“D-Max” Clip Limiter
The main limitation with traditional dynamics control is the inability of the processing to react truly
instantaneously to the signal. One of the most significant advantages of digital signal processing over
analogue is the ability to delay the audio signal precisely and without extensive complex hardware. The entire
domain of digital signal processing is based around the combination of delaying, multiplying, and accumulating
numbers (representing samples of audio) to implement all the filters and dynamics processing we have come
to expect today.
In the case of dynamics processing, being able to delay a signal allows the processor module to delay the
main signal in relation to the sidechain (the signal being monitored relative to the threshold), so that it can
compensate for peaks prior to the arrival of the main signal.
Consider the situation of a monitor engineer listening to a band perform. Having no access to dynamics
processors, he has had to resort to manually 'riding the faders' in an attempt to keep control of the levels.
Should the level of one of the channels on his desk reach an unacceptably high level, he will turn it down
appropriately.
There is a hidden sidechain in operation
even in this case. The main signal path is
fed through the monitor desk and the gain
controlled by adjusting the fader. The
sidechain is formed by the feedback path
between the engineer's ears checking the
level and his brain instructing his hand to
turn the fader down if the volume goes over
the threshold he has chosen.
In this case, the delay between the signal actually going over the threshold, the engineer registering the
situation, and then turning the signal down will be in the order of several hundred milliseconds at best. This
will only be true if he is not distracted – in reality, it may be several seconds before any gain reduction is
imposed on the signal to bring it under control.
For an analogue dynamics processor, the situation
is much better. Controlling the gain electronically,
and not relying on a human sidechain feedback
mechanism, it can react much more quickly.
The red waveform represents the input to the
dynamics module, with the dotted line showing the
threshold for gain control to occur. There are
several peaks towards the start of this signal that
are above the threshold, and so the dynamics
processing should react to these as appropriate. (In
this case reduce the gain).
The blue waveform shows the output of the
dynamics module. The circled peak demonstrates
that the processor has missed the first peak above
the threshold (as it is very fast and short), but has
'caught up' shortly afterwards, keeping all other
peaks under control. As it is unable to predict what
is coming, this will always be a failing with analogue
dynamics processing.
29
Summary of Contents for QUBE SP27
Page 1: ...QUBE SP27 Audio Management System www qubeaudio com FBT ELETTRONICA S p A www fbt it ...
Page 2: ......
Page 13: ...2 x 3 way crossover 1 x 6 way crossover 2 x 2 way mono 11 ...
Page 20: ...Menu System Overview 18 ...
Page 41: ...Appendix I SP27 Default Crossover Configurations 2 x 3 Way 39 ...
Page 42: ...2 x 2 Way Mono Sum 40 ...
Page 43: ...1 x 6 Way 41 ...