Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have a current signal and my task is to extract the first 5 harmonics and display the waveforms corresponding to those harmonics.

Here is the fft of the cureent signal so you can visualise where the waveforms are and their relative heights:

enter image description here

( disregard the y scale -- it hasn't been corrected yet )

So this is what I did to solve this:

I made five 4th order butter bandpass filters to extract each harmonic :

orderN = 4;

% Fundamental frequency 
passband1 = [40 60]/(samplingRate/2);
[b,a] = butter(orderN, passband1, 'bandpass');
I1 = filter(b,a,I);

subplot 511

% Second harmonic
passband2 = [98 102]/(samplingRate/2);
[b2,a2] = butter(orderN, passband2, 'bandpass');
I2 = filter(b2,a2,I);

subplot 512

% Third Harmonic
passband3 = [146 154]/(samplingRate/2);
[b3,a3] = butter(orderN, passband3, 'bandpass');
I3 = filter(b3,a3,I);

subplot 513

% Fourth Harmonic
passband4 = [190 210]/(samplingRate/2);
[b4,a4] = butter(orderN, passband4, 'bandpass');
I4 = filter(b4,a4,I);

subplot 514

% Fifth Harmonic
passband5 = [240 260]/(samplingRate/2);
[b5,a5] = butter(orderN, passband5, 'bandpass');
I5 = filter(b5,a5,I);

subplot 515

For some weird reason this is the plot that I am getting :

enter image description here

I cant explain those bumps in the plot. Why are those waveform amplitudes increasing and decreasing like that ?

Here is what it is supposed to look like:

enter image description here

( disregard the scales please )

How can I make my filter output to look like the second picture ??

Please help

share|improve this question
This question really belongs on – Bjorn Roche Mar 22 '14 at 2:00
Are you sure this isn't part of your original signal? You could try creating an artificial frequency with those components and see what you get. – Bjorn Roche Mar 22 '14 at 2:02

I think there are two things:

If I remember correctly, for passband and stopband, MATLAB designs 2*n order filter for you. Type: help butter and verify.

Second thing:

When you apply a filter, two things happen:

The first is the transient response, which is like a negative exponential The second is the steady state response, which is after the transient dies.

If you look at your signals, the more they go from 0, the more "steady" they become. It is like you have an exponentially dying sine wave on top of your wave.

One more thing: Your FFT is showing the x-axis as "Hz". If that is correct, be careful with your filter design.

I believe you are passing w, not f. You are passing 2*pi*f. Again, help butter should specify that.

So your filters are off, and the "spiking" waves are getting filtered, only it is taking time for them to die.

share|improve this answer
up vote 0 down vote accepted

Ok folks I got it working. I plotted the FFT of each filtered signal ( I1,I2,I3,I4,I5 ) and saw this :

This plot shows me that the filtering has worked and each harmonic has been filtered out.

Now each harmonic is a sin wave. So all I did was find the amplitude of each harmonic from the fft plot and the frequency at which it is present and made it into a sin wave

and now I am getting the correct plot

share|improve this answer

This might be due to FFT Windowing.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.