Q1 /A plant has the open loop transfer function shown below, with unity negative feedback and step input with 5 final value . G(s) = s+1)(s – 4) (s+2)(s+3)* Build a Simulink model to generate the plant closed loop transfer function. Set the Stop Time as 30sec. plot the step response of the closed loop system. also generate a plot of the closed loop system with sinusoidal input of amplitude 15, Frequency 0.2Hz.
Q1 /A plant has the open loop transfer function shown below, with unity negative feedback and step input with 5 final value . G(s) = s+1)(s – 4) (s+2)(s+3)* Build a Simulink model to generate the plant closed loop transfer function. Set the Stop Time as 30sec. plot the step response of the closed loop system. also generate a plot of the closed loop system with sinusoidal input of amplitude 15, Frequency 0.2Hz.
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:Q1 /A plant has the open loop transfer function shown below, with unity
negative feedback and step input with 5 final value .
(s+1)(s – 4)
(s+2)(s+3)
G(s)
Build a Simulink model to generate the plant closed loop transfer function.
Set the Stop Time as 30sec. plot the step response of the closed loop
system. also generate a plot of the closed loop system with sinusoidal input
of amplitude 15, Frequency 0.2Hz.
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