How to do Z transform with Z^-1 format?

180 views (last 30 days)

Show older comments

Diego Marvid on 27 Sep 2020

1
Link

Direct link to this question

https://au.mathworks.com/matlabcentral/answers/600862-how-to-do-z-transform-with-z-1-format

Edited: Walter Roberson on 21 Jan 2024

Accepted Answer: Star Strider

I want to do the Z transform of

which theoretically is

However, Matlab's Z transform function (ztrans) gives it in Z format and not in Z^-1 format.

The equation that ztrans(f) gives me is:

I want to know if there is a clean way to get the Z transform in Z^-1 format as shown above.

If the code is generic and not specific to this example will help a lot.

0 Comments
Show -2 older commentsHide -2 older comments

Accepted Answer

Star Strider on 27 Sep 2020

1
Link

Direct link to this answer

https://au.mathworks.com/matlabcentral/answers/600862-how-to-do-z-transform-with-z-1-format#answer_501322

The only option I can think of has nothing to do with the Symbolic Math Toolbox, and is instead the Variable argument in the Control System Toolbox. That will allow you to specify z^-1 as the variable.

Since it woulld be best to use the Control System Toolbox anyway (the Symbolic Math Toolbox is not designed for efficient transfer function analysis), that would be my option.

9 Comments
Show 7 older commentsHide 7 older comments

Star Strider on 27 Sep 2020

The heaviside function may not be correct. The delta function would be more likely to be correct. Consider the Laplace and z-transform versions of both. (Those are the bases of my preferences.)

Paul on 23 Feb 2023

The problem is that sym2poly returns the polynomial coefficient is descending powers of z. So the tf needs be created in z, and then changed to z^-1. Two step process:

syms x n

v = 1;

sympref('HeavisideAtOrigin', v);

x = heaviside(n-1);

H = ztrans(x)

H =

[num, den] = numden(H);

H = tf(sym2poly(num), sym2poly(den), -1)

H = 1 ----- z - 1 Sample time: unspecified Discrete-time transfer function.

H.Variable = 'z^-1'

H = z^-1 -------- 1 - z^-1 Sample time: unspecified Discrete-time transfer function.

More Answers (2)

Vinit on 2 Nov 2023

0
Link

Direct link to this answer

https://au.mathworks.com/matlabcentral/answers/600862-how-to-do-z-transform-with-z-1-format#answer_1345611

Edited: Walter Roberson on 21 Jan 2024

clear all
close all
clc
V = 220;
R = 10;
L = 0.051;
dt = le-3;
t = 0:dt:0.05;
y = [0];
for k =1:length(t)-1
    y (K+1)=(1-R*dt/L)*y(k)+dt*(1/L)*V;
end
figure(1)
plot(t,y)
grid on
xlabel   ('time  (s)')
ylabel  ('current (Amp)')

0 Comments
Show -2 older commentsHide -2 older comments

Vinit on 2 Nov 2023

0
Link

Direct link to this answer

https://au.mathworks.com/matlabcentral/answers/600862-how-to-do-z-transform-with-z-1-format#answer_1345616

Edited: Walter Roberson on 21 Jan 2024

The solution of equation (5) & (8) is obtainedby using MATLABProgram to solve difference equations

%%Program to plot the difference equation to verify
%Results with time domain equations
%Considering the systemof RL Circuit
% The expression is V=Ri+L(di/dt) clear all
close all clc
%System Parameters
V=220;                   % Maximum valueof the voltage (Volt)
R=10;                    % Resistance Value(Ohm)
L=0.051;                 % Inductor value(Henry)
dt=1e-3;                 % Time period (T)
t=0:dt:0.05;             % Samples, k
y=[0];                   % Output stack
fork=1:length(t)-1
y(k+1)=(1-R*dt/L)*y(k)+dt*(1/L)*V; end
figure(1)plot(t,y) grid on
xlabel ('Time (s)') ylabel('Current(Amp)')

0 Comments
Show -2 older commentsHide -2 older comments

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!