Controller Process E (s) R(s) G(s) G(s) Y(s) Figure P6.6 Unity feedback system. P6.6 A unity-feedback control system is shown in Figure P6.6 O. Determine the relative stability of the system with the following loop transfer functions by locating the complex roots in the s-plane: 10s + 2 a. Gc(s)G(s) = s2(s + 1) 24 b. G.(s)G(s) : s(s3 + 10s2 + 35s + 50) (s +2)(s+3) s(s + 4)(s+ 6) c. G.(s)G(s) = ||
Controller Process E (s) R(s) G(s) G(s) Y(s) Figure P6.6 Unity feedback system. P6.6 A unity-feedback control system is shown in Figure P6.6 O. Determine the relative stability of the system with the following loop transfer functions by locating the complex roots in the s-plane: 10s + 2 a. Gc(s)G(s) = s2(s + 1) 24 b. G.(s)G(s) : s(s3 + 10s2 + 35s + 50) (s +2)(s+3) s(s + 4)(s+ 6) c. G.(s)G(s) = ||
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:Controller
Process
E(s)
R(s)
G(s)
G(s)
Y(s)
Figure P6.6 Unity feedback system.
P6.6 A unity-feedback control system is shown in Figure P6.6 O. Determine
the relative stability of the system with the following loop transfer functions
by locating the complex roots in the s-plane:
10s + 2
a. Ge(s)G(s) =
||
s2 (s + 1)
24
b. G.(s)G(s)
s(s3 + 10s2 + 35s + 50)
(s + 2)(s+ 3)
s(s + 4)(s+ 6)
c. G.(8)G(s) =
||
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