The circuit shown in Figure 2 is a half-wave rectifier. T, is a step-down transformer wi turn ratio of 5:1. Assume and ideal diode. i. Calculate the secondary voltage, V2, and the peak secondary voltage, Væpk) ii. Sketch the secondary voltage, Vz for four (4) cycles. Indicate the time. i. Determine the peak output voltage VOUTIOA), and de voltage, Va at the output load.
The circuit shown in Figure 2 is a half-wave rectifier. T, is a step-down transformer wi turn ratio of 5:1. Assume and ideal diode. i. Calculate the secondary voltage, V2, and the peak secondary voltage, Væpk) ii. Sketch the secondary voltage, Vz for four (4) cycles. Indicate the time. i. Determine the peak output voltage VOUTIOA), and de voltage, Va at the output load.
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
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Transcribed Image Text:5:1
120 V
60 Hz
V2
RL
1 ko
Figure 2
Half-wave center-tapped transformer
N V,
N, V,
Turns ratio,
N,
Secondary voltage,
%3D
N,
V,
Vplsec0.707
Peak secondary voltage,
The dc load voltage,
V
Transcribed Image Text:(a) The circuit shown in Figure 2 is a half-wave rectifier. T, is a step-down transformer with a
turn ratio of 5:1. Assume and ideal diode.
i. Calculate the secondary voltage, V2, and the peak secondary voltage, Vap)
ii. Sketch the secondary voltage, V2 for four (4) cycles. Indicate the time.
i. Determine the peak output voltage VOUTIOA), and de voltage, Vác at the output load.
iv. Determine the dc load current, IRL, and the dc diode current, laode
v. Sketch the output voltage, Vout for four (4) cycles. Indicate the dc voltage, Vac, and
time at the output load.
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