Finding Time Constant from Root Locus of a Transfer Function

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benjamin schroll le 29 Avr 2021

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Commenté : benjamin schroll le 29 Avr 2021

I have a transfer function: G_s is the open loop, V_R is the closed loop. I have plotted the root locus of the open loop with the complex poles of the closed loop. I am trying to find a way to pull the points of the poles in order to calculate the time constant. is there a way to get the location of the poles without having to look at the plot and then type them in manually?

G_s =

11.11

----------------------

s^2 + 1.333 s + 0.3333

V_R =

11.11

----------------------

s^2 + 1.333 s + 0.6665

figure %Make new Figure

rlocus(G_s) %Root Locus of G(s) (OPEN LOOP)

hold on %keep same figure

rlocus(V_R) %Root Locus of V(s)/R(s) with complex Poles in red X's

title('Open loop Root Locus of G(s)')

hold off

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Paul le 29 Avr 2021

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Right click a point on a rlocus plot and a data tip will pop up with useful information.

Unclear what Vr is or how it relates to G_s and why the root locus of V_r is needed. But if you really want the the root locus of both on the same plot, then try:

rlocus(G_s,V_R)