CONTROL SYSTEM
The open loop transfer function of a feedback system is given by
G(s) = K / s (T1s+1) (T2s+1)
Draw the Nyquist plot. Derive an expression for gain K in terms of T1, T2 and specific gain margin Gm
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Question 2 A robot tennis player and its simplified control system for Ø(t) is shown below....
Question 2 A robot tennis player and its simplified control system for Ø(t) is shown below. 02 (s + 2) 1 (S +1)(8 +3) Figure 2 1) Write down the expression of amplitude ratio AR. 2) Obtain the expression of phase angle 0. 3) Manually make the polar plot of the open-loop transfer function of this feedback system when K = 10. 4) Use MATLAB to plot the Nyquist diagram with the open loop transfer function for K = 10....
QUESTION 4 A unity feedback system has open-loop transfer function G(S). Polar plot of G(jw) is...
QUESTION 4 A unity feedback system has open-loop transfer function G(S). Polar plot of G(jw) is shown in the figure below. The gain margin (GM) and the phase margin (ØM) of the feedback system are None of the answers is correct b. GM = 0.3 and ØM = 112.33º O GM = -0.3 and ØM = 112.33 d. GM = 3.33 and ØM = 67.67° QUESTION 8 A unity feedback system as open-loop transfer function G(s) = 5(1 +ST) The...
b) The Nyquist plot of a unity feedback control system is as shown in Figure Q5(b)....
b) The Nyquist plot of a unity feedback control system is as shown in Figure Q5(b). Nyqulst Diagram x 10 1.5 1- System: N Real: -9.08e-005 0.5- Imag: -5.62e-006 Frequency (rad/sec): -104 -0.5 -15 -1.5 0.5 0.5 1.5 1 2.5 3.5 Real Axis x 10 Figure Q5(b) K If the transfer function of the system is given as G(s) (s+10)(s+50)(s+150) determine the following: The closed loop stability of the system using Nyquist Stability Criterion. i) ii) Gain margin and phase...
A unity gain negative feedback system has an open-loop transfer function given by 4. s) =...
A unity gain negative feedback system has an open-loop transfer function given by 4. s) = s(1 + 10s)(1 + 10s)? Draw a Bode diagram for this system and determine the loop gain K required for a phase margin of 20 deg. What is the gain margin? 5. We are given the closed-loop transfer function 10(s + 1) T(s) = 82+98+10 for a "unity feedback" system and asked to find the open-loop transfer function, generate a log-magnitude-phase plot for both...
Consider a unity-feedback control system with the following open-loop transfer G(s)
Consider a unity-feedback control system with the following open-loop transfer G(s) = 1/(s3+0.2s2 +s+1) Draw a Nyquist plot of G(s). You may draw the simple Nyquist plot
The open loop transfer function of an electro-mechanical system with unity feedback is: 24K G(s) S(s+2)(s +6) The Nyquist diagram of G(s) has a shape similar to the one shown below Nyquist diagram Cl...
The open loop transfer function of an electro-mechanical system with unity feedback is: 24K G(s) S(s+2)(s +6) The Nyquist diagram of G(s) has a shape similar to the one shown below Nyquist diagram Cl When K -1, calculate both the frequency and the gain at which the plot crosses the real axis Hence state the gain margin or critical gain Kc for this system. If K is chosen as K-0.2Kc, show that the gain G(jo) l at a frequency ω-1.308...
Figure 1 shows a closed-loop control system in which G(S)=40/[ (S+2) (S+3)], and H(S)=1/(S+4) R(S) E(S)...
Figure 1 shows a closed-loop control system in which G(S)=40/[ (S+2) (S+3)], and H(S)=1/(S+4) R(S) E(S) Y(s) G(S) HS) Figure 2 shows the Nyquist plot for the open-loop transfer function. Figure 2 shows the Nyquist plot for the open-loop transfer function System: sys Real: -0.187 Imag: 2.56e-05 Frequency: (rad/s): -5.16 Using the Nyquist criterion: a) Find out the gain margin expressed in dB. Is the system stable or unstable? (25 points) b) What is the value of the gain expressed...
Please explain part b and C in detail. Figure 6 shows a feedback control system for...
Please explain part b and C in detail.
Figure 6 shows a feedback control system for which G(s) = 6 (s + 1)3 J' and K(s) is the transfer function of a compensator. (a) Sketch the Nyquist diagram of G(s) evaluating the real-axis intercepts and their corre- sponding frequencies. [10 marks] (b) Show that the closed-loop system will oscillate at frequency w = V3 rad s-1 when the closed-loop gain is K = ? (5 marks] (c) Design a proportional-derivative...
A feedback control system with adjustable gain K is shown as in Figure 4.1. Here, Q4 1 and H (s) where b 2a bs +a G(s)=...
A feedback control system with adjustable gain K is shown as in Figure 4.1. Here, Q4 1 and H (s) where b 2a bs +a G(s)= 3(s+a) Y(s) R(s) G(s) К H(s) Figure 4.1 A feedback control system with adjustable gain Sketch Nyquist plot for G(s)H(s) for 0.9 <a < 1.1. (a) (18 marks) (b) Discuss the stability of closed-loop system with open-loop function as in (a) if K 10b (7 marks)
A feedback control system with adjustable gain K...
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....
Question 2 A robot tennis player and its simplified control system for Ø(t) is shown below. 02 (s + 2) 1 (S +1)(8 +3) Figure 2 1) Write down the expression of amplitude ratio AR. 2) Obtain the expression of phase angle 0. 3) Manually make the polar plot of the open-loop transfer function of this feedback system when K = 10. 4) Use MATLAB to plot the Nyquist diagram with the open loop transfer function for K = 10....
QUESTION 4 A unity feedback system has open-loop transfer function G(S). Polar plot of G(jw) is shown in the figure below. The gain margin (GM) and the phase margin (ØM) of the feedback system are None of the answers is correct b. GM = 0.3 and ØM = 112.33º O GM = -0.3 and ØM = 112.33 d. GM = 3.33 and ØM = 67.67° QUESTION 8 A unity feedback system as open-loop transfer function G(s) = 5(1 +ST) The...
b) The Nyquist plot of a unity feedback control system is as shown in Figure Q5(b). Nyqulst Diagram x 10 1.5 1- System: N Real: -9.08e-005 0.5- Imag: -5.62e-006 Frequency (rad/sec): -104 -0.5 -15 -1.5 0.5 0.5 1.5 1 2.5 3.5 Real Axis x 10 Figure Q5(b) K If the transfer function of the system is given as G(s) (s+10)(s+50)(s+150) determine the following: The closed loop stability of the system using Nyquist Stability Criterion. i) ii) Gain margin and phase...
A unity gain negative feedback system has an open-loop transfer function given by 4. s) = s(1 + 10s)(1 + 10s)? Draw a Bode diagram for this system and determine the loop gain K required for a phase margin of 20 deg. What is the gain margin? 5. We are given the closed-loop transfer function 10(s + 1) T(s) = 82+98+10 for a "unity feedback" system and asked to find the open-loop transfer function, generate a log-magnitude-phase plot for both...
The open loop transfer function of an electro-mechanical system with unity feedback is: 24K G(s) S(s+2)(s +6) The Nyquist diagram of G(s) has a shape similar to the one shown below Nyquist diagram Cl When K -1, calculate both the frequency and the gain at which the plot crosses the real axis Hence state the gain margin or critical gain Kc for this system. If K is chosen as K-0.2Kc, show that the gain G(jo) l at a frequency ω-1.308...
Figure 1 shows a closed-loop control system in which G(S)=40/[ (S+2) (S+3)], and H(S)=1/(S+4) R(S) E(S) Y(s) G(S) HS) Figure 2 shows the Nyquist plot for the open-loop transfer function. Figure 2 shows the Nyquist plot for the open-loop transfer function System: sys Real: -0.187 Imag: 2.56e-05 Frequency: (rad/s): -5.16 Using the Nyquist criterion: a) Find out the gain margin expressed in dB. Is the system stable or unstable? (25 points) b) What is the value of the gain expressed...
Please explain part b and C in detail.
Figure 6 shows a feedback control system for which G(s) = 6 (s + 1)3 J' and K(s) is the transfer function of a compensator. (a) Sketch the Nyquist diagram of G(s) evaluating the real-axis intercepts and their corre- sponding frequencies. [10 marks] (b) Show that the closed-loop system will oscillate at frequency w = V3 rad s-1 when the closed-loop gain is K = ? (5 marks] (c) Design a proportional-derivative...
A feedback control system with adjustable gain K is shown as in Figure 4.1. Here, Q4 1 and H (s) where b 2a bs +a G(s)= 3(s+a) Y(s) R(s) G(s) К H(s) Figure 4.1 A feedback control system with adjustable gain Sketch Nyquist plot for G(s)H(s) for 0.9 <a < 1.1. (a) (18 marks) (b) Discuss the stability of closed-loop system with open-loop function as in (a) if K 10b (7 marks)
A feedback control system with adjustable gain K...
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....
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