Difference between revisions of "Butterworth Filters"

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</math>|{{EquationRef|2}}}}
 
</math>|{{EquationRef|2}}}}
  
Where <math>N</math> is the filter order and <math>\omega_0</math> is the <math>-3\,\text{dB}</math> frequency.
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Where <math>N</math> is the filter order and <math>\omega_0</math> is the <math>-3\,\text{dB}</math> 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).

Revision as of 16:32, 15 March 2021

Butterworth filters are a class of all-pole filters, where the poles of the normalized transfer function are equally spaced along the unit circle (). This results in a maximally flat pass-band magnitude response, or equivalently:

 

 

 

 

(1)

This means that the derivative of the magnitude at DC is zero.

The Low-Pass Butterworth Filter

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

 

 

 

 

(2)

Where is the filter order and is the 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).