User`s manual

Page 20

Voyager XL User’s Manual - The Components

Page 21

Voyager XL User’s Manual - The Components

C – The Filter Section

Filters are used to adjust the tone color of an audio signal. Filters modify sounds by rejecting some

frequencies while allowing others to pass through. To understand the operation of lters and how they

process sound, there are a few important terms to know.

In the original Minimoog, the Resonance control was called ‘Emphasis’. Many of the

current Minimoog emulations (both hardware and software) use the term ‘Emphasis’

instead of ‘Resonance’ in the lter section to preserve the authentic vibe of the

original hardware.

The rst term is ‘Cutoff Frequency’. The cutoff frequency is the point at which an audio

signal’s frequencies begin to be rejected. Then there are the different types of lters;

some of the most common and most musically useful lter types are ‘lowpass’, ‘highpass’,

and ‘bandpass’. A lowpass lter behaves as its name indicates; it passes all frequencies

below the cutoff frequency and rejects frequencies above the cutoff. A highpass lter

does the opposite. It passes all frequencies above the cutoff point and rejects the

frequencies below the cutoff. A bandpass lter does a bit of both, since it is created

by combining lowpass and highpass lters. In the case of a bandpass lter, the lowpass

section denes the maximum frequency that will pass through, while the highpass

section denes the minimum frequency that will pass through. What’s left is a band of

frequencies that will pass through the lters unaffected, hence the name, bandpass.

Another key term is the ‘Cutoff Slope’. The cutoff slope determines the amount of

attenuation that occurs above the cutoff frequency. The cutoff slope is specied in

decibels per octave (commonly written as ‘dB/oct’). The electrical design of a lter

determines the cutoff slope. You may have heard the term ‘pole’ as it refers to lters.

A pole is simply a design aspect of a lter, and each pole in a lter typically adds 6dB

to the cutoff slope. This means that a one-pole lter has a cutoff slope of 6db/oct, a

2-pole lter has a 12dB/oct cutoff slope, etc. The classic Moog lter – the sound that

started it all – is a 4-pole, 24dB/oct lowpass lter.

Another important lter term is ‘Resonance’. Resonance refers to a peak that appears at the cutoff

frequency. In synthesizers, this resonant peak is usually an adjustable parameter (called ‘ Resonance’ ) that

is part of the lter controls. High resonance values emphasize the overtones that fall within the frequency

range of the resonant peak, giving the processed sound a character that

can be described as vocal, quacky or zappy, depending on the source

sound. When the resonance is turned up past about 8 on the dial, the

lter begins to self-oscillate at the cutoff frequency, producing a sine

wave tone. The Keyboard Control Amount control sets how much the

lters’ cutoff frequencies track the keyboard note that is played. As you

play higher on the keyboard, the cutoff frequency goes higher, too.