The impedance of the stator winding of a 440 V, star-connected, three-phase inductio n motor is (0,2 + j0,8) Ω per phase and that of the rotor is (0,06 + j0,25) Ω per phase at standstill. The turns ratio is 2. Using the approximate equivalent circuit, calculate the rotor current and the power factor when the slip is reduced to 25% by injecting 16,2 V/phase into the rotor circuit without any phase compensation.

The impedance of the stator winding of a 440 V, star-connected, three-phase inductio n motor is (0,2 + j0,8) Ω per phase and that of the rotor is (0,06 + j0,25) Ω per phase at standstill. The turns ratio is 2. Using the approximate equivalent circuit, calculate the rotor current and the power factor when the slip is reduced to 25% by injecting 16,2 V/phase into the rotor circuit without any phase compensation.

Electric Motor Control

10th Edition

ISBN:9781133702818

Author:Herman

Publisher:Herman

Chapter39: Synchronous Motor Operation

Section: Chapter Questions

Problem 14SQ: Induction motors and welding transformers require magnetizing current, which causes a. lagging power...

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