Building Low-pass filter with Sinc function

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Liang
Liang am 18 Sep. 2020
Beantwortet: Preston Pan am 1 Jul. 2022
Dear Community,
I am trying to build a low-pass filter by using a sinc function for my homework assignment. I then use convolution to later filter an audio sample with this filter. However, when I plot the filter in a bode plot it looks like a high-pass filter. Can anyone tell me what I'm doing wrong?
Thanks in advance!
%% Downsampled by K with low-pass filter
% Build filter
clear all; close all
K = 2;
fs = 1600;
N = 51;
n = (-(N-1)/2:1:(N-1)/2);
h = (1/K) * sinc((pi/K)*n);
% Plot frequency response filter
[H, H_vec] = fftFreq(h, fs, 1 );
figure
plot(H_vec*2*pi/fs, abs(H))
filt_tf =tf(h,1,1/fs,'Variable','z^-1');
figure
bode(filt_tf)
function [ X , f ] = fftFreq( data , fs, w )
% Number of FFT points
NFFT = length( data );
% calculate FFT
X = fft(data .* w);
% calculate frequency spacing
df = fs/NFFT;
% calculate unshifted frequency vector
f = (0:(NFFT-1)) * df;
end
  1 Kommentar
Bas Zweers
Bas Zweers am 22 Sep. 2020
You need to use fftshift for the correct frequency plot

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Star Strider
Star Strider am 18 Sep. 2020
I am not exactly certain what the problem is from a theoretical prespective (I will leave it to you to explore that), however the sinc pulse is too narrow. Increase ‘K’ to 4 or more, and you get a lowpass result.
Also, since this is a discrete filter, the freqz function will do what you want:
figure
freqz(h,1,2^16,fs)
If you are going to use it as a FIR discrete filter, do the actual filtering with the filtfilt function for the best results.
.
  4 Kommentare
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Liang
Liang am 22 Sep. 2020
UPDATE:
Apparently, I made a mistake in the mathematical procedure to come up with my sinc low-pass filter. The pi in the sinc function shouldn't be there. Now everything is working correctly. Thanks again for the help.
Star Strider
Star Strider am 23 Sep. 2020
As always, my pleasure!

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Preston Pan
Preston Pan am 1 Jul. 2022
Consider removing the pi in the argument of sinc. I get that scaling is necessary to respect the fourier scaling relationship and preserve unit gain in the passband but I think that would just be rect(K*t) <--> 1/|K| * sinc(f/K).
When I removed it and did
h=(1/K)*sinc(n/K)
the filter produced the desired behavior.

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