Consider the half-wave rectifier shown in the figure below. Let vs be a sinusoidal with 10V peak amplitude with frequency of 60Hz and let R = 1000 ohms. Use the contant voltage-drop diode model with VD = 0.7 V.
Consider the half-wave rectifier shown in the figure below. Let vs be a sinusoidal with 10V peak amplitude with frequency of 60Hz and let R = 1000 ohms. Use the contant voltage-drop diode model with VD = 0.7 V.
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
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Consider the half-wave rectifier shown in the figure below. Let vs be a sinusoidal with 10V peak amplitude with frequency of 60Hz and let R = 1000 ohms. Use the contant voltage-drop diode model with VD = 0.7 V.
Transcribed Image Text:Consider the half-wave rectifier circuit shown in the figure boclow. Let Ug be a sinusoid with
10V peak amplitude with frequency of 60 Hz, and let R = 1 k2. Use the constant-voltage-
drop diode model with Vp = 0.7 V.
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D.
R
kuf
27f =
VSE
Figure 1: Question2 Rectifier Circuit
Transcribed Image Text:(a) Sketch the transfer characteristic function of vo vs US-
(b) Sketch the waveform of uo on the same graph with vs over at least two (2)
cycles of us
(c) Find the peak current through the resistor R
(d) Sketch the output waveform vo if a capacitor C is connected in parallel with
R.
(e) Calculate the value of the capacitor C that will ensure that the voltage
peak voltage and lowest voltage is no greater that 10% of the peak voltage
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