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I'm using Matlab to take FFTs of signals, and I'm getting stuck on the normalization. Specifically, how to normalize the spectrum into units of dBm. I know that 0.316228 is the correct normalization factor, but my questions are related to how to normalize the bins correctly.

I created the following program to raise my questions. Just cut and paste it into Matlab and it'll run itself. See questions in-line.

In particular, I'm confused how to normalize the bins. For example, if the FFT has indices 1:end, where end is even, when I calculate the FFT magnitude spectrum, should I multiply by (2/N) for indices 2:(end/2)? Similarly, does the bin at the Nyquist frequency (located at index end/2+1) get normalized to (1/N)? I know there's a bunch of ways to normalize depending on one's interest. Let's say the signal I'm using (St below) are voltages captured from an ADC.

Any feedback is greatly appreciated. Thanks in advance!

%% 1. Create an Example Signal
N = 2^21 ;                   % N = number of points in time-domain signal (St)
St = 1 + rand(N,1,'single'); % St = example broadband signal (e.g. random noise)

% take FFT
Sf = fft(St, N);                    
Sf_mag = (2/N)*abs(Sf(1: N/2 + 1));
Sf_dBm = 20*log10(Sf_mag / 0.316228); % 0.316338 is peak voltage of 1 mW into 50 Ohms

% Q: Are Sf_mag and Sf_dBm normalized correctly? (assume 0.316338 is correct 
%    peak voltage to get 1mW in 50 Ohms)
% Q: Should Sf_mag(fftpoints/2 + 1) = (1/N)*abs(Sf(fftpoints/2 + 1) for correct normalization 
%    of Nyquist frequency? (since Nyquist frequency is not folded in frequency 
%    like the others are)                         

%% 2. Plot Result

% create FFT spectrum x-axis
samplerate = 20e9;  % 20 Gsamples/sec 
fft_xaxis = single(0 : 1 : N/2)';    
fft_xaxis = fft_xaxis * single(samplerate/N); 

semilogx(fft_xaxis, Sf_dBm, 'b-')
xlabel('Frequency (Hz)');
ylabel('FFT Magnitude (dBm)');
title('Spectrum of Signal (Blue) vs Frequency (Hz)');
xlim([1e4 1e10]);
grid on;
share|improve this question
Use log10 instead of log when converting the mag to dB –  YYC Oct 29 '10 at 22:08
Yup, that's a great find YYC, Thanks! –  ggkmath Oct 30 '10 at 18:32
A comment I keep putting under a lot of questions: a simple Fourier transform is not sufficient for spectral estimation. There are well-implemented functions for that available in core Matlab. Look at pwelch. –  A. Donda Oct 31 '13 at 23:53

2 Answers 2

up vote 5 down vote accepted

I am not totally clear about what you are trying to accomplish, but here are some tips that will let you debug your own program.

Do fft([1 1 1 1]). Do fft([1 1 1 1 1 1 1 1]). In particular, observe the output magnitude. Is it what you expect?

Then do fft([1 -1 1 -1]). Do fft([1 -1 1 -1 1 -1 1 -1]). Repeat for various signal lengths and frequencies. That should allow you to normalize your signals accordingly.

Also, do the same thing for ifft instead of fft. These are good sanity checks for various FFT implementations, because while most implementations may put the 1/N in front of the inverse transform, others may put 1/sqrt(N) in front of both forward and inverse transforms.

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See this for an answer: FFT normalization

Some software packages and references get sloppy on the normalization of the Fourier coefficients.

Assuming a real signal, then the normalization steps are:

1) The power in the frequency domain must equal the power in the time domain.

2) The magnitude of the Fourier coefficients are duplicated (x2) except for DC term and Nyquist term. DC and Nyquist terms appear only once. Depending on how your array indexing starts/stop, you need to be careful. Simply doubling the power to get a one sided spectrum is wrong.

3) To get power density (dBm/Hz) you need to normalize to the individual frequency bin size.

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