Induction Motor Rotor

Induction Motor Rotor

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The rotor is a moving component of an electromagnetic system in the electric motor, electric generator, or alternator. Its rotation is due to the interaction between the windings and magnetic fields which produces a torque around the rotor’s axis.

Rotor as the name suggests it is a rotating part of an electrical machine, in which current is induced by transformer action from rotating magnetic field.

Induction Motor Rotor

Induction motor rotor is of two types:

  1. Squirrel Cage Rotor
  2. Wound Type Rotor or Slip Ring Type Rotor

Squirrel Cage Rotor

In this type of rotor, the rotor winding consists of conductors, in form of copper or aluminium bars embedded in semi-closed slots of a laminated rotor core. To facilitate a closed path in the rotor circuit, both sides of the rotor bars are short-circuited by end rings.

Squirrel Cage Rotor

Features of Squirrel Cage Rotor

This type of rotor does not have a definite number of poles, but the same number of stator poles will be induced in the rotor automatically through induction. Hence for a squirrel cage rotor The squirrel cage rotor has very low leakage reactance as it does contain any winding on the rotor and it results in low starting torque and maximum running torque.

As we know that for increasing the value of stating torque we have to increase the value of rotor resistance and to increase it we have to insert a resistance in series with rotor winding, but in case of squirrel cage rotor we cannot insert it as its rotor bars are short-circuited by end ring from both sides. Thus we can say that squirrel cage rotor produces good running performance but poor starting performance.

Drawbacks of Squirrel Cage Rotor

  1. Low starting torque
  2. High starting currents
  3. Poor power factor

But starting characteristics of squirrel cage rotor can be improved partially by modifying circuit design.

Skewed Rotor Bars

One of the purposes of skewing the rotor bars is to increase the value of rotor resistance so that starting torque can be improved. We know that resistance is proportional to length hence by skewing the rotor bars length of bars is increased hence resistance increases so does the torque.

Wound Type Rotor or Slip Ring Type Rotor

This type of rotor is also made up of laminated cold rolled grain oriented silicon steel to reduce eddy current loss and hysteresis loss. The rotor winding is distributed as well short pitched to get a sinusoidal emf output.

The operation of an induction motor is not possible with an unequal number of stator and rotor poles, and this type of rotor does not respond automatically to change in a number of stator poles. Hence the number of rotor poles must be made equal to the number of stator poles.

Wound Type Rotor or Slip Ring Type Rotor

If the rotor is provided with 3 – phase windings; the rotor windings must be connected in star connection irrespective of whether the stator winding is connected in star or delta.

Features of Wound Type Rotor or Slip Ring Type Rotor

The major difference between squirrel cage rotor and wound type rotor is the presence of slip ring in wound type rotor hence it is also called as slip ring rotor. The three terminals of star connected rotor windings are brought out and are connected to the external resistors through the slip ring.

Slip rings are made up of a high resistance material such as phosphorous bronze or brass. Brush contacts are used for making the connection of the rotor winding with the external circuit, Brushes are made up of carbon or copper material, but carbon is prefered due to its self-lubricating property. So friction losses are less with carbon brushes.

To improve the starting torque, external resistors are used. This external resistor also limits the starting current drawn by the motor at the time of starting. Hence power factor improves. By seeing above points, we can conclude that “due to provision of extra resistor, Wound Type Rotor or Slip Ring Type Rotor type of induction motor has good stating performance but poor running performance“.

Induction Motor Rotor Conclusion

After going through the above portion of induction motor rotor we can now establish types of induction motor rotors. I hope you enjoy when reading this article, thank you.