Design a differentiator to have a time constant of 10s and an input capacitance of 0.05µF. What is the gain, magnitude and phase ofthis circuit at 100 rad/s?O R=2M2, Gain=0.1, Phase-90 degreesO R=200k2, Gain=1, Phase= -90 degreesO R=20 kQ, Gain=D0.01, phase=90 degreesO R=2M2, Gain=1. phase3D90 For the circuit given below, if R1= 25k2, R2=50K2, Ra=50 K2, R3= 10KN, and Rf= 10k2, find the expression of Vo.RaRfR1V1 WR3R2v2 WO Vo= -2V1- V2O Vo= -2V1+2V2O Vo= 2V1+V2O Vo= -2V1+V2

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Design a differentiator to have a time constant of 10s and an input capacitance of 0.05µF. What is the gain, magnitude and phase of this circuit at 100 rad/s? O R=2M2, Gain=D0.1, Phase=-90 degrees O R=200k2, Gain=1, Phase= -90 degrees O R=20 k2, Gain=0.01, phase=90 degrees O R=2M2, Gain=1, phase-90

Design a differentiator to have a time constant of 10s and an input capacitance of 0.05µF. What is the gain, magnitude and phase of this circuit at 100 rad/s? O R=2M2, Gain=D0.1, Phase=-90 degrees O R=200k2, Gain=1, Phase= -90 degrees O R=20 k2, Gain=0.01, phase=90 degrees O R=2M2, Gain=1, phase-90

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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