Q1. Characteristics for the Servo problem is given as: 1 G, (s) s2 + 4s + 1' G.(s) = K. ; Gm(s) = G, (s) = 1 Estimate the values of Kc vield a) Over-damped b) Critically damped c) Under-damped closed-loop responses.
Q1. Characteristics for the Servo problem is given as: 1 G, (s) s2 + 4s + 1' G.(s) = K. ; Gm(s) = G, (s) = 1 Estimate the values of Kc vield a) Over-damped b) Critically damped c) Under-damped closed-loop responses.
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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Q1. Characteristics for the Servo problem is given as:
G_p (s)=1/(s^2+4s+1); G_c (s)=K_c ; G_m (s)=G_f (s)=1
Estimate the values of Kc yield
- a) Over-damped
- b) Critically damped
- c) Under-damped closed-loop responses.
- d) Show the block diagram and plot the response graph for the each closed-loop system (over-damped, critically damped, and under-damped) if a unit step is applied by using Simulink. Show also the offset value by using the graph.
- e) Discuss the stability of this system.
Transcribed Image Text:Q1. Characteristics for the Servo problem is given as:
1
G, (s)
G.(s) = K ;
Gm (s) = G, (s) = 1
s2 + 4s + 1'
Estimate the values of Kc yield
a) Over-damped
b) Critically damped
c) Under-damped closed-loop responses.
d) Show the block diagram and plot the response graph for the each closed-loop system
(over-damped, critically damped, and under-damped) if a unit step is applied by using
Simulink. Show also the offset value by using the graph.
e) Discuss the stability of this system.
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