Extreme gain for low pass filter

8 views (last 30 days)
Sebastian Holmqvist
Sebastian Holmqvist on 21 Nov 2012
% Filter constants
Wp = 5e3*2*pi;
Ws = 9.5e3*2*pi;
Rp = 2;
Rs = 45;
% Butterworth lowest order
[n,Wn] = buttord(Wp,Ws,Rp,Rs,'s');
disp([10 'Butterworth order: ' num2str(n) ' @ ' num2str(Wn/(2*pi)) ' [Hz]']);
[z,p,k] = butter(n,Wn,'s');
disp(['Zeros: ' num2str(size(z,1)) 10 ...
'Poles: ' num2str(size(p,1)) 10 ...
'Gain: ' num2str(k)]);
> Butterworth order: 9 @ 5342.252 [Hz]
> Zeros: 0
> Poles: 9
> Gain: 54092634016296818598907515083157976121344
How is this gain possible? Is this a weird bug?

Sign in to answer this question.

Accepted Answer

Teja Muppirala
Teja Muppirala on 21 Nov 2012
Edited: Teja Muppirala on 21 Nov 2012
I don't think that is a weird bug. That large value looks correct to me.
The DC gain should = 1. In other words, if you plug in s = 0, you should get 1. Since there are no zeros, this implies that the product of the poles is the gain:
G(s) = K/[ (s-p(1)) * (s-p(2)) * (s-p(3)) * ... (s-p(9)) ]
G(0) = K/[ (-p(1)) * (-p(2)) * (-p(3)) * ... (-p(9)) ] = 1
--> Therefore K = prod(-p)
Actually plugging it in
prod(-p)
ans =
5.4093e+40
Which is precisely what K is.
  1 Comment
Sebastian Holmqvist
Sebastian Holmqvist on 21 Nov 2012
Excellent explanation! We are to implement this in a typical Sallen-Key circuit and were a bit thrown by the large numbers. But we see now that the gain K relates to the pole, not directly to any physical components in our amplifier.

Sign in to comment.

More Answers (0)

Categories

Find more on Butterworth in Help Center and File Exchange

Tags

Products

Community Treasure Hunt

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

Start Hunting!