FFT of discrete signal .Should use nextpow2 or not
9 views (last 30 days)
Show older comments
Hi ,
Number of samples= 50000 samples.
m=[ 0 54 ...................................................]
m is the discrete signal samples .Has length of 50000
Is this code correct for the signal which has 50000 samples?
Do I use nextpow2 function?
When I used it I am getting wrong frequency components in FFT.
Here is the code i have written .
m=[ 0 54 ...................................................]; 50000 samples are there .
fs=50000000; %Sampling frequency
nfft=length(m);
%nfft=2^nextpow2(nfft);
X=fft(m,nfft); %FFT of the signal
X=X(1:nfft/2);
%take magniutde
mx=abs(X);
f=(0:(nfft/2)-1)*fs/nfft; %Frequency range
figure(1);
n=50000;
t=0:1:(n-1);
plot(t,m);
title('Multisine')
xlabel('Samples')
ylabel('Amplitude');
figure(2)
plot(f,mx);
title('FFT of signal')
xlabel('Frequency')
ylabel('Amplitude');
0 Comments
Accepted Answer
Star Strider
on 21 Apr 2021
Using nextpow2 is not necessary. It will make the fft calculation a bit more efficient, and it will increase the frequency resolution. See the documentation section on Computational Efficiency for an extended discussion.
6 Comments
More Answers (0)
See Also
Categories
Find more on Fourier Analysis and Filtering in Help Center and File Exchange
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!