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a) Consider a single phase transformer with primary and secondary turns of 1000 and 200 respectively fed by a 5 kV supply. The equivalent circuit of the transformer has the following component values derived from your student number: R1 10. XN R2 = 2.XN Rm = 15. XY kN X1 = 12. Y N X2 = 2. YN %3D Xm 10.00 kN where X and Y are the last two digits of your student number. For example: 10.2 N, Rm If your student number is c1700123, then R1 and X, = 12.3 N. Orif your student number is c1700100, then R1 and X1 = 12.0 N. = 15.23 kN, %3D 10.0 N, Rm 15.00 kN, %3D (i) Draw the simplified equivalent circuit by referring series components on the primary side to the secondary giving all component values. (iii) The transformer is connected to an inductive load of 10. Y 2. Calculate the voltage across the load.

a) Consider a single phase transformer with primary and secondary turns of 1000 and 200 respectively fed by a 5 kV supply. The equivalent circuit of the transformer has the following component values derived from your student number: R1 10. XN R2 = 2.XN Rm = 15. XY kN X1 = 12. Y N X2 = 2. YN %3D Xm 10.00 kN where X and Y are the last two digits of your student number. For example: 10.2 N, Rm If your student number is c1700123, then R1 and X, = 12.3 N. Orif your student number is c1700100, then R1 and X1 = 12.0 N. = 15.23 kN, %3D 10.0 N, Rm 15.00 kN, %3D (i) Draw the simplified equivalent circuit by referring series components on the primary side to the secondary giving all component values. (iii) The transformer is connected to an inductive load of 10. Y 2. Calculate the voltage across the load.

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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The student number is 1700123
a) Consider a single phase transformer with primary and secondary turns of 1000 and 200 respectively fed by a 5 kV supply. The equivalent circuit of the transformer has the following component values derived from your student number: R1 = 10.XN R2 = 2. XN Rm = 15. XY kN %3D X1 = 12. Y N X2 = 2. Y N Xm = 10.00 kN where X and Y are the last two digits of your student number. For example: If your student number is c1700123, then R1 and X1 Or if your student number is c1700100, then R1 and X1 10.2 2, Rm 15.23 kN, 12.3 N. %3D = 10.0 N, Rm = 15.00 kN, = 12.0 N. (i) Draw the simplified equivalent circuit by referring series components on the primary side to the secondary giving all component values. (iii) The transformer is connected to an inductive load of 10. Y Q. Calculate the voltage across the load.
Transcribed Image Text:a) Consider a single phase transformer with primary and secondary turns of 1000 and 200 respectively fed by a 5 kV supply. The equivalent circuit of the transformer has the following component values derived from your student number: R1 = 10.XN R2 = 2. XN Rm = 15. XY kN %3D X1 = 12. Y N X2 = 2. Y N Xm = 10.00 kN where X and Y are the last two digits of your student number. For example: If your student number is c1700123, then R1 and X1 Or if your student number is c1700100, then R1 and X1 10.2 2, Rm 15.23 kN, 12.3 N. %3D = 10.0 N, Rm = 15.00 kN, = 12.0 N. (i) Draw the simplified equivalent circuit by referring series components on the primary side to the secondary giving all component values. (iii) The transformer is connected to an inductive load of 10. Y Q. Calculate the voltage across the load.
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