For the system of Figure 2, T = 2 s and G(z) = K(z + 0.8) (z − 1)(z- 0.6) T G(s) Figure 2. Unity feedback system. a) Determine the range of K for stability using the Routh-Hurwitz criterion. b) Determine the range of K for stability using the Jury test.

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For the system of Figure 2, ? = 2 s and
?(?) =
?(? + 0.8)
(? − 1)(? − 0.6)
Figure 2. Unity feedback system.
a) Determine the range of ? for stability using the Routh–Hurwitz criterion.
b) Determine the range of ? for stability using the Jury test. 

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For the system of Figure 2, T = 2 s and
G(z) =
K(z + 0.8)
(z − 1)(z- 0.6)
T
G(s)
Figure 2. Unity feedback system.
a) Determine the range of K for stability using the Routh-Hurwitz criterion.
b) Determine the range of K for stability using the Jury test.
Transcribed Image Text:For the system of Figure 2, T = 2 s and G(z) = K(z + 0.8) (z − 1)(z- 0.6) T G(s) Figure 2. Unity feedback system. a) Determine the range of K for stability using the Routh-Hurwitz criterion. b) Determine the range of K for stability using the Jury test.
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