Type your question here A 4-pole 400 V, 50 Hz wound-rotor induction motor has the following circuit model parameters: R1= 0.3 ohm R2' = 0.25 ohm, X1= X2' = 0.6 ohm , Xo = 35 ohm and rotational loss of 1500 W ( Ro is negligible). When the motor running at 1425 rpm, calculate a) the motor efficiency and, b) the maximum gross power when exciting circuit is omitted.
Type your question here A 4-pole 400 V, 50 Hz wound-rotor induction motor has the following circuit model parameters: R1= 0.3 ohm R2' = 0.25 ohm, X1= X2' = 0.6 ohm , Xo = 35 ohm and rotational loss of 1500 W ( Ro is negligible). When the motor running at 1425 rpm, calculate a) the motor efficiency and, b) the maximum gross power when exciting circuit is omitted.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Type your question here A 4-pole 400 V, 50 Hz wound-rotor induction motor has the following circuit model parameters: R1= 0.3 ohm R2' = 0.25 ohm, X1= X2' = 0.6 ohm , Xo = 35 ohm and rotational loss of 1500 W ( Ro is negligible). When the motor running at 1425 rpm, calculate a) the motor efficiency and, b) the maximum gross power when exciting circuit is omitted.
Transcribed Image Text:Q1// A 4-pole ,400 V, 50 Hz wound-rotor induction motor has the following circuit
model parameters: R¡ = 0.3 N, R¿' = 0.25 Q, X¡ = X;' = 0.6 N , Xo = 35 N and
rotational loss of 1500 W ( Ro is negligible) . When the motor running at 1425 rpm,
calculate a) the motor efficiency and, b) the maximum gross power when exciting circuit
is omitted.
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