TC Electronic SYSTEM 6000 MKII Algorithm Manual - Reverb - 3
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rEvErb - 3
Reverb Page
Reverb
Lo Decay
Range: 0.01 to 2.5 times
Relative Decay time multiplier for low frequencies.
Example: If the x Lo parameter set to 1, the low
frequency area, specified by the Lo Xover parameter, will
remain unchanged. If set higher than 1, the Decay time for
that frequency area will be increased. If set lower than 1
the Decay time will be decreased.
Lo Xover
Range: 20Hz to 4.00kHz
Sets the crossover frequency for the x Lo Decay time
multiplier in 1/3-octave steps. If Lo-Mid Xover is set higher
than Mid Xover the Mid Xover frequency will automatically
be adjusted upward.
Mid Decay
Range: 0.01 to 2.5 times
Relative Decay time multiplier for the low-mid frequencies.
Mid Xover
Range: 200Hz to 6.30 KHz
Sets the crossover frequency for the Decay xLoMid Decay
time multiplier in 1/3 octave steps. If set lower than
Lo Xover, then Lo Xover will change downward.
Hi Decay
Range: 0.01 to 2.0 times
Relative Decay time multiplier for the high frequencies.
Hi Xover
Range: 2.00kHz to flat
Sets the crossover frequency for the x Hi Decay time
multiplier in 1/3-octave steps.
Modulation
Rate
Range: 1 to 200
The Modulation Rate varies the rate of modulation of the
recirculating delay paths simulating the Reverb Tail. The
control has no effect at a “0” setting.
Adding modulation to the Reverb has the effect of
smoothing out the frequency response of the Reverb, by
effectively averaging out the room resonances.
Depth
Range: 0 to 100%
Controls the amount of delay path modulation or “wander”
in the Reverb. The control interacts with the MODRATE,
so with either control set at a high setting you will start to
hear pitch modulation. The amount of either parameter that
you can add depends on the type of material to which you
are adding Reverb. Percussive types of sounds can be
much more modulated than for example violin or an opera
vocal. Please note that adding even the least amount of
modulation will cause the very high frequencies to diminish
slightly, somewhat similar to the high frequency damping
caused by sound traveling naturally through air.