For the following circuit, consider that both diodes D1 and D2 are ideal, that is VK = 0 v. Consider the input source Vin = 48sen (wt) V, a frequency of 60 Hz. Consider that the PIV of both diodes is high enough (negative value), so that both diodes never conduct in reverse A) For the output voltage Vout, indicate according to the study of what type of signal rectified is treated, and mathematically develop the value of the voltage Vdc of the signal of exit Vout. Fully justify the solution. D1 Vout + 6 kN Vin 3 kN D2 6 kΩ Remember the DC value of a periodic function is: Vac E v(t)dt
For the following circuit, consider that both diodes D1 and D2 are ideal, that is VK = 0 v. Consider the input source Vin = 48sen (wt) V, a frequency of 60 Hz. Consider that the PIV of both diodes is high enough (negative value), so that both diodes never conduct in reverse A) For the output voltage Vout, indicate according to the study of what type of signal rectified is treated, and mathematically develop the value of the voltage Vdc of the signal of exit Vout. Fully justify the solution. D1 Vout + 6 kN Vin 3 kN D2 6 kΩ Remember the DC value of a periodic function is: Vac E v(t)dt
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Question 1.3
Transcribed Image Text:For the following circuit, consider that both diodes D1 and D2 are ideal, that is VK = 0 v.
Consider the input source Vin = 48sen (wt) V, a frequency of 60 Hz.
Consider that the PIV of both diodes is high enough (negative value), so that both diodes never
conduct in reverse
A) For the output voltage Vout, indicate according to the study of what type of signal
rectified is treated, and mathematically develop the value of the voltage Vdc of the signal
of exit Vout. Fully justify the solution.
D1
Vout +
6 kN
Vin
3 kN
D2
6 kΩ
Remember the DC value of a periodic function is:
Vac
E v(t)dt
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