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Question 9.8: A three-phase, four-pole, 50 Hz induction motor rotates at a...

A three-phase, four-pole, 50 Hz induction motor rotates at a full-load speed of 1470 rpm. The EMF measured between the slip-ring terminals when the rotor is not rotating is 200 V. The rotor windings are star connected and has resistance and stand-still reactance per phase of 0.1 Ω and 1.0 Ω, respectively. Calculate the rotor current on full load.

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N_{r} = 1470 rpm

N_{s}=\frac{120 f}{P}=\frac{120 \times 50}{4}=1500 rpm

S=\frac{N_{s}-N_{r}}{N_{s}}=\frac{(1500-1470)}{1500}=0.02

Rotor-induced EMF between the slip rings at standstill, E_{20} = 200 V.

As the rotor windings are star connected,

E_{20} per phase         =\frac{200}{\sqrt{3}}=115.4  V

When the rotor is rotating at a speed of 1470 rpm the rotor-induced EMF per phase, E_{2} is

E_{2}=S  E_{20}=0.02 \times 115.4=2.3  V

Rotor current when the rotor is rotating at 1470 rpm,

I_{2}=\frac{S  E_{20}}{Z_{2}}=\frac{S  E_{20}}{\sqrt{R_{2}^{2}+\left(SX_{20}\right)^{2}}}

Substituting values

I_{2}=\frac{2.3}{\sqrt{(0.1)^{2}+(0.02 \times 1)^{2}}}=\frac{2.3}{0.102}=22.5  A

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