Why the amplitude of fft computing is a little bit different from a known value?

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André Luiz Regis Monteiro
André Luiz Regis Monteiro el 21 de Jul. de 2014
Comentada: André Luiz Regis Monteiro el 4 de Ag. de 2014
I was trying test this:
n=5000;
ts=5;
t=[0:ts/n:ts];
x1=sin(2*pi*20*t);
x2=2*sin(2*pi*60*t);
x3=20*sin(2*pi*200*t);
x4=15*sin(2*pi*350*t);
x=x1+x2+x3+x4;
N=length(x);
k=[0:N-1];
T=N/Fs;
freq=k/T;
cutoff=ceil(N/2);
X=fftn(x)/(N/2);
X=abs(X);
stem(freq(1:cutoff),X(1:cutoff))
The magnitudes got different results to 1 (x1); 2 (x2); 20 (x3) and 15 (x4). And more...if "n" has more or less points for computing the fft, the frequencies (20, 60, 200, 350) also change. Why? Can someone help me? Thanks a lot.

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Wayne King
Wayne King el 21 de Jul. de 2014
Editada: Wayne King el 21 de Jul. de 2014
You have to realize that the frequency spacing between DFT elements depends on the length of the DFT and the sampling frequency. If your frequencies do not fall directly on a DFT bin (the spacing is Fs/N where Fs is the sampling frequency and N the length of the DFT) then the energy in a particular component will be mapped to a slightly different frequency.
Here is your example the way you think it should look:
n=5000; ts=5; t=[0:ts/n:ts-ts/n];
x1=sin(2*pi*20*t); x2=2*sin(2*pi*60*t); x3=20*sin(2*pi*200*t);
x4=15*sin(2*pi*350*t); x=x1+x2+x3+x4;
xdft = fft(x);
xdft = xdft(1:length(x)/2+1);
xdft(2:end-1) = 2*xdft(2:end-1);
xdft = xdft./length(x);
df = 1000/length(x);
freq = 0:df:500;
plot(freq,abs(xdft));
xlabel('Hz'); ylabel('Magnitude');
grid on;
You may want to review this:
amplitude estimation and zero padding
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Wayne King
Wayne King el 22 de Jul. de 2014
Andre, the frequency spacing in the DFT is Fs/N where Fs is the sampling frequency and N is the number of DFT points.
If you change N = 512, then the frequency spacing is 1000/512. As a result the frequencies in your signal may not correspond to a DFT bin.
For example, your frequency spacing would be 1000/512=1.9531 and 350 is not divisible by 1.9531. Accordingly, the energy in that signal may not get perfectly mapped to one DFT bin and the amplitude estimation may be off. Did you read the example in the link I provided? That is explained.
To get the amplitude correct on a one-sided DFT magnitude plot, yo have to multiply all the frequencies that occur twice in the DFT by 2.
Yes,
df = (n/ts)/length(x);
because (n/ts) is equal to the sampling frequency.
Thank you for accepting my answer if I have helped you.
André Luiz Regis Monteiro
André Luiz Regis Monteiro el 4 de Ag. de 2014
Wayne, I am sorry ask you again, but I have doubts yet. I am a little bit confused with "n" and "N". I am thinking that is the same thing. In your answer above, you keep frequency F as 1000Hz. But F = n/ts, right? So if I choose n=512, I think that length(x)=512=length(t) too, because t depends on 'n'. So DFT bin keeps constant as (n/ts)/length(x)= (512/5)/512, different from 1000/512. What am I doing wrong?
Sorry for my delay. I had some problems.
Thank you.

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