Ashly Electronic Amplifier none User Manual

Passive LC 2nd order low-

pass filter and response.

RESPOIJSE SHAPE

The

performance

of

the

filter

in

the

immediate

vicinity

of

the

cutoff

frequency is important to consider, as it will affect the way a filter sounds

and the way in which its response combines with another filter in a multiple-
filter

system.

Some

filters

begin

to

attenuate

well

before

the

cutoff

frequency,

while

some

remain

essentially

flat

up

to

cutoff

before

abruptly

beginning to attenuate. Some filters even exhibit an increase in amplitude as
they approach the cutoff ooint, and then quickly reverse themselves and begin
to attenuate.

These various response characteristics each has an application, and some of

the most common ones have been given names, including Butterworth, Bessel,

Chebyshev,

Cauer,

and

Elliptical.

The

Butterworth

response

shape

is

very

popular

in

conventional

crossovers.

Also

called

a

"maximally

flat"

response,

it stays quite flat within the pass-band and then falls off with a very linear
slope. In actuality, it does not remain perfectly flat right up to the cutoff
frequency, but begins to roll off a little earlier, so that the response is
down 3dB at the cutoff frequency. A response plot of a low-pass 12dB/octave
Butterworth filter is shown in figure 25.

Figure 25 Butterworth response.

23