Difference between revisions of "Bessel Filters"

Bessel filters are all-pole filters with maximally flat pass-bands, maximally flat group delays, and poor "out-of-band" or stop-band attenuation compared to Butterworth, Chebyshev, and Elliptic filters of the same order. Since the group delays are relatively constant in the pass-band, Bessel filters exhibit minimal phase distortion, and hence very little overshoot in its step response.

The Low-Pass Bessel Filter

The transfer function of the low-pass Bessel filter is given by:

${\displaystyle H\left(s\right)={\frac {\theta _{N}\left(0\right)}{\theta _{N}\left({\frac {s}{\omega _{0}}}\right)}}}$

(1)

Where ${\displaystyle N}$ is the filter order, ${\displaystyle \omega _{0}}$ is the cut-off frequnecy, and ${\displaystyle \theta _{N}\left(s\right)}$ is the reverse Bessel polynomial, and is equal to:

${\displaystyle \theta _{N}\left(s\right)=\sum _{k=0}^{N}a_{k}s^{k}}$

(2)

Where:

${\displaystyle a_{k}={\frac {\left(2N-k\right)!}{2^{N-k}k!\left(N-k\right)!}}}$

(3)

For ${\displaystyle k=0,1,\ldots N}$. The low-pass Bessel filter characteristics are shown in Figs. 1-4.

Figure 1: The low-pass Bessel filter pole-zero plot for ${\displaystyle N=5}$.	Figure 2: The low-pass Bessel filter magnitude response for ${\displaystyle N=5}$.
Figure 3: The low-pass Bessel filter phase response for ${\displaystyle N=5}$.	Figure 4: The low-pass Bessel filter group delay for ${\displaystyle N=5}$.