Consider the closed-loop system shown in the following figure. RIS) Y(S) G(S) Let (52+1) 19. If...
help Consider the closed-loop system in Figure E5.19. where Gs)G 3s and H(s) -K (a) Determine the closed-loop transfer function T(s) Y(s)/R(s). (b) Determine the steady-state error of the closed-loop system response to a unit ramp input, R(s) 1/s (c) Select a value for Ka so that the steady-state error of the system response to a unit step input, R(s)1/s, is zero.
Problem 1. (20pts) Consider the closed-loop system shown in the following figure. + NET 1 RO (s +0.25)2 (52 +0.01) s(s+1) (a) What is the condition on the gain, K, for the closed-loop system to be stable? (b) What is the system Type with respect to the reference input? (c) What is the system Type with respect to the disturbance input, W? (d) Prove that the system can track a sinusoidal input, r = sin(0.1t), with zero steady- state error.
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...
Consider the following closed-loop system, where Y(s) R(s)+ KcP Ks Assume the following nominal values: Ko-2. 〈 = 0.8; ω,-4; Ks-2. Use transfer function sensitivity calculations in answering the questions below. a) With proportional controller gain K 10 and r(t) a step input, determine the percentage change in steady-state output y(t) if Ko increases 5% from its nominal value. (12 pts.) b) Repeat part (a) with Kc - 50. (6 pts.) c) With proportional controller gain Kc 10 and r(t)...
Y(s) C(s) G(s) R(S) Figure 1: Closed-loop system Q2 Consider the setup in Figure 1 with S s1 (i) Design a K,τ, α in the lead compensator 1TOS so that the closed-loop system shown in Figure 1 has a steady state error of.0 for a unit ramp reference input at R and a phase margin of about 45 degrees K, α, τ without Bode plots. When you add phase with the lead compensator add an additional 10 degrees of phase....
Question #4 (25 points): Consider the open loop system that has the following transfer function 1 G(S) = 10s+ 35 Using Matlab: a) Plot the step response of the open loop system and note the settling time and steady state 15 pts error. b) Add proportional control K 300 and simulate the step response of the closed loop 15 pts system. Note the settling time, %OS and steady state error. c) Add proportional derivate control Kp 300, Ko 10 and...
Problem 3 (25%): The closed-loop system has the block diagram shown below. Controlle Process Sensor s + l (a) (5%) Sketch the root locus of the closed-loop system. (b) (5%) Determine the range of K that the closed-loop system is stable. (c) (5%) Find the percentage of overshoot and the steady state error due to a unit step input of the open loop system process. (d) (5%) Find the steady-state error due to a unit step input of the closed-loop...
1. Consider the following closed-loop system. vlt) glt) The input-output relationship of the plant is described by the differential equation dy(t) -dt +2y(t) = 3r(t). The gain of the amplifier is K. Find the values of K for which the steady state error due to a step input is less than 1% of the amplitude of the step.
Please solve them on MATLAB PROBLEM 1 A closed loop control system is depicted in Figure 1 where K 2 and the nominal value of a is 1. The goal in this problem is to examine the sensitivity of the whole system in Figure 1 to the parameter a (a) If a = 1, demonstrate explicitly that the steady state value of output is equal to 2 when input is unit step function. Confirm that, after 4 seconds, the unit...
Please solve with MATLAB, please solve with MATLAB PROBLEM 1 A closed loop control system is depicted in Figure 1 where K 2 and the nominal value of a is 1. The goal in this problem is to examine the sensitivity of the whole system in Figure 1 to the parameter a. (a) If a 1, demonstrate explicitly that the steady state value of output is equal to 2 when input is unit step function. Confirm that, after 4 seconds,...