How to find the pole is oscillatory or not?

17 visualizzazioni (ultimi 30 giorni)
vimal kumar chawda
vimal kumar chawda il 11 Lug 2021
Risposto: LO il 11 Lug 2021
For a system to be oscillatory, it must have a conjugate complex pole pair. That is, two poles must have the same real part and the same magnitude of the imaginary part, but with different signs, e.g. pole1 =a+i*b, pole2=a-i*b.
Please determine whether the systems G_1(s) and G_2(s) are oscillatory.
For this, write a function with a loop and/or query that outputs a 1 if the system is oscillatory and a 0 if it is not.
oscillatory. The function should be stored in a separate file "is_vibrating.m".
% Solution:
% Content of the file "ist_schwingfaehig.m":
%
function b_out = ist_schwingfaehig(G)
if
end
or
function [b_out] = ist_schwingfaehig(G)
if abs(pole_1)== (pole_2)
b_out=1;
display('b_out')
else
b_out=0;
display('b_out')
end
end
%
% Where G corresponds to a general transfer function and b_out is
% a boolean data type

Risposte (1)

LO
LO il 11 Lug 2021
shouldn't an oscillatory system correlate with itself, with a certain periodicity ?
try this
https://de.mathworks.com/help/econ/autocorr.html

Community

Più risposte nel  Power Electronics Control

Prodotti


Release

R2021a

Community Treasure Hunt

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

Start Hunting!

Translated by