The open-loop transfer function of a unity feedback system is G(s)=K/ s(s+a) The desired system response to a step input is specified as peak time tp = 1 sec and overshoot Mp = 5% (a) Determine whether both specifications can be met simultaneously by selecting the right value of K and a
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!!!!The open-loop transfer function of a unity feedback system is G(s) The desired system response to a step input is specified as peak time tp = 1 sec and overshoot 5%
The open-loop transfer function of a unity feedback system is G(s)=K/ s(s+a) The desired system response to a step input is specified as peak time tp = 1 sec and overshoot Mp = 5% (a) Determine whether both specifications can be met simultaneously by selecting the right value of K and a
;The open-loop transfer function of a unity feedback system is G(s)=K/ s(s+a) The desired system response to a step input is specified as peak time tp = 1 sec and overshoot 5%G(s)=K/s(s+a) overshoot(Mp)= 5%tp=1sec(a)find K and a help me plz!!!!!
The open-loop transfer function of a unity feedback system is G(s)=K/ s(s+a) The desired system response to a step input is specified as peak time tp = 1 sec and overshoot 5%G(s)=K/s(s+a) overshoot(Mp)= 5%tp=1sec(a)find K and a help me plz!!!!!!
3. The open-loop transfer function of a unity feedback system is GS) ss+2) The desired system response to a step input is specified as peak time t,-1 sec and overshoot M,-5% Determine whether both specifications can be met simultaneously by selecting the right value of K
15 points): The open-loop transfer ftunction of a unity teedback system is G)+2) The desired system response to a (a) Determine whether both specifications can be met simultaneously by selectingt step input is specified as peak time tp-l sec and overshoot Mp 5%. he right value of K. etch the associated region in the s plane where both specifications are met, and indicate what root locations are possible for some likely values of K elax the specifications in part (a)...
a unity feedback system has open loop tranfer function G(s)=10/[s(s+2)] the peak overshoot in the step input response of the close loop system is approximate 1/ 35% 2/ 30% 3 40% 4/ 25%
Problem 4. The open-loop transfer function of a unity feedback system is 20 G(s) S+1.5) (s +3.5) (s +15) (a) Design a lag-lead compensator for G(s) using root locus so that the closed-loop system satisfies the design specifications. (b) Design a PID compensator for G(s) using root locus so that the closed-loop system satisfies the design specifications. Design specifications -SSE to a unit step reference input is less than 0.02. Overshoot is less than 20%. Peak time is less than...
3. The open loop transfer function of a unity feedback system is given by \(G(S)=\frac{K}{S(1+S T)}\) Where Tand \(\mathrm{K}\) are constants having positive values. By what factor the amplifier gain be reduced so that (a) peak overshoot of unit step response of the system is reduced from \(75 \%\) to \(25 \% .\) b) The damping ratio increases from \(0.1\) to \(0.6\).
Problem 4. The open-loop transfer function of a unity feedback system is: 20 (s+1.5)(s 3.5) (s 15) G(s) (a) Design a lag-lead compensator for G(s) using root locus so that the closed-loop system satisfies the design specifications (b) Design a PID compensator for G (s) using root locus so that the clos ed-loop system satisfies the design specifications. Design specifications .SSE to a unit step reference input is less than 0.02. Overshoot is less than 20% Peak time is less...
K and consider a PI s+4 A unity feedback system has an open loop transfer function G(s) [4] S+a controller Ge(s) S Select the values of K and a to achieve a) (i) Peak overshoot of about 20% (ii) Settling time (2% bases) ~ 1 sec b) For the values of K and a found in part (a), calculate the unit ramp input steady state error K and consider a PI s+4 A unity feedback system has an open loop...