impulse response from transfer function in matlab
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i have a transfer function given by
H(z)= 1-z^(-1)/1-z^(-1)+z^(-2)
how to find its impulse response h(n) in matlab what is the code for the same ?
Risposta accettata
Star Strider
il 12 Gen 2016
This is how I would do it:
% H(z)= 1-z^(-1)/1-z^(-1)+z^(-2)
b = [1 -1];
a = [1 -1 1];
figure(1)
impz(b,a)
7 Commenti
pavan sunder
il 12 Gen 2016
Star Strider
il 12 Gen 2016
Sure. Use the zplane function:
b = [1 -1];
a = [1 -1 1];
figure(2)
zplane(b,a)
pavan sunder
il 12 Gen 2016
pavan sunder
il 12 Gen 2016
Star Strider
il 12 Gen 2016
My pleasure.
MATLAB will plot in the available figure window, so to get two plots (the first using impz and the second using zplane), you have to specify two separate figures.
M.Moksha laxmi
il 21 Feb 2021
In the same problem what should I do if I want to plot the step response?
% H(z)= 1-z^(-1)/1-z^(-1)+z^(-2)
b = [1 -1];
a = [1 -1 1];
figure(1)
impz(b,a)
figure(2)
stepz(b,a)
.
Più risposte (1)
Abdul Jabbar
il 10 Dic 2016
0 voti
z^-1 -4z^-2 -2z^-4 can any one tell me that how i can find the impulse response of this function?
2 Commenti
Petar Mostarac
il 8 Dic 2023
Modificato: Petar Mostarac
il 8 Dic 2023
Is this a joke? :)
It is -1, -4 0 -2 and zeros to inf.
z^-1 is one sample delay, one step delay
Formarly, use basic knowladge to find H(z) in form H=b/a and then you can use:
h=impz(b,a, length_of_impulse_response)
In your question: b=[1 -4 0 -2] and a=[1 0 0 0]
If it is a joke, then is a good one :)
Paul
il 8 Dic 2023
Actually, the solution with impz should have: b = [0 1 -4 0 -2]
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