R(s) + E(s) V(s) N(s) K P(s) We want to design a speed control for a DC motor. The transfer function form voltage V(s) to DC motor speed Q(s) is: 2(s) 100 P(e) V (8) 50s2 + 600s + 1000 We want to design a compensator K so that the response of the feedback system to a reference step of 1-rad/sec satisfies the following requirement settling time 2/3 sec and percent overshoot 2%.
R(s) + E(s) V(s) N(s) K P(s) We want to design a speed control for a DC motor. The transfer function form voltage V(s) to DC motor speed Q(s) is: 2(s) 100 P(e) V (8) 50s2 + 600s + 1000 We want to design a compensator K so that the response of the feedback system to a reference step of 1-rad/sec satisfies the following requirement settling time 2/3 sec and percent overshoot 2%.
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Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:R(s) +
E(s)
Σ
V(s)
N(s)
K
P(s)
We want to design a speed control for a DC motor. The transfer function form voltage
V(s) to DC motor speed Q(s) is:
N(s)
100
P(s) =
V (8)
50s² + 600s + 1000
We want to design a compensator K so that the response of the feedback system to a
reference step of 1-rad/sec satisfies the following requirement settling time 2/3 sec and
percent overshoot 2%.
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