Assume steady-state operation, P(8) = .. G (8) = 1 + 0.2s, and C (0) =...
Q.4 A position control system is shown in Figure Q4. Assume that K(s) = K, the plant 50 s(0.2s +1) transfer function is given by G(s) s02s y(t) r(t) Figure Q4: Feedback control system. (a) Design a lead compensator so that the closed-loop system satisfies the following specifications (i) The steady-state error to a unit-ramp input is less than 1/200 (ii) The unit-step response has an overshoot of less than 16% Ts +1 Hint: Compensator, Dc(s)=aTs+ 1, wm-T (18 marks)...
Consider the following closed-loop system: ID(S) Cis) P(s) R(s) — 0 40 52 + 20s + Recall that E(s) = R(s) - Y(s). a) What is steady-state error, ess, in response to a unit step at disturbance input D(s) when a = 12? b) What is steady-state error, ess, in response to a unit step at disturbance input D(s) when a = 12.3? c) What is the fractional change in a between parts (a) and (b)? In other words, what...
Determine the gain K, to obtain a steady state error of 0.10: *Hint, What type is the transfer function? **Assume the input is a unit input (i.e. step, ramp, or parabola) Determine the gain K, to obtain a steady state error of 0.10: "Hint, What type is the transfer function? "Assume the input is a unit input (i.e. step, ramp, or parabola) R(s) C(s) t- s2+12s+32 s2+5s+6 Determine the gain K, to obtain a steady state error of 0.10: "Hint,...
Question 6: a) Derive and expression for the steady state error of the system described below when a unit ramp function is used as input. r(t) —+ Q G.(s) Gy(s) y(t) H(s) 10 b) Find the steady state error with a ramp input as a function of K, when the transfer functions of the system are given as: Gc= + 3 G p = Gips? +45 +10 and H= 0.1 c) For what values of K would the system have...
For the transfer function G(s): 50 G (s) = s2 +55+25 a) Find the steady-state response to a unit step input. b) Find the steady state error. c) Sketch the time response.
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...
urgent!! II Lag/lead Compensator Design A certain plant with unity feedback has the model given by GP(s) s(1 +0.1s) (1 0.2s) Design a phase-lag OR phase-lead compensator such that: 1. The steady- state error with respect to a unit ramp input is no more than 0.01; 2. Phase margin is approximately 40 II Lag/lead Compensator Design A certain plant with unity feedback has the model given by GP(s) s(1 +0.1s) (1 0.2s) Design a phase-lag OR phase-lead compensator such that:...
please solve as matlab code. The system in Figure 3 comprises a motor and a contoller. The performance requirements entail a steady state error for ramp input r(t) Ct, smaller than 0.01C. Here, C is a constant. The overshoot for step input must be such that P.0. 5% and the settling time with a 2% error should be T, 2 seconds (a) Based on rlocus function, write a piece of MATLAB code which establishes the controller. (b) Create the graph...
For the motor represented by, G(s)=10/s(0.001s+1) What is the steady state ? What is the steady state position error of this system for a step change in the desired input? What is the required gain K in order to yield a steady state error to 0?
Write as MATLAB code with comments thank you. The system in Figure 3 comprises a motor and a contoller. The performance requirements entail a steady state error for ramp input r(t) Ct, smaller than 0.01C. Here, C is a constant. The overshoot for step input must be such that P.0.S 5% and the settling time with a 2% error should be T. 2 seconds. (a) Based on rlocus function, write a piece of MATLAB code which establishes the controller. (b)...