Q3: Consider non-minimum phase unity feedback system with the following open loop transfer function: G(s) = k(s-3)(s-5) (s+ 1)(s + 2) Sketch the root locus for this system. Then Obtain the gain K such that the damping ratio of the closed-loop poles will be equal 0.6, and the time-domain specifications (tr, tp,%OS, ts).
Q3: Consider non-minimum phase unity feedback system with the following open loop transfer function: G(s) = k(s-3)(s-5) (s+ 1)(s + 2) Sketch the root locus for this system. Then Obtain the gain K such that the damping ratio of the closed-loop poles will be equal 0.6, and the time-domain specifications (tr, tp,%OS, ts).
Introductory Circuit Analysis (13th Edition)
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Transcribed Image Text:Q3: Consider non-minimum phase unity feedback system with the following open loop
transfer function:
k(s-3)(s-5)
(s + 1)(s + 2)
Sketch the root locus for this system. Then Obtain the gain K such that the damping
ratio of the closed-loop poles will be equal 0.6, and the time-domain specifications
(tr, tp, %OS, ts).
G(s) =
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