13. Find 'z' in the following PID controller, Ge[s], to locate the closed-loop poles at SA = -2±j2 for the given system. You don't need to determine a gain value, K. K(s+z)(8+2) G[s] = 1 (s+2)² and Ge[s] (a) z doesn't exist. (b) z = 4.0 (c) z = 2.0 (d) z = 0.0
13. Find 'z' in the following PID controller, Ge[s], to locate the closed-loop poles at SA = -2±j2 for the given system. You don't need to determine a gain value, K. K(s+z)(8+2) G[s] = 1 (s+2)² and Ge[s] (a) z doesn't exist. (b) z = 4.0 (c) z = 2.0 (d) z = 0.0
Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Question
GS13
![Assume the following block diagram for the exam questions dealing with output feedback
control involving G[s] and Ge[s].
• hộ lao]
R[0]
{]E[A] [G₂ [P]]
Σ
[G[p]
Y[s]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5ecf1484-f95f-4119-9858-43c8382b92c0%2F93c708ec-3e9e-476c-980d-c364411abf74%2F5f7ufl9_processed.png&w=3840&q=75)
Transcribed Image Text:Assume the following block diagram for the exam questions dealing with output feedback
control involving G[s] and Ge[s].
• hộ lao]
R[0]
{]E[A] [G₂ [P]]
Σ
[G[p]
Y[s]
![13.
Find 'z' in the following PID controller, Ge[s], to locate the closed-loop poles at
SA = -2±j2 for the given system. You don't need to determine a gain value, K.
K(s+z)(8+2)
G[s] =
1
(s+2)²
and Ge[s]
(a) z doesn't exist.
(b) z = 4.0
(c) z = 2.0
(d) z = 0.0](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F5ecf1484-f95f-4119-9858-43c8382b92c0%2F93c708ec-3e9e-476c-980d-c364411abf74%2F8hdhv3k_processed.png&w=3840&q=75)
Transcribed Image Text:13.
Find 'z' in the following PID controller, Ge[s], to locate the closed-loop poles at
SA = -2±j2 for the given system. You don't need to determine a gain value, K.
K(s+z)(8+2)
G[s] =
1
(s+2)²
and Ge[s]
(a) z doesn't exist.
(b) z = 4.0
(c) z = 2.0
(d) z = 0.0
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