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0.1311(22 2z1 5. The transfer function of a system is H(z) = z2-0.74780.2722 a) Find the frequency response function of the system b) Let xn] 1 cos(0.2nt)+cos(0.45n7). Find the steady-state response. Use Matlab c) Plot the magnitude and phase response using Matlab 0.1311(22 2z1 5. The transfer function of a system is H(z) = z2-0.74780.2722 a) Find the frequency response function of the system b) Let xn] 1 cos(0.2nt)+cos(0.45n7). Find the steady-state response. Use Matlab c) Plot the magnitude and...
Q2. Consider the following transfer function: 2+1 G(Z) = 22 +2 +0.16 (2) 1. Find the controllable form of the system. 2. Find the observable form of the system. 3. Find the modal form of the system. 4. The system is it contrallable?
5 -22-1 (12) Assume a Transfer Function Transfer Fune tion H (z) = 1.8z1 + 1.07 z"2 - 0.21z-3 1 Use the Matlab command zplane to make Matlab plot the pole zero diagram of He) superimpose a grid, and create a title containing your name and the problem number. 5 -22-1 (12) Assume a Transfer Function Transfer Fune tion H (z) = 1.8z1 + 1.07 z"2 - 0.21z-3 1 Use the Matlab command zplane to make Matlab plot the pole...
I will rate, thank you Find the transfer function for the following state space model (hint: You only need to calculate 4 of the 9 entries in the adjoint matrix): 31 2 -3 1 (t) 0 0)u(t) 1 2 -1
from the following model of a discrete process in the state space obtain its transfer function given by fp(z) = C(ZI – G)-'H. x(k+1) = 11.23 1.63] «(k) + [9] u(k) y(k) = [1 0]x(k)
Find the discrete time unit step response of the system with transfer function G(z) = (z−1)/z(z+1)
you can use matlab to solve 1. Given the plant model differential equation: y" + 6y'+ 12y 12u(t) Find: a) G(s) continuous transfer function he step response of the unity feedback system c) The appropriate sampling time d) G(z) pulse transfer function e) Continuous State Space, A, B, C, D f) Discrete State Space, A, B, C, D 1. Given the plant model differential equation: y" + 6y'+ 12y 12u(t) Find: a) G(s) continuous transfer function he step response of...
! Required information Use MATLAB to obtain a state variable model. Consider the following transfer function: Y(3) F(*) 8+2 3+48+3 Choose the correct expressions for the state-variable model. Multiple Choice 1 = -4c1 - 1.522 +2f, *2 =221, and y=0.581 +0.5x2 1 -41 -202 +2f, 2 = 2.01, and y=2.01 -0.5x2 1 = -2x1 - 3x2 +2f, -81, and y21-22 1 - - 2x1 - 362 +28,62 -4.01, and y2 +0.5x2
Problem 1: Convert the following transfer function model into state-space model and sketch its block diagram with x defined as the leftmost state variable. 2s2 +8s +6 s3 +8s2 +16s+6 Problem 1: Convert the following transfer function model into state-space model and sketch its block diagram with x defined as the leftmost state variable. 2s2 +8s +6 s3 +8s2 +16s+6
Problem 1: Find the inverse Z -transform using the partial fraction expansion for the transfer function given as X(z (2z2 - 11z 12) (z 1)(z 2)3