User manual

The human ear excels in its ability to detect an extremely wide range of sound

levels. These can range from the quietest whisper to the roar of a jet aircraft.

When we attempt to reproduce this large range (dynamic range) of sounds with

amplifiers, tape recorders or radio transmitters, we run into one of the

fundamental limitations of electronic or acoustic equipment - a restricted

usable dynamic range (although in some cases, such as amplifiers, the

dynamic range available is quite good).

What limits the available dynamic range of this equipment is its inherent noise

floor at the bottom end, and the maximum input signal resulting in an

acceptable amount of distortion at the upper end. The usable dynamic range

sits in between these two limits, and it is common practice to operate a piece

of equipment at a level that is somewhat below the upper distortion point,

leaving a margin of safety for the unexpected transient loudness peaks present

in program material. The safety margin is known as headroom, and is generally

in the range of 10 to 20dB. Lowering the standard operating level to increase

headroom helps reduce the likelyhood of distortion, but moves the average

program level nearer to the noise floor, thereby compromising the signal to

noise performance. It therefore becomes apparent that to get the most out of an

audio system, the standard operating level must be kept as high as possible

without risking distortion.

8.0 General Applications

8.1 The need for

Gain control

Fig 8.1 Dynamic Range

General applications