Cannot deduce a transfer function! Help!

1 visualizzazione (ultimi 30 giorni)
Alex
Alex il 19 Nov 2011
Hey everyone, I've tried creating a bandpass filter and finding it's transfer function but have had no luck. As you can see below, I tried making the filter and the line for 'd' runs just fine, but when I try to create the IIR filter 'HdIIR' from object d, it doesn't work. It has worked for other objects like 'd' I have created so I do not understand why this one doesn't work (albeit that my other objects used different parameters, but this should still be valid).
Once I get the filter to work, I would like to find the numerator and the denominator of the transfer function (S-domain preferable) of the filter but cannot find a method that will do so given either 'd' or 'HdIIR'.
Please help if you can!
-------------------------------------------------------------
clear all
close all
f_p1=40000; %Pass Frequency in Hz
f_p2=50000; %Stop Frequency in Hz
r_s=25; %Stopband Attenuation in dB
r_p=3; %Passband Ripple
n=10;
d = fdesign.bandpass('N,F3dB1,F3dB2,Ast1,Ap,Ast2',n,f_p1,f_p2,r_s,r_p,r_s,150e3);
HdIIR = design(d,'butter');
-----------------------------------------------------------------
??? Error using ==> fdesign.abstracttype.superdesign at 60
butter is an invalid design method.
Error in ==> fdesign.abstracttype.design at 11
varargout{1} = superdesign(this, varargin{:});
Error in ==> Demo at 13
HdIIR = design(d,'butter');
  1 Commento
Alex
Alex il 21 Nov 2011
Does anyone have any insight as to why this filter will not compile?

Accedi per commentare.

Risposte (2)

Kaustubha Govind
Kaustubha Govind il 21 Nov 2011
It appears that 'butter' is not a valid design method for the band-pass filter object.
Using designmethods on your filter design object, I got:
>> designmethods(d)
Design Methods for class fdesign.bandpass (N,F3dB1,F3dB2,Ast1,Ap,Ast2):
ellip
So 'ellip' seems to be the only available design method for your band-pass filter.
  6 Commenti
Wayne King
Wayne King il 22 Nov 2011
B are the numerator coefficients and A are the denominator coefficients. They are just the coefficients for the difference equation.
H is just a MATLAB convention for a handle to an object Hd is a filter object. You don't have to use H. You could use hd, or no h at all, I just use h when I want to remind myself that the output is a handle object.
Alex
Alex il 22 Nov 2011
Hey Wayne, so what domain do I assume these coefficients correlate to? The S or Z domain?
Also, is there any convention on what the denominator coefficients correspond to? Example, is the numerator (A): s^5 + 2.9945s^4 + 8.0928s^3 + ... ?

Accedi per commentare.


Naz
Naz il 21 Nov 2011
I always use
fdatool
it's pretty straight forward and you can see the result right away.
  1 Commento
Naz
Naz il 21 Nov 2011
And then you can export the coefficients into the workspace.

Accedi per commentare.

Community Treasure Hunt

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

Start Hunting!

Translated by