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I had created a 3 three different frequency signal and filter out the signal i don't want. But when i using ifft in matlab, it shows a wrong graph.How to transform my frequency domain spectrum back into my 3 second time domain graph? Below my code is as below:

clc
clear all
Fs = 8192;
T = 1/Fs;                                             
%create tones with different frequency
t=0:T:1;
t2=1:T:2;
t3=2:T:3;

y1 = sin(2*pi*220*t); 
y2 = sin(2*pi*300*t2);
y3 = sin(2*pi*440*t3);                          

at=y1+y2+y3;


figure;
plot(t,y1,t2,y2,t3,y3),title('Tones with noise');

[b,a]=butter(2,[2*290/Fs,2*350/Fs],'stop');
e=filter(b,a,at);
et=(ifft(abs(e)));
figure,
plot(et)
share|improve this question
    
you wipe out the phase information when you do abs(ffs(.. –  bla Dec 26 '12 at 3:54
    
hmmm...i do not get what you means –  Ambbie Dec 26 '12 at 3:55
    
I see you editted the question and took it out... –  bla Dec 26 '12 at 3:56
    
ok..i wrongly wipe..XD –  Ambbie Dec 26 '12 at 3:58

1 Answer 1

up vote 1 down vote accepted

As it is now, et is in the frequency domain, because of the fft. You don't need to fft. just plot(e) and you'll get the time domain filtered waveform. Yo can check the filter performance in the freq. domain by fft though, just

plot(abs(fftshift(fft(fftshift(e)))));
xlim([4000 5000])

Edit:

Your code as it is written on the question has the following bug: at has exactly 1 second of info in it (or 8192 elements). If you plot(at) you'll see the sum of frequencies alright, but they all happen in the same time. This is how to fix it:

clear all
Fs = 8192; % or multiply by 3 if needed
T = 1/Fs;                                             
%create tones with different frequency
t=0:T:3;

y1 = sin(2*pi*220*t).*(t<1); 
y2 = sin(2*pi*300*t).*(t<2 & t>=1);
y3 = sin(2*pi*440*t).*(t>=2);                          

at=y1+y2+y3;

[b,a]=butter(2,[2*290/Fs,2*350/Fs],'stop');
e=filter(b,a,at);
figure,
plot(t,e)

enter image description here

dt=t(2)-t(1);
N=length(at);
df=1/(N*dt);        % the frequency resolution (df=1/max_T)
if mod(N,2)==0
    f_vector= df*((1:N)-1-N/2);     % frequency vector for EVEN length vectors: f =[-f_max,-f_max+df,...,0,...,f_max-df]
else
    f_vector= df*((1:N)-0.5-N/2);   % frequency vector for ODD length vectors f =[-f_max,-f_max+fw,...,0,...,f_max]
end
freq_vec=f_vector;
fft_vec=fftshift(fft(e));

plot(freq_vec,abs(fft_vec))
xlim([0 1000])

enter image description here

share|improve this answer
    
but how to ifft back to time domain which is from 0 second to 3 second as i created before. My question is to filter 300Hz..so..i want to shows my signal without 300Hz in time domain..Do you know how to make it? –  Ambbie Dec 26 '12 at 4:07
    
if i want to fully filter my 300 HZ? is it possible? –  Ambbie Dec 26 '12 at 4:25
    
Of course you can, but did I answer your question? –  bla Dec 26 '12 at 4:26
    
yup...u helps me alot..^^ reali thanks you so much. Anywhere, How to design the flter that can fully filtered the 300 Hz? –  Ambbie Dec 26 '12 at 4:29
    
And what does it means by tis code "y1 = sin(2*pi*220*t).*(t<1); "...why the t is need to .*(t<1)? –  Ambbie Dec 26 '12 at 4:30

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