How to choose stopband ripple and passband ripple of filter for High pass filter

Fs = 50e3;
samples = 5000;
dt = 1/Fs;
t = (0:samples-1)*dt;
y = 3*sign(sin(2*pi*50*t)); % signal - adjust amplitude to your needs
% high pass filter : Butterworth filter
NN = 2; % filter order
fc = 10; % cut off frequency (Hz)
Wn = fc/(Fs/2); % normalized cut off frequency 
[B,A] = butter(NN,Wn,'high');
y_filtered = filter(B,A,y); % signal (after HP filtering)
figure(1)
plot(t,y,t,y_filtered);legend('signal','HP filtered signal');

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632541 le 20 Sep 2021

yes, going with butterworth filter design order to be set.

How to choose that

Mathieu NOE le 20 Sep 2021

Ouvrir dans MATLAB Online

well, choosing a filter means you know what portion of the spectrum should be attenuated ... what is the goal here ? are you not able to do your code based on my first suggestion ?

Fs = 50e3;
samples = 5000;
dt = 1/Fs;
t = (0:samples-1)*dt;
y = 3*sign(sin(2*pi*50*t)); % signal - adjust amplitude to your needs
% high pass filter : Butterworth filter
NN = 2; % filter order
fc = 10; % cut off frequency (Hz)
Wn = fc/(Fs/2); % normalized cut off frequency 
[B,A] = butter(NN,Wn,'high');
y_filtered = filter(B,A,y); % signal (after HP filtering)
figure(1)
plot(t,y,t,y_filtered);legend('signal','HP filtered signal');

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