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R(5) " 9**** = Y($) To stabilize the unstable Open Loop system. a) Find the break...
Problem 5. (20pts) The open-loop transfer function of a unity feedback system G(8) -- +2) a)...
Problem 5. (20pts) The open-loop transfer function of a unity feedback system G(8) -- +2) a) Locate open-loop zeros and open-loop poles. b) Construct the root-locus diagram as 0 <K <oo. Mark the portions of the real axis that belong to the root locus - Mark with K =0 the point where the root locus bra O the point where the root locus branches start and with K = oo the point where the branches end. - Find break-away and/or...
Consider the following unity feedback system for Problems 2-3 R(9) —tqKAG YIS) Figure 1 Problem 2...
Consider the following unity feedback system for Problems 2-3 R(9) —tqKAG YIS) Figure 1 Problem 2 Consider the system shown in the above figure, where G(s) = s(8+1128+1) a) Draw a Bode diagram of the open-loop transfer function G(s) when K=1. b) On your plot, indicate the crossover frequencies, PM, and GM. Is the closed-loop system stable with K=1? c) Determine the range of K for which the closed-loop systems will be stable. d) Verify your answer in (c) using...
Consider the feedback sy PID COntroller Plant R(S) Y(s) the closed-loop transfer function T(s) = Y...
Consider the feedback sy PID COntroller Plant R(S) Y(s) the closed-loop transfer function T(s) = Y controller (Kp Find er p 1, Ks K ) and show that the system is marginally stable with two imaginary roots. (s)/R(s) with no sabl thosed-loop transfer function T(s) Y (S/R(s) with the (three- term) PID controller added to stabilize the system. suming that Kd 4 and K, -100, find the values (range) of Kp that will stabilize the system.
G(s) = K(s + 2) (s2 + 9)/(s-2)(s+6) For the system above, find the following through calculations:
G(s) = K(s + 2) (s2 + 9)/(s-2)(s+6) For the system above, find the following through calculations: a) Sketch the root locus by hand, labeling all relevant points on your plot. a. Open Loop Poles and Zeros. b. Centroid (if there are any) c. Asymptotes (if there are any) d. Break away points (if there are any). e. Location where the poles cross into the Right Half Plane b) Discuss the stability of the system as the gain changes (i.e. does the system ever become unstable?). Find the...
Consider the following closed-loop system. Find the break-away and break-in points of the root-locus, and the...
Consider the following closed-loop system. Find the break-away and break-in points of the root-locus, and the corresponding values of gain K. R(s) Y(s) K G(s) H(s) KG(s)H(s) = K(8+3) (8-1)(8+2) O break-away (S = -5, K = 1), break-in (S = -1, K= 9) break-away (S = -5, K = 9), break-in (S = -1, K= 1) break-away (S = -1, K = 9), break-in (S = -5, K = 1) break-away (s = -1, -1, K= 1), break-in (S...
please do part D only the matlab. thank you 3. Consider the following system s(s2 +4s...
please do part D only the matlab. thank you
3. Consider the following system s(s2 +4s 13) (a) Draw the root locus. b) Use Routh's criterion to find the range of the gain K for which the closed-loop system is stable. (continued on next page) (c) The range of K for which the system is stable can also be obtained by finding a point of the root locus that crosses the Imaginary axis. When you have an Im-axis crossing, the...
A2. (a) Explain how the open-loop polar plot can be used to assess closed-loop stability by...
A2. (a) Explain how the open-loop polar plot can be used to assess closed-loop stability by applying Nyquist's stability criterion. Apply Nyquist's stability criterion to determine the stability condition for a closed-loop system that is unstable in the open-loop. [30%] = K (b) An unstable system has transfer function given by G(S) in which the gain K is S(S-2) positive. A derivative compensator H(s) = 0.5s + 1 is inserted in the negative feedback path to form a control loop....
G(s) Y(s) s+2 1. (25 points) A system has G(S) = 21ac11: (a) Find the two...
G(s) Y(s) s+2 1. (25 points) A system has G(S) = 21ac11: (a) Find the two points that define each real-axis segment of the root locus. (b) Find the maximum value of the gain K for the closed-loop to be stable. If there are root loci that cross the imaginary axis, also find the corresponding frequency of the closed-loop roots that lie on the imaginary axis. (c) Find the angle of departure from the complex poles. (d) Find the location...
02: For the following closed loop system below: R(s) or L(s) = (s B's ey draw the root locus stab...
02: For the following closed loop system below: R(s) or L(s) = (s B's ey draw the root locus stable a) and find the range ofk for which the closed loop system, s (s-B)(S-C) b) for Ls) -GrsmisrG draw the root locus and find the range of k for which the closed loop system is (s+A)(s+B)(s+C) stable. c) For (a) and (b), find.: 1 the value of K so that the system is marginally stable, and for that value, find...
Problem 3 (25 points): Consider the following closed-loop control system K(s +9) (s4s + 11) A....
Problem 3 (25 points): Consider the following closed-loop control system K(s +9) (s4s + 11) A. Plot the open-loop poles and zeros on a graph. B. Compute and draw an C. Compute any break-away and break-in points. D. Compute any jo crossings. E. Draw a qualitatively-correct root locus diagram. y asymptote real intercepts and angles. Locate the closed-loop poles on the root locus plot such that the don closed-loop poles have a-damping-ratio equal to.0.5,and-determine corresponding value of the gainK.-
Problem 5. (20pts) The open-loop transfer function of a unity feedback system G(8) -- +2) a) Locate open-loop zeros and open-loop poles. b) Construct the root-locus diagram as 0 <K <oo. Mark the portions of the real axis that belong to the root locus - Mark with K =0 the point where the root locus bra O the point where the root locus branches start and with K = oo the point where the branches end. - Find break-away and/or...
Consider the following unity feedback system for Problems 2-3 R(9) —tqKAG YIS) Figure 1 Problem 2 Consider the system shown in the above figure, where G(s) = s(8+1128+1) a) Draw a Bode diagram of the open-loop transfer function G(s) when K=1. b) On your plot, indicate the crossover frequencies, PM, and GM. Is the closed-loop system stable with K=1? c) Determine the range of K for which the closed-loop systems will be stable. d) Verify your answer in (c) using...
Consider the feedback sy PID COntroller Plant R(S) Y(s) the closed-loop transfer function T(s) = Y controller (Kp Find er p 1, Ks K ) and show that the system is marginally stable with two imaginary roots. (s)/R(s) with no sabl thosed-loop transfer function T(s) Y (S/R(s) with the (three- term) PID controller added to stabilize the system. suming that Kd 4 and K, -100, find the values (range) of Kp that will stabilize the system.
Consider the following closed-loop system. Find the break-away and break-in points of the root-locus, and the corresponding values of gain K. R(s) Y(s) K G(s) H(s) KG(s)H(s) = K(8+3) (8-1)(8+2) O break-away (S = -5, K = 1), break-in (S = -1, K= 9) break-away (S = -5, K = 9), break-in (S = -1, K= 1) break-away (S = -1, K = 9), break-in (S = -5, K = 1) break-away (s = -1, -1, K= 1), break-in (S...
please do part D only the matlab. thank you
3. Consider the following system s(s2 +4s 13) (a) Draw the root locus. b) Use Routh's criterion to find the range of the gain K for which the closed-loop system is stable. (continued on next page) (c) The range of K for which the system is stable can also be obtained by finding a point of the root locus that crosses the Imaginary axis. When you have an Im-axis crossing, the...
A2. (a) Explain how the open-loop polar plot can be used to assess closed-loop stability by applying Nyquist's stability criterion. Apply Nyquist's stability criterion to determine the stability condition for a closed-loop system that is unstable in the open-loop. [30%] = K (b) An unstable system has transfer function given by G(S) in which the gain K is S(S-2) positive. A derivative compensator H(s) = 0.5s + 1 is inserted in the negative feedback path to form a control loop....
G(s) Y(s) s+2 1. (25 points) A system has G(S) = 21ac11: (a) Find the two points that define each real-axis segment of the root locus. (b) Find the maximum value of the gain K for the closed-loop to be stable. If there are root loci that cross the imaginary axis, also find the corresponding frequency of the closed-loop roots that lie on the imaginary axis. (c) Find the angle of departure from the complex poles. (d) Find the location...
02: For the following closed loop system below: R(s) or L(s) = (s B's ey draw the root locus stable a) and find the range ofk for which the closed loop system, s (s-B)(S-C) b) for Ls) -GrsmisrG draw the root locus and find the range of k for which the closed loop system is (s+A)(s+B)(s+C) stable. c) For (a) and (b), find.: 1 the value of K so that the system is marginally stable, and for that value, find...
Problem 3 (25 points): Consider the following closed-loop control system K(s +9) (s4s + 11) A. Plot the open-loop poles and zeros on a graph. B. Compute and draw an C. Compute any break-away and break-in points. D. Compute any jo crossings. E. Draw a qualitatively-correct root locus diagram. y asymptote real intercepts and angles. Locate the closed-loop poles on the root locus plot such that the don closed-loop poles have a-damping-ratio equal to.0.5,and-determine corresponding value of the gainK.-
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