QUESTION 2 a. Consider the circuit shown in Figure Q2. L R R Vo Figure Q2 i What is the Laplace transfer function H(s)= V,(s)/V,(s) of the circuit of Figure Q2? Put H(s) under the standard form: H(s)=- s+ 2W„s+ w% (hint: use node analysis for this purpose) ii Assume R = 502, L= 5 mH, and C = 4 µF. What is the type of damping exhibited by the network. iii Suppose now that the capacitance C is adjusted so that the settling time of the network T, is less than 0.5 milliseconds. Determine the maximum possible value of C so that T; s0.5 milliseconds. Assume that the values of the other circuit components are unchanged.

QUESTION 2 a. Consider the circuit shown in Figure Q2. L R R Vo Figure Q2 i What is the Laplace transfer function H(s)= V,(s)/V,(s) of the circuit of Figure Q2? Put H(s) under the standard form: H(s)=- s+ 2W„s+ w% (hint: use node analysis for this purpose) ii Assume R = 502, L= 5 mH, and C = 4 µF. What is the type of damping exhibited by the network. iii Suppose now that the capacitance C is adjusted so that the settling time of the network T, is less than 0.5 milliseconds. Determine the maximum possible value of C so that T; s0.5 milliseconds. Assume that the values of the other circuit components are unchanged.

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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