1. The input of a full-wave rectifier is a cosine V voltage with peak M = 5 V and frequency 60 Hz, and output load resistance is R = 2 k. Silicon diodes are used in this circuit for V. which the forward drop is DO = 0.7 V. (a) Briefly explain the purpose of a rectifier and describe its operation. (b) Show the input and output waveforms. (c) Calculate the DC value of the output voltage.
1. The input of a full-wave rectifier is a cosine V voltage with peak M = 5 V and frequency 60 Hz, and output load resistance is R = 2 k. Silicon diodes are used in this circuit for V. which the forward drop is DO = 0.7 V. (a) Briefly explain the purpose of a rectifier and describe its operation. (b) Show the input and output waveforms. (c) Calculate the DC value of the output voltage.
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:1. The input of a full-wave rectifier is a cosine
V
voltage with peak M = 5 V and frequency 60
Hz, and output load resistance is R = 2 k2.
Silicon diodes are used in this circuit for
V
which the forward drop is DO = 0.7 V.
(a) Briefly explain the purpose of a rectifier
and describe its operation.
(b) Show the input and output waveforms.
(c) Calculate the DC value of the output
voltage.
Now after connecting a capacitor in parallel
with the load, the output becomes a ripple
V
voltage Vout= DC ±0.2 V
(d) Calculate the peak-to-peak ripple
voltage, and from that, the value of the
capacitor.
(e) Calculate the average of the output voltage
V
DC after connecting the capacitor. Compare
this with the DC value determined in 'c' and
comment on the difference between these
two.
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