Q4. In the full-wave diode rectifier shown below, the diodes are ideal. The source voltage is v, = 300 sin(100t) V. (a) Sketch the output voltage vo(t), on a time interval spanning 2 cycles of the source voltage. (b) Find the ripple voltage V,. (c) Find the conduction duration of the diodes in one half-cycle of the ac source voltage. (d) Find the average of the diode currents during conduction. 1:1 D4 1 kN< Vo 100 uF D2
Q4. In the full-wave diode rectifier shown below, the diodes are ideal. The source voltage is v, = 300 sin(100t) V. (a) Sketch the output voltage vo(t), on a time interval spanning 2 cycles of the source voltage. (b) Find the ripple voltage V,. (c) Find the conduction duration of the diodes in one half-cycle of the ac source voltage. (d) Find the average of the diode currents during conduction. 1:1 D4 1 kN< Vo 100 uF D2
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:Q4. In the full-wave diode rectifier shown below, the diodes are ideal. The source voltage is v, = 300 sin(100t) V.
(a) Sketch the output voltage vo(t), on a time interval spanning 2 cycles of the source voltage.
(b) Find the ripple voltage V,.
(c) Find the conduction duration of the diodes in one half-cycle of the ac source voltage.
(d) Find the average of the diode currents during conduction.
1:1
D4
1 kO
Vo
100 uF
D2
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