide range of applications. They are used in clocks and
recording devices. The power rating of these motors varies from a few hundred watts to
more than 100 MW. They operate at constant speed in a variety of applications including
compressors, pumps, and drives for textile mills.
PHYSICAL DESCRIPTION
A synchronous machine has two electrical windings. They both provide excitation for the
machine. The armature winding is where the main voltage is induced. The effect (excita-
tion) that the current flowing in the armature winding has on the voltage developed in it is
called the armature reaction. The field winding is the second winding in the machine. It
enhances the magnetic excitation of the machine. In some machines, the field winding is
replaced by permanent magnets. This configuration is called a permanent magnet synchro-
nous machine.
The armature winding of a synchronous machine can be installed on the rotor or the stator.
Most large synchronous machines have the armature winding on the stator and the field
winding on the rotor.
Synchronous machines are classified according to the design of the rotor. There are
salient-pole and nonsalient smooth rotors (also known as cylindrical rotors). In a salient-pole
rotor, the windings are wound around an even number of poles that protrude out of the rotor.
These poles, known also as projections, are made of magnetic materials called saliencies.
In a cylindrical rotor, the poles do not protrude out of the rotor. Figures 11.1 and 11.2 illus-
trate a salient-pole and a cylindrical rotor, respectively.
11.1
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