Analysis of an Ideal Transformer Circuit The turns ratio of the step-up transformer in Figure 2 is given as N= 4. a) Write the relationship between the phasor currents Ii and I2 in terms of N; and the relationship phasor voltages Vi and V2 in terms of N. b) Construct the equivalent secondary circuit. c) Find the value of Zi that permits maximum average power transfer to Z. d) Calculate the maximum average power transferred to the load impedance ZL. 15Ω j10Ω II 1:4 I2 + + 180|0° V1 } V2 Z1. V rms Figure 2 İdcal transformatör
Analysis of an Ideal Transformer Circuit The turns ratio of the step-up transformer in Figure 2 is given as N= 4. a) Write the relationship between the phasor currents Ii and I2 in terms of N; and the relationship phasor voltages Vi and V2 in terms of N. b) Construct the equivalent secondary circuit. c) Find the value of Zi that permits maximum average power transfer to Z. d) Calculate the maximum average power transferred to the load impedance ZL. 15Ω j10Ω II 1:4 I2 + + 180|0° V1 } V2 Z1. V rms Figure 2 İdcal transformatör
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Analysis of an Ideal Transformer Circuit
Transcribed Image Text:Analysis of an Ideal Transformer Circuit
The turns ratio of the step-up transformer in Figure 2 is
given as N= 4.
a) Write the relationship between the phasor currents Ii
and I2 in terms of N; and the relationship phasor
voltages Vi and V2 in terms of N.
b) Construct the equivalent secondary circuit.
c) Find the value of Zi that permits maximum average
power transfer to Z.
d) Calculate the maximum average power transferred to the load impedance ZL.
15Ω J10Ω
I 1:4 I2
180|0°
V1
V2
ZL
V rms
Figure 2
İdeal transformatör
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