# how to transform frequency domain into time domain

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)
``````
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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

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)
``````

``````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])
``````

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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