Pag e 6 – Australian Monitor AMISCL2 User Manual

PAG E 6

A M I S C L 2 I N S TA L L AT I O N & O P E R AT I O N M A N UA L

S E T U P A N D O P E R AT I O N

Fig 1 The interactive relationship between the operating level and the

headroom

It is possible to further improve the audio quality by constantly

monitoring the programme material with the aid of a volume fader,

which manually levels the material. During low passages the gain is

increased, during loud passages the gain is reduced. Of course it is

fairly obvious that this kind of manual control is rather restrictive; it is

difficult to detect signal peaks and it is almost impossible to level them

out. Manual control is simply not fast enough to be satisfactory.

The need therefore arises for a fast acting automatic gain control

system which will constantly monitor the signals and which will always

adjust the gain to maximise the signal-to-noise ratio without incurring

signal distortion. This device is called a compressor or limiter.

C O M P R E S S O R / L I M I T E R S

By measuring the dynamic range of musical instruments and micro-

phones, you will find that extreme amplitudes will occur which will

often lead to overload in subsequent signal processing equipment.

These signal peaks can lead to heavy distortion. To avoid this kind of

distortion or, for example, to avoid loudspeakers being damaged by

overload,

Compressors or Limiters are used.

The principal function used in these devices is dependent on an

automatic gain control as mentioned in the previous section, which

reduces the amplitude of loud passages and therefore restricts the

original dynamics to a desired range. This application is particularly

useful in microphone recording, to compensate for level changes

which are caused by varying microphone distances.

Although compressors and limiters perform similar tasks, one essential

point makes them different:

A

Limiter abruptly limits the signal above a certain level, while a

compressor controls the signal “gently” over a wider range.

A limiter continuously monitors the signal and intervenes as soon as

an adjustable level is exceeded. This level is called the threshold.

Any signal exceeding this threshold will be immediately reduced

back to the adjusted threshold level.

A

compressor also monitors the program material continuously and

has a certain threshold level. However, in contrast to the limiter, signals

exceeding the threshold are not reduced abruptly but gradually. Above

the threshold, the signal is reduced in level, relative to the amount the

signal exceeds this point. This gain reduction is set by the ratio control.

Generally, threshold levels for compressors are set below the normal

operating level to allow for the upper dynamics to be musically com-

pressed. For limiters, the threshold point is set above the normal oper-

ating level ini order to provide reliable signal limiting and thus protect

subsequent equipment.

E X PA N D E R S / N O I S E G AT E S

Audio, in general, is only as good as the source from which it was

derived. The dynamic range of signals will often be restricted by noise.

Synthesisers, effects devices, guitar pickups, amplifiers etc generally

produce a high level of noise, hum or other ambient background hiss,

which can disturb the quality of the program material.

Normally these noises are inaudible if the level of the desired signal

lies significantly above the level of the noise. This perception by the

ear is based on the “masking” effect: noise will be masked and thus

becomes inaudible as soon as considerably louder sound signals in the

same frequency band are added. Nevertheless, the more the level that

the desired signal decreases, the more the noise floor becomes a

disturbing factor.

Expanders or noisegates offer a solution for this problem: these

devices attenuate signals when their amplitudes drop, thereby fading

out the background noise. Reliant on this method, gain controlling

amplifiers, like expanders, can extend the dynamic range of a signal

and are therefore the opposite of a compressor.

In practice, it is shown that an expansion over the entire dynamic range

is not desired. With an expansion ratio of 5:1 and a processed dynamic

range of 30dB, an output dynamic range of 150dB will be the result,

exceeding all subsequent signal processors, as well as human hearing.

Therefore, the amplitude control is restricted to signals whose levels are

below a certain threshold. Signals above this threshold pass through the

unit unchanged. Due to continuous attenuation of the signals below this

threshold, this kind of expansion is termed “downward” expansion.

The noisegate is the simplest form of an expander: in contrast to the

expander, which continuously attenuates a signal below the threshold,

the noise-gate cuts off the signal abruptly. In most applications this

method is not very useful, since the on/off transition is too drastic.

The onset of a simple gate function appears very obvious and

unnatural. To achieve an inaudible processing of the program material,

it is necessary to be able to control the signal’s envelope parameters.