Question No. 2: Part (a): Apply and analyze Routh-Hurwitz stability on the transfer function in eq. 2 and comment on its stability. s³+25+7 G(s) = 56+55-254-35³-45-5 Part (b): Analyze the range of K, and K, for which closed loop system in figure 1 is stable. Where, G₂ = 15 s²+175+12 + e G Figure 1: Closed loop ystem with Pl control and Gc= K₂ +1 S y
Question No. 2: Part (a): Apply and analyze Routh-Hurwitz stability on the transfer function in eq. 2 and comment on its stability. s³+25+7 G(s) = 56+55-254-35³-45-5 Part (b): Analyze the range of K, and K, for which closed loop system in figure 1 is stable. Where, G₂ = 15 s²+175+12 + e G Figure 1: Closed loop ystem with Pl control and Gc= K₂ +1 S y
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:Question No. 2:
Part (8): Apply and analyze Routh-Hurwitz stability on the transfer function in cq. 2 and
comment on its stability.
s³+25+7
G(s) =
56+55-254-35³-45-5
Part (b): Analyze the range of K, and K, for which closed loop system in figure 1 is stable.
Where, G₂ =
e, Gp:
15
s²+175+12
+
e
G
Figure 1: Closed loop ystem with Pl control
and Gc= K₂ +1
y
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