Y=3 For the ideal transformer circuit given in Figure 6, primary voltage is Vi = 15yz0° V andsecondary voltage is V2 = 1040° V.a) Calculate the turns ratio and the secondary current of the transformer (1).b) Calculate the primary current of the transformer (1,) and the value of the load resistancereflected to primary side of the transformer.c) Calculate the source voltage V,.+loadideal transformer

Answered: Image /qna-images/answer/f976b71b-f730-46d0-97f9-d72e61770fc1.jpg

For the ideal transformer circuit given in Figure 6, primary voltage is Vi = 15yz0° V and secondary voltage is V2 = 1020° V. a) Calculate the turns ratio and the secondary current of the transformer (L). b) Calculate the primary current of the transformer (!) and the value of the load resistance reflected to primary side of the transformer. c) Calculate the source voltage V,. + Rjoad =y 2 ideal transformer +

For the ideal transformer circuit given in Figure 6, primary voltage is Vi = 15yz0° V and secondary voltage is V2 = 1020° V. a) Calculate the turns ratio and the secondary current of the transformer (L). b) Calculate the primary current of the transformer (!) and the value of the load resistance reflected to primary side of the transformer. c) Calculate the source voltage V,. + Rjoad =y 2 ideal transformer +

Power System Analysis and Design (MindTap Course List)

6th Edition

ISBN:9781305632134

Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma

Chapter3: Power Transformers

Section: Chapter Questions

Problem 3.9P

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Question

Y=3

For the ideal transformer circuit given in Figure 6, primary voltage is Vi = 15yz0° V and
secondary voltage is V2 = 1040° V.
a) Calculate the turns ratio and the secondary current of the transformer (1).
b) Calculate the primary current of the transformer (1,) and the value of the load resistance
reflected to primary side of the transformer.
c) Calculate the source voltage V,.
+
load
ideal transformer

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