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Given a unity feedback system with forward transfer function, K(5-3)...
Problem 2: (20 points) Consider a unity feedback system with the following forward path transfer function...
Problem 2: (20 points) Consider a unity feedback system with the following forward path transfer function G(s) = - cla_K(s + a)(8+3) s(s2 +1) (1) Construct the root locus for K >0 and a = 5; (2) Construct the root locus for a > 0 and K = 10.
1. a. Plot the root loci for the unity-feedback system whose feed-forward transfer function is: K...
1. a. Plot the root loci for the unity-feedback system whose feed-forward transfer function is: K G(s) = s(s? +48 + 8) If the value of K is set 8, where are the closed loop poles located? Hint: Non-dominant pole is an integer. (5 Points) b. Outline the procedure for design of a lag compensator (on the forward path) that cuts down the rise and settling times to half of the dominant second order system in 1. a. (3 Points)...
17. Consider unity feedback system with uncompensated forward transfer function a given by: K G(s) s+3)(s 6) The system...
17. Consider unity feedback system with uncompensated forward transfer function a given by: K G(s) s+3)(s 6) The system requires a damping ratio of 0.5. If the design point is at -1.54 j2.66, design a PI controller to drive the steady-state error of the response to zero
17. Consider unity feedback system with uncompensated forward transfer function a given by: K G(s) s+3)(s 6) The system requires a damping ratio of 0.5. If the design point is at -1.54 j2.66,...
For a negative Problem unity-feedback function youve unity-feedback sustem with the forward transfer tollows, find the...
For a negative Problem unity-feedback function youve unity-feedback sustem with the forward transfer tollows, find the range of K to make the system syolen stable. Please note kiyo Gopen (s) = K (S+ 10) 5 (5+2)(5+3)
1. a. Plot the root loci for the unity-feedback system whose feed-forward transfer function is: G(s)...
1. a. Plot the root loci for the unity-feedback system whose feed-forward transfer function is: G(s) = - s(s? + 4s + 8) If the value of K is set 8, where are the closed loop poles located? (5 Points) Hint: Non-dominant pole is an integer. b. Outline the procedure for design of a lag compensator (on the forward path) that cuts down the rise and settling times to half of the dominant second order system in 1. a. (3...
Given a unity feedback system with the following transfer function a)If the system is to be casca...
Given a unity feedback system with the following transfer
function
a)If the system is to be cascade-compensated so that Ts=1 and
=0.8 find the
compensator pole if the compensator zero is at -4.5
b)determine the range of k for stability
We were unable to transcribe this image)Given 2내 5+644s(s+4
)Given 2내 5+644s(s+4
1. A unity feedback system with its forward transfer function G(s) - K(s+a)/s(s+B) is to be...
1. A unity feedback system with its forward transfer function G(s) - K(s+a)/s(s+B) is to be designed to meet the following requirements: (1) the steady-state error for a unit ramp input equals to 0.1 and (2) the closed-loop poles will be located at -1 + j1. Find K, a, and B in order to meet the specifications. (12 points) 2. Given a unity feedback system with its forward transfer function G(s) shown below: s" (s +a) Find the values of...
1. Given a unity feedback system that has the forward transfer function: Ks(s +10) G(s)= 4s...
1. Given a unity feedback system that has the forward transfer function: Ks(s +10) G(s)= 4s +5 do the following: a) Sketch the root locus. b) Find the imaginary-axis crossing (if relevant). c) Find the breakaway or break-in point (if relevant). d) Find the value of K at the breakaway or break-in point (if relevant). e) Find the angle of departure (if relevant).
4. The open loop transfer function of a unity feedback control system is s 5 Showing...
4. The open loop transfer function of a unity feedback control system is s 5 Showing all calculations, construct the root loci of the characteristic equation of the closed loop system for K20, with (a) n-1 (c) n=5 n-
3. For the feedback control system shown in Figure Q3 below, the forward-path transfer function given...
3. For the feedback control system shown in Figure Q3 below, the forward-path transfer function given by G(s) and the sensor transfer function is given by H(s). R(s) C(s) G(s) H(s) Figure Q3 It is known that G(s) -- K(+20) S(+5) H(s) = and K is the proportional gain. (S+10) i. Determine the closed-loop transfer function and hence the characteristic equation of the system. [6 marks] ii. Using the Routh-Hurwitz criterion, determine the stability of the closed-loop system. Determine the...
Problem 2: (20 points) Consider a unity feedback system with the following forward path transfer function G(s) = - cla_K(s + a)(8+3) s(s2 +1) (1) Construct the root locus for K >0 and a = 5; (2) Construct the root locus for a > 0 and K = 10.
1. a. Plot the root loci for the unity-feedback system whose feed-forward transfer function is: K G(s) = s(s? +48 + 8) If the value of K is set 8, where are the closed loop poles located? Hint: Non-dominant pole is an integer. (5 Points) b. Outline the procedure for design of a lag compensator (on the forward path) that cuts down the rise and settling times to half of the dominant second order system in 1. a. (3 Points)...
17. Consider unity feedback system with uncompensated forward transfer function a given by: K G(s) s+3)(s 6) The system requires a damping ratio of 0.5. If the design point is at -1.54 j2.66, design a PI controller to drive the steady-state error of the response to zero
17. Consider unity feedback system with uncompensated forward transfer function a given by: K G(s) s+3)(s 6) The system requires a damping ratio of 0.5. If the design point is at -1.54 j2.66,...
For a negative Problem unity-feedback function youve unity-feedback sustem with the forward transfer tollows, find the range of K to make the system syolen stable. Please note kiyo Gopen (s) = K (S+ 10) 5 (5+2)(5+3)
1. a. Plot the root loci for the unity-feedback system whose feed-forward transfer function is: G(s) = - s(s? + 4s + 8) If the value of K is set 8, where are the closed loop poles located? (5 Points) Hint: Non-dominant pole is an integer. b. Outline the procedure for design of a lag compensator (on the forward path) that cuts down the rise and settling times to half of the dominant second order system in 1. a. (3...
Given a unity feedback system with the following transfer
function
a)If the system is to be cascade-compensated so that Ts=1 and
=0.8 find the
compensator pole if the compensator zero is at -4.5
b)determine the range of k for stability
We were unable to transcribe this image)Given 2내 5+644s(s+4
)Given 2내 5+644s(s+4
1. A unity feedback system with its forward transfer function G(s) - K(s+a)/s(s+B) is to be designed to meet the following requirements: (1) the steady-state error for a unit ramp input equals to 0.1 and (2) the closed-loop poles will be located at -1 + j1. Find K, a, and B in order to meet the specifications. (12 points) 2. Given a unity feedback system with its forward transfer function G(s) shown below: s" (s +a) Find the values of...
1. Given a unity feedback system that has the forward transfer function: Ks(s +10) G(s)= 4s +5 do the following: a) Sketch the root locus. b) Find the imaginary-axis crossing (if relevant). c) Find the breakaway or break-in point (if relevant). d) Find the value of K at the breakaway or break-in point (if relevant). e) Find the angle of departure (if relevant).
4. The open loop transfer function of a unity feedback control system is s 5 Showing all calculations, construct the root loci of the characteristic equation of the closed loop system for K20, with (a) n-1 (c) n=5 n-
3. For the feedback control system shown in Figure Q3 below, the forward-path transfer function given by G(s) and the sensor transfer function is given by H(s). R(s) C(s) G(s) H(s) Figure Q3 It is known that G(s) -- K(+20) S(+5) H(s) = and K is the proportional gain. (S+10) i. Determine the closed-loop transfer function and hence the characteristic equation of the system. [6 marks] ii. Using the Routh-Hurwitz criterion, determine the stability of the closed-loop system. Determine the...
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