Consider a induction motor (slip-ring) having a three-phase star-connected rotor. When the stator is supplied with rated voltage, slip ring being open circuit, the induced emf value is 65 Volts. The value of 0.6 ohm and 5.5 ohm are the resistance and stand still reactance of rotor per phase. Determine the following: 1. Rotor current per phase when the rotor is at stand still and connected to rheostat of 5.5 ohm (star-connected) and reactance 0.6 ohm per phase. 2. Rotor current per phase when motor is running at slip of 4% while rheostat is short circuited.
Consider a induction motor (slip-ring) having a three-phase star-connected rotor. When the stator is supplied with rated voltage, slip ring being open circuit, the induced emf value is 65 Volts. The value of 0.6 ohm and 5.5 ohm are the resistance and stand still reactance of rotor per phase. Determine the following: 1. Rotor current per phase when the rotor is at stand still and connected to rheostat of 5.5 ohm (star-connected) and reactance 0.6 ohm per phase. 2. Rotor current per phase when motor is running at slip of 4% while rheostat is short circuited.
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Consider a induction motor (slip-ring) having a three-phase star-connected rotor. When
the stator is supplied with rated voltage, slip ring being open circuit, the induced emf
value is 65 Volts. The value of 0.6 ohm and 5.5 ohm are the resistance and stand still
reactance of rotor per phase. Determine the following:
1. Rotor current per phase when the rotor is at stand still and connected to rheostat of 5.5 ohm (star-connected) and reactance 0.6 ohm per phase.
2. Rotor current per phase when motor is running at slip of 4% while rheostat is short circuited.
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