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

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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Assume that an input signal is applied to the circuit given above, as shown in the figure next to it. Accordingly, answer the following questions. The diodes used are silicon diodes, their operating voltages are 0.7 volts, and can be omitted because their resistance is very small. a) Write the name of this circuit, thinking about which circuit we do in the courses is equivalent to the purpose. b) What are the diodes/diodes that are active in a positive half-loop? Please type. c) What are the diodes/diodes active in the negative half-loop? Please type. d) Calculate ? ?−???( ?? ) for this circuit.
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