How to break a waveform waveform into its constituent harmonics using FFT and see the harmonic waveforms at each frequency?

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Rasula Dias
Rasula Dias on 8 May 2024
Answered: MULI on 23 Sep 2024
I want to use Simulink to see the harmonics of a voltage waveform. So far I have used the fft simulink tool and only found the magnitude of the harmonic frequencies. What I would like to do is issolate and observe the waveform at the different frequencies as shown in the figure below.
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Mathieu NOE
Mathieu NOE on 13 May 2024
with the fft block you can get the fundamental frequency (or maybe you know it aleady before)
use that information to tune a bank of bandpass filters - each output correspond to one harmonic tone of the signal

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Answers (1)

MULI
MULI on 23 Sep 2024
Hi Rasula,
I understand that you need to isolate and observe the waveform at different harmonic frequencies of a voltage signal and you can follow the below steps to achieve this:
  • First, convert your voltage signal to the frequency domain using the FFT block.
  • Use a MATLAB Function block to zero out all frequency components except the one you want to observe.
  • This allows you to isolate specific harmonics, such as the fundamental frequency, 3rd harmonic, etc.
function y = isolate_harmonic(X, harmonic_index)
y = zeros(size(X));
y(harmonic_index) = X(harmonic_index); % Retain only the desired harmonic
end
  • Use the IFFT block to convert the frequency-domain data back to the time domain. This will give you the time-domain waveform of the isolated harmonic.
You can refer to these MathWorks documentation links for more information and examples related to “FFT” and “IFFT” block
https://www.mathworks.com/help/dsp/ref/fft.html
https://www.mathworks.com/help/dsp/ref/ifft.html
This method avoids the complex designs of bandpass filters for each harmonic.

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