3. Consider the system r where W(s) = = 2 W(s) S Fig. 3 K , K=100: +10s +5 3.1 Determine the static gain of the open loop system; 3.2 Determine the static gain of the closed loop system; 3.2 Find the open loop poles; 3.4 Find the closed loop poles; 3.5 Estimate the settling time of the closed-loop system, (input r(s)=1/s); 3.6 Determine overshoot o of the closed system; 3.7 For the output signal y(t) of closed loop systems, find the frequency and period of the oscillations; 3.8 Find the magnitude and time of first maximum of output signal y(t); 3.9 Find the steady state value of output signal y(t); 3.10 Determine K for which the closed loop system has percent overshoot o = 20%: 3.11 Sketch the root locus of closed loop system as parameter K varies.
3. Consider the system r where W(s) = = 2 W(s) S Fig. 3 K , K=100: +10s +5 3.1 Determine the static gain of the open loop system; 3.2 Determine the static gain of the closed loop system; 3.2 Find the open loop poles; 3.4 Find the closed loop poles; 3.5 Estimate the settling time of the closed-loop system, (input r(s)=1/s); 3.6 Determine overshoot o of the closed system; 3.7 For the output signal y(t) of closed loop systems, find the frequency and period of the oscillations; 3.8 Find the magnitude and time of first maximum of output signal y(t); 3.9 Find the steady state value of output signal y(t); 3.10 Determine K for which the closed loop system has percent overshoot o = 20%: 3.11 Sketch the root locus of closed loop system as parameter K varies.
Power System Analysis and Design (MindTap Course List)
6th Edition
ISBN:9781305632134
Author:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Publisher:J. Duncan Glover, Thomas Overbye, Mulukutla S. Sarma
Chapter14: Power Distribution
Section: Chapter Questions
Problem 14.19P
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