# How to combine filter coefficients for multiple stop band filters - Matlab

I would like to combine several stop band filters into a single filter to understand how the filter changes phase when there are mutiple bands removed.

This question provides a solution for two filters, but what if there were more than two filter bands?

Here is an image showing the gains and phase of each separate filter.

So my questions are:

1. What happens to the phase if I filter the data in five separate operations
2. Can I combine the filtering steps into a single step?

I am using the butter and freqz functions in Matlab.

``````[b,a] = butter(order,cutoff/(fs/2),'high');
[h,w] = freqz(b,a,fs);
``````

Thanks.

-
Note that you might be able to see the results more clearly if you `unwrap` the phase before plotting it; the discontinuity in the phase is not really there: it is just a result of the fact that the phase returned from `freqz` is always in the range `[-pi, pi]`. You might also want to plot the response in `dB re 1` by plotting `20 * log10(abs(h))`. –  wakjah Apr 5 '13 at 9:35
thanks, good suggestions. –  sequoia Apr 5 '13 at 15:45

The phases and magntudes (dB) will sum. If you want to see on Matlab you need to cascate the filter, for exemple:

``````% computes the coefficients
[b1,a1]=butter(8,0.6);
[b2,a2]=butter(8,0.4,'high');
[b3,a3]=butter(8,0.2,'high');
% creates the filters
H1=dfilt.df2t(b1,a1);
H2=dfilt.df2t(b2,a2);
H3=dfilt.df2t(b3,a3);
% creates the cascate filter