Design an integrator circuit and a differentiator circuit with τ = 1 ms (hint: use a 100 nF capacitor for both). Connect the two circuits in series (i.e. the output of the integrator should be connected to the input of the differentiator). If the input signal of the integrator is a sinewave with an amplitude of 1 V and a frequency of 100 Hz, what will the output of the differentiator be?
Design an integrator circuit and a differentiator circuit with τ = 1 ms (hint: use a 100 nF capacitor for both). Connect the two circuits in series (i.e. the output of the integrator should be connected to the input of the differentiator). If the input signal of the integrator is a sinewave with an amplitude of 1 V and a frequency of 100 Hz, what will the output of the differentiator be?
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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Design an integrator circuit and a differentiator circuit with τ = 1 ms (hint: use a 100 nF
capacitor for both). Connect the two circuits in series (i.e. the output of the integrator should be
connected to the input of the differentiator). If the input signal of the integrator is a sinewave
with an amplitude of 1 V and a frequency of 100 Hz, what will the output of the differentiator be?
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