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Question 1 Sketch the polar plot and use the Nyquist criterion to investigate the stability of...
4. (10 points) For the feedback system with open loop transfer function 16/3 a. (6 pts) Draw the Root Locus and Nyquist plot of the system with no 16/3 S41 Using Nyquist stability criterion, find the critical value of the delay. b. (4 pts) 4. (10 points) For the feedback system with open loop transfer function 16/3 a. (6 pts) Draw the Root Locus and Nyquist plot of the system with no 16/3 S41 Using Nyquist stability criterion, find the...
(9) Draw a Nyquist plot of the following open-loop transfer function, and determine whether the closed-loop system is stable by using the Nyquist stability criterion. (12 points) Go)HG)(45+8) (9) Draw a Nyquist plot of the following open-loop transfer function, and determine whether the closed-loop system is stable by using the Nyquist stability criterion. (12 points) Go)HG)(45+8)
EEL 4652 Control Systems 1 (Fall 2018) Homework 4 Nyquist Stability Criterion + Frequency Domain Design Problem 1: Nyquist Plots and Closed-Loop Stability A unity feedback closed-loop system has a forward transfer function of KG(s). Sketch the Nyquist plot for each of the G(s) cases listed below, and then find if the closed loop system is stable and if not - how many RHP closed loop poles there are. Find it for all the relevant ranges of K for -o0SKo,...
Discuss the mathematical requirements for stability in a linear feedback system and state the Routh Stability criterion. (6 marks) (a) The open loop transfer function of a control system with unity feedback is given by: (b) 35 s(1 + Ts) (1 +0.25s) G(s) - Use Routh's criterion to determine the value of T for which the closed loop system is marginally stable. (8 marks) i Use the Nyquist criterion to confirm the values obtained in (i). (8 marks) ii Sketch...
transfer function is G(s) you will sketch a polar plot(nyquist plot) what figure is right with explanation?? a or b [?? 3] (10?) ???? G(s) = e-7s ? Polar plot (Nyquist plot)??? ??? ? ?? ??? ?? ?? ??? ??? ??? ?????. im Im 7 0 Re Re ?=0 co crease 0
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....
4. Consider a unity-feedback control system with the following open-loop transfer function: G(s)3 Sketch a Nyquist plot of G(s) and examine the stability of the system.
2. Given a unity feedback system with open-loop transfer function s+40s-I) a) For K-1, derive the expressions for the real and imaginary parts of G(jo). b) What happen to the real and imaginary parts of G(jo) for ω 0 and for Are there values of ω that either the real or imaginary part goes to zero? If not, compute Gijo) for some ovalue, say,, or 2, to help you sketch the Polar plot of Gja). c) d) Use Matlab to...
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....
Sketch the Nyquist plots of the following loop transfer functions L(S) = Gc(s)G(s), and determine whether the system is stable by applying the Nyquist criterion: KS + 1) (b) L(s) = G (9)G(s) = 318+) If the system is stable, find the maximum value for K by determining the point where the Nyquist plot crosses the u-axis.