All I need help with is the matlab codes for B) and C)
Photos of answers are below.
Rate will be given for correct matlab code!
All I need help with is the matlab codes for B) and C) Photos of answers are below. Rate will be ...
I understand most o f the problem. I manly need help with the plots for part a and c. My teacher requires me to use matlab to plot them. DP6.3 A unity negative feedback system with K(s 2) s(1 Ts)(1 + 2s) G,(s)G(s) has two parameters to be selected. (a) Determine and plot the regions of stability for this system. (b) SelectT and K so that the steady-state error to a ramp input is less than or equal to 25%...
PLEASE USE MATLAB TO ANSWER ALL OF THE PARTS. PROVIDE MATLAB CODE FOR EACH OF THE PART. PUT THE ANSWER IN A BOX. Consider the unity feedback system depicted in Figure 1 G(s) R(s) 50K s(s + a) Figure 1 1. Determine the system's closed loop transfer function. 2. Plot the system's step response for K=10 and: • a= 2 • a=5 • a= 10 3. What happens to the system's response as a increases? Justify your answer. 4. In...
Please show calculations by HAND and NOT MATLAB. The answers are here to help. Thank you Note : Ts= 4/&*wn (&=damping ratio) Skill-Assessment Exercise 9.3 PROBLEM: A unity feedback system with forward transfer function 6) s(s + is operating with a closed-loop step response that has 20% overshoot. Do the following: a. Evaluate the settling time. b. Evaluate the steady-state error for a unit ramp input. c. Design a lag-lead compensator to decrease the settling time by 2 times and...
SOLVE USING MATLAB A servomechanism position control has the plant transfer function 10 s(s +1) (s 10) You are to design a series compensation transfer function D(s) in the unity feedback configuration to meet the following closed-loop specifications: . The response to a reference step input is to have no more than 16% overshoot. . The response to a reference step input is to have a rise time of no more than 0.4 sec. The steady-state error to a unit...
Can I get Hwlp on a and b on MATLAB as soon as possible pleeaase K G(S) = S2 + 3s +10 a) Obtain the step response of the system with a PD (proportional and differential) cascade controller with gain 80 and a zero at -5. b) Obtain the step response of the system with a PD (proportion differential) feedback controller with a zero at -5 and unity gain and a forward gain of 80. c) Using Gc(s)G(s), create Nyquist...
The open-loop system dynamics model for the NASA eight-axis Advanced Research Manipulator II (ARM II) electromechanical shoulder joint/link, actuated by an armature-controlled dc servomotor is shown in Figure P1.The ARM II shoulder joint constant parameters areKa= 12, L=0.006 H, R= 1.4 Ω, Kb= 0.00867, n=200, Km= 4.375, J=Jm+ JL /n2, D=Dm+DL /n2, JL= 1, DL= 0.5, Jm= 0.00844, and Dm= 0.00013.FIGURE P1 Open-loop model for ARM ll(Due to 29/8/2020)a. Obtain the equivalent open-loop transfer function, ?(?) (with a unity feedback...
1. Using the MATLAB rltool command (or rlocus and rlocfind), plot the K > 0 root locus for What is the value of the largest damping ra- 2+2s+1 s(s120)7,7 -2,12). 1 + KL(s) = 0, where L(s) = tio associated with the pair of complex poles? At which value of K is it achieved? Turn in a printout of your plot showing the location of the poles on the damping ratio line that you found. 2. Suppose the unity feedback...
The open-loop system dynamics model for the NASA eight-axis Advanced Research Manipulator II (ARM II) electromechanical shoulder joint/link, actuated by an armature-controlled dc servomotor is shown in Figure P1.The ARM II shoulder joint constant parameters areKa= 12, L=0.006 H, R= 1.4 Ω, Kb= 0.00867, n=200, Km= 4.375, J=Jm+ JL /n2, D=Dm+DL /n2, JL= 1, DL= 0.5, Jm= 0.00844, and Dm= 0.00013.FIGURE P1 Open-loop model for ARM ll(Due to 29/8/2020)a. Obtain the equivalent open-loop transfer function, ?(?) (with a unity feedback...
Problem 4. Consider the control system shown below with plant G(s) that has time con- stants T1 = 2, T2 = 10, and gain k = 0.1. 4 673 +1679+1) (1.) Sketch the pole-zero plot for G(s). Is one of the poles more dominant? Using MATLAB, simulate the step response of the plant itself, along with G1(s) and G2(s) as defined by Gl(s) = and G2(s) = sti + 1 ST2+1 (2.) Design a proportional gain C(s) = K so...
R(S) C(s) G(s) Figure P3 G(S) K(s2 – 2s + 2) s(s + 1)(8 +2) Problem 4) (25 points) Consider the same unity feedback control system given in Figure P3 and do the following: a. Determine the system type (type 0, type 1, type 2, etc.) and justify it. (05 points) b. Suppose that 10% maximum overshoot is required as a transient response specification. Find the steady-state error for this P-controlled system, where K = 0.24 for a unit step...