Consider the control system shown in Figure 2. It is desired to design a PID controller such that the dominant closed-loop poles are located at (s=-1+j 1.732). For the PID controller, choose a =1 and then determine the values of K and b. Sketch the root-locus diagram for the designed system Consider the system shown in Figure below. It is desired to design a PID controller such that the dominant closed-loop poles are located at s = -1 ± j√3. For the PID controller, choose a 1 and then determine the values of K and b. R(s) (s+a)(s+b) K PID controller Ge(s) 32+1 Plant G(s) C(s)
Consider the control system shown in Figure 2. It is desired to design a PID controller such that the dominant closed-loop poles are located at (s=-1+j 1.732). For the PID controller, choose a =1 and then determine the values of K and b. Sketch the root-locus diagram for the designed system Consider the system shown in Figure below. It is desired to design a PID controller such that the dominant closed-loop poles are located at s = -1 ± j√3. For the PID controller, choose a 1 and then determine the values of K and b. R(s) (s+a)(s+b) K PID controller Ge(s) 32+1 Plant G(s) C(s)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Transcribed Image Text:Consider the control system
shown in Figure 2. It is desired to
design a PID controller such that
the dominant closed-loop poles
are located at (s=-1+j 1.732). For
the PID controller, choose a =1
and then determine the values of
K and b. Sketch the root-locus
diagram for the designed system
Consider the system shown in Figure below. It is desired to design a PID
controller such that the dominant closed-loop poles are located at s = -1 ± j√3.
For the PID controller, choose a 1 and then determine the values of K and b.
R(s)
(s+a)(s+b)
K
PID controller
Ge(s)
32+1
Plant
G(s)
C(s)
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