Input U(s) Y(s) Output 0.78 G(s) = 49s +7s+1 Note that this transfer function differs from the general form given in equation (3). You can assume a transfer function coefficient like, G(s) = k*Go(s) where Go(s)is in the general form above kis the non-unity steady state gain. Define w„, 7, and the DC gain. Calculate the OS%, Ts, Tæ steady state error for the cases below, using mathematical equations. Do not change the value of the w, for the cases below.
Input U(s) Y(s) Output 0.78 G(s) = 49s +7s+1 Note that this transfer function differs from the general form given in equation (3). You can assume a transfer function coefficient like, G(s) = k*Go(s) where Go(s)is in the general form above kis the non-unity steady state gain. Define w„, 7, and the DC gain. Calculate the OS%, Ts, Tæ steady state error for the cases below, using mathematical equations. Do not change the value of the w, for the cases below.
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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Transcribed Image Text:Consider the following system,
Input
U(s)
Y(s)
Output
0.78
G(s) =
49s +7s+1
Note that this transfer function differs from the general form given in equation
(3). You can assume a transfer function coefficient like, G(s) = k*Go(s) where
Go(s) is in the general form above kis the non-unity steady state gain.
Define w, 3, and the DC gain.
Calculate the OS%, Ts, Te steady state error for the cases below, using
mathematical equations. Do not change the value of the w, for the cases below.
i.
ii.
5 =2
iii.
5 = 0.5
iv.
5 = 0
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