Sinusoidal steady state response to sinusoidal input

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tsstac1
tsstac1 on 20 Feb 2016
Edited: Abdulhakim on 11 Nov 2023
So I have a transfer function of a feedback system,
>> yd
yd =
s^3 + 202 s^2 + 401 s + 200
------------------------------
s^3 + 202 s^2 + 20401 s + 1e06
Of which I'd like to look at the sinusoidal steady state response to the disturbance d(t) = sin(130t).
How do you do this in matlab? I'm well aware of how to get a step or impulse response, but not a sinusoidal response.

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Accepted Answer

Star Strider
Star Strider on 20 Feb 2016
Use the lsim function:
% num = s^3 + 202 s^2 + 401 s + 200
% den = s^3 + 202 s^2 + 20401 s + 1e06
n = [1 202 401 200];
d = [1 202 20401 1E+6];
sys = tf(n,d); % Define LTI System
t = linspace(0, 100, 1000); % Time Vector
u = sin(130*t); % Forcing Function
y = lsim(sys, u, t); % Calculate System Response
figure(1)
plot(t, y)
grid
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More Answers (1)

Abdulhakim
Abdulhakim on 11 Nov 2023
Edited: Abdulhakim on 11 Nov 2023
If you know the Laplace transform of the input you can exploit the fact that the impulse function in the s-domain is equal to 1. Here is how:
For a system with input and output
Since
impulse(G*R) is actually the output in the time domain .
The laplace transform for
num = [1 202 401 200];
den = [1 202 20401 10^6];
G = tf(num,den)
SIN = tf(130,[1 0 130^2]);
C = G*SIN
impulse(C)

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