Difference between revisions of "Butterworth Filters"

Butterworth filters are a class of all-pole filters, where the poles of the normalized transfer function are equally spaced along the unit circle (${\displaystyle \omega _{0}=1\,{\text{rad/s}}}$). This results in a maximally flat pass-band magnitude response, or equivalently:

${\displaystyle \left.{\frac {\partial ^{N}\left|H\left(j\omega \right)\right|}{\partial \omega ^{N}}}\right|_{\omega =0}=0}$

(1)

This means that the ${\displaystyle N^{\text{th}}}$ derivative of the magnitude at DC is zero.

The Low-Pass Butterworth Filter

The low-pass Butterworth filter has the following magnitude response:

${\displaystyle \left|H\left(j\omega \right)\right|^{2}={\frac {1}{1+\left({\frac {\omega }{\omega _{0}}}\right)^{2N}}}}$

(2)

Where ${\displaystyle N}$ is the filter order and ${\displaystyle \omega _{0}}$ is the ${\displaystyle -3\,{\text{dB}}}$ frequency. Note that <math>\left|H\left(j\omega\right)\right|^2 = \left|H\left(s\right)\right|^2 = H\left(s\right)\cdot H^*\left(s\right).