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only be turned with a screwdriver. This avoids not just casual tampering, but knobs
being moved (and settings lost) by accidental brushing, sweeping, or knocking. A collet
nut may be included. When tightened, the setting will then be immune to attack by a
screwdriver, as well as vibration creep. As a further discouragement to “ let’s turn this up, ”
such controls may be placed on the rear panel of the amp or hidden behind cover plates.
8.6.2 Remotable Gain Controls (Machine Control)
Pots are mostly made to interface with human fi ngers via knobs. When a sound system
moves past the point where a single driver in each band can handle the power required or
whereAmbisonic or other multichannel sound is contemplated, remote control opens the
door to “ intelligent ” control of loudspeaker systems and clusters, including balancing and
tweaking directivity, imaging, and focusing, by machines and via wires and radio links.
The gain of an amp can be controlled by a variety of electronic means ( Figure 8.11 ). The
purely electronic means are fast enough to perform additional, true processing functions,
for example, limiting.
VCRsStepped finite resolutionContinuous infinite
resolutionLog-antilogVariable
transconductanceJ-FETLED/LDR
Lamp/LDR
Cermet
CPMultiplying
DACsDiscrete switches or FETsMotorised potsMotorised
potsVCAsFigure 8.11 : The family tree of electronically controllable gain and attenuation devices.