Given L(s) = KG(s) s(s+10) (a) Find the value of K such that the maximum overshoot of the closed-loop system to a step input is less than 20%. (b) Determine the maximum value of the frequency response, the resonant frequency, and the bandwidth of the closed-loop system corresponding to the resulted K value per (a).
Given L(s) = KG(s) s(s+10) (a) Find the value of K such that the maximum overshoot of the closed-loop system to a step input is less than 20%. (b) Determine the maximum value of the frequency response, the resonant frequency, and the bandwidth of the closed-loop system corresponding to the resulted K value per (a).
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:K
Given L(s) = KG(s) =
s(s+10)'
(a) Find the value of K such that the maximum overshoot of the closed-loop system to a step
input is less than 20%.
(b) Determine the maximum value of the frequency response, the resonant frequency, and the
bandwidth of the closed-loop system corresponding to the resulted K value per (a).
Transcribed Image Text:The closed-loop systems in all problems
are represented by the following block diagram:
R(s)-
K
G(s)
Y(s)
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