Exam question: synchronous motor excitation

When over excitation occurs, it is known as a synchronous condenser as it supplies reactive power to the source. In under excitation mode, it functions as an induction motor with a lagging power factor. The armature in a synchronous motor has synchronously-excited salient poles, unlike an induction motor which has a squirrel cage. In summary, synchronous motors can be operated in under excitation and over excitation modes, with different effects on their performance and power factor.
  • #1
tobiascarter
5
0
Here is a multiple choice question i was completely stumped on, and still can't find the right answer for in my textbooks...

Name 2 forms of excitation with respect to synchronous motors:
a) under and over excitation
b) dc & ac variation
c) dc excitation and load variation
d) armature and stator reversal

Any clues or certain answers would be appreciated
 
Last edited:
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  • #2
Synchronous motor can be operated in under or over excited modes. If operated in over excitation mode, it is also called as synchronous condenser, because it supplies reactive power to the source.
 
  • #3
and if it is under excited??
 
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  • #4
it is Induction motor.(it works on lagging p.f.)
 
  • #5
hmparikh1990 said:
it is Induction motor.(it works on lagging p.f.)
When running as a synchronous motor, it is still synchronous, and the armature has a lagging phase. There is no phase slippage, like in an induction motor. It has synchronously-excited salient poles on the armature, not a squirrel cage like induction motors.

Bob S
 

What is a synchronous motor excitation?

A synchronous motor excitation refers to the process of providing a direct current (DC) to the motor's field winding to create a rotating magnetic field, which in turn allows the motor to operate at a constant speed that is synchronized with the frequency of the power supply.

How does a synchronous motor excitation work?

The excitation current creates a magnetic field that interacts with the stator's rotating magnetic field, causing the rotor to rotate at a constant speed. This is because the rotor's magnetic field is "locked in" with the stator's magnetic field, resulting in a synchronous motion.

What are the advantages of using a synchronous motor excitation?

Synchronous motors offer high efficiency, low maintenance, and a constant speed of operation. Additionally, they are able to handle high starting torques and have a better power factor compared to other types of motors.

What are the different types of synchronous motor excitation?

The most common types of synchronous motor excitation are permanent magnet, self-excited, and separately excited. Permanent magnet excitation uses permanent magnets in the rotor to create the magnetic field, self-excited excitation uses the motor's own armature windings to create the field, and separately excited excitation uses a separate DC source to provide the field current.

What are some applications of synchronous motor excitation?

Synchronous motors are commonly used in industrial applications such as pumps, fans, and compressors, as well as in power generation and transmission systems. They are also used in synchronous clocks and timing devices due to their ability to operate at a constant speed.

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