Manual

The first and perhaps most significant factor in compression is the level of the input signal. Large

(loud) input signals result in more gain reduction, while smaller (softer) input signals result in less

gain reduction. Threshold is another important factor. It is a term used to describe the level at which

a compressor starts to work. Below the threshold point, the volume of a signal is unchanged; above

it, the volume is reduced. For example, if a compressor’s threshold is 0 dB, incoming signals at or

Note that the 6176 ratio setting also affects threshold (see below).

Another important term is compression ratio, which describes the amount of increase required in the

every 1 dB of increase in input level, there is a corresponding 1 dB increase in output level; in other

words, there is no compression being applied. A ratio of 4:1, however, means that any time there is

an increase of 4 decibels in the loudness of the input signal, there will only be a 1 dB increase in

output signal. A ratio of 8:1 means that even when there is a full 8 decibels of increase in loudness,

As you can see from this illustration, at low ratios of 2:1 or 4:1, a compressor has relatively less

effect on the incoming signal; at higher ratios, it has more effect. While the terms “compression” and

“limiting” are often used interchangeably, the general definition of compression is gain reduction at

limiting. Limiters abruptly prevent signals above the threshold level from exceeding a certain

maximum value. At very high ratios of 20:1 or greater (some limiters even offer a theoretical infinite