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Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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* if possible, kindly the solution isnt handwriting ( text through keyboard ) is much appreciated and readable*

Course:

EE 350 ( System Dynamics and control )

Major: electrical engineering

For a similar PD controlled positioning system given in the previous problem, where
1
Ge(s) = K(s + 4) and Gp(s)
s(s+2)(s²+10s+41)
sketch the root-locus of the system for K = 1 by means of the computations requested below. A tyipical
cascaded control system is presented in the figure below.
(a) When sketching the root locus, if necessary, make use of the asymptotes finding og and 6, that are the
intersecting point and angles with the real axis, respectively with the following formula,
E finite poles-E finite zeros
da
#finite poles-#finite pzeros
(2k+1)m
and Oa = inite poles-#finite pzeros"
, where k = 0,±1, ±2,..
(b) If the root locus intersects the ja-axis, find the values of poles at crossing points, the value of gain K at
the crossings points and write the range of gain K making the system stable.
(c) If there are complex poles find the angle of departure.
(d) Find the breakaway and break-in points if they exist.
(e) Plot the root-locus of the system for the positive values of gain
(f) Repeat the same steps for a PID controlled positioning system that has the following transfer functions.
Ge(s) = Ks+4)6+0.5) and Gp(s) =
(s+2)(s²+10s+41)
R(s)
(s)
G(8)
Gp(3)
Transcribed Image Text:For a similar PD controlled positioning system given in the previous problem, where 1 Ge(s) = K(s + 4) and Gp(s) s(s+2)(s²+10s+41) sketch the root-locus of the system for K = 1 by means of the computations requested below. A tyipical cascaded control system is presented in the figure below. (a) When sketching the root locus, if necessary, make use of the asymptotes finding og and 6, that are the intersecting point and angles with the real axis, respectively with the following formula, E finite poles-E finite zeros da #finite poles-#finite pzeros (2k+1)m and Oa = inite poles-#finite pzeros" , where k = 0,±1, ±2,.. (b) If the root locus intersects the ja-axis, find the values of poles at crossing points, the value of gain K at the crossings points and write the range of gain K making the system stable. (c) If there are complex poles find the angle of departure. (d) Find the breakaway and break-in points if they exist. (e) Plot the root-locus of the system for the positive values of gain (f) Repeat the same steps for a PID controlled positioning system that has the following transfer functions. Ge(s) = Ks+4)6+0.5) and Gp(s) = (s+2)(s²+10s+41) R(s) (s) G(8) Gp(3)
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