Korg Triton Studio Electronic Keyboard User Manual


 
245
Appendices
If you select the same controller as an AMS and set
separate intensities for Filter A (Low Pass Filter)
Intensity and Filter B (High Pass Filter) Intensity,
you can operate a single controller to simultaneously
control the cutoff frequencies of both filters.
Resonance (Program P3: 31b)
This can be used when the Filter Type is Low Pass Reso-
nance. The resonance level can be controlled by EG, LFO,
keyboard tracking, controllers or tempo etc.
If you select Filter KTrk or Amp KTrk as the AMS,
you can use the filter or amp keyboard tracking settings
to control the resonance level. For example if the amp
keyboard tracking parameters Ramp Low and Ramp
High are set to positive (+) values, Amp KTrk [+/+] is
selected as the AMS, and Intensity it set to a
positive (+) value, playing toward either end of the
keyboard will cause amp keyboard tracking to increase
the volume, and AMS to raise the resonance level.
You can select a controller as the AMS, and apply
resonance when desired by operating the controller.
You can select LFO1 or 2 as the AMS, and use the LFO
to modulate the resonance level.
Filter EG Intensity (Program P3: 32b)
Filter EG intensity can be controlled by a controller or tempo
etc. You can use Intensity to A and Intensity to B to
independently specify the intensity for Filter A and B.
If you select JS Y:CC#02 as the AMS and set Int to
A and Int to B to a positive (+) value, moving the
joystick in the Y direction will gradually increase the
effect of the Filter EG. If you set Int to A and Int to B
to a negative () value, the effect of the Filter EG will be
inverted.
If you select Ribbon:CC#16 as the AMS and set Int to
A and Int to B to a positive (+) value, operating the
ribbon controller toward the right will gradually
increase the effect of the Filter EG. Operating the ribbon
controller toward the left will gradually increase the
effect of the Filter EG with an inverted phase.
Filter LFO 1/2 Intensity (Program P3: 33a, 33b)
The LFO 1/2 lter modulation intensity can be controlled by
EG, keyboard tracking, controller, or tempo. You can use
Intensity to A and Intensity to B to independently spec-
ify the intensity for Filter A and B.
If you select EG as the AMS, the auto-wah effect
produced by LFO modulation will be controlled by the
changes in EG level. If you set Intensity to A and
Intensity to B to a positive (+) value, the wah effect
will deepen as the EG level rises, and will lessen as the
EG level falls. With negative () values of Intensity to
A and Intensity to B, the phase of the LFO will be
inverted.
If you use a controller such as SW1 or 2 as the AMS,
you can apply the auto-wah effect when desired by
pressing the [SW1] or [SW2] key.
Amp (Program P4: 42b)
The volume can be controlled by the pitch/lter EG, con-
trollers, or tempo etc.
If an EG or controller that changes with a positive (+)
value (Amp EG, EXT(+), EXT(SW)) is selected as the
AMS, setting the Intensity to +99 will allow you to
increase the volume to a maximum of eight times that of
the current volume.
If an EG, LFO, or controller that changes with a ± value
(Pitch EG, Filter EG, LFO, KT, EXT(+) is selected as the
AMS, setting the Intensity to +99 will allow you to
increase the volume to a maximum of eight times that of
the current volume (for positive (+) changes of the
AMS), or to decrease the volume to zero (for negative
() changes of the AMS).
In addition to the time-variant changes in volume
produced by the amp EG, you can also make the volume
change in synchronization with the pitch/filter EG.
Select PitchEG or FilterEG as the AMS, and adjust
Intensity. If you wish to cancel the effect of the
AmpEG and use the pitch/filter EG to control the
volume, set all levels of the AmpEG to +99.
Amp LFO 1/2 Intensity (Program P4: 42c)
The amp modulation intensity of LFO 1/2 can be controlled
by EG, keyboard tracking, controllers, or tempo etc.
If you select EG as the AMS, the depth of the tremolo
effect produced by LFO modulation will change in
synchronization with the changes in EG level. If you set
Intensity to a positive (+) value, the tremolo effect will
deepen as the EG level rises, and lessen as the EG level
falls. If Intensity is set to a negative () value, the
phase of the LFO will be inverted.
If select a controller such as SW1 or 2 as the AMS, you
can apply the tremolo effect by pressing the [SW1] or
[SW2] key when desired.
Pan (Program P4: 41b)
The oscillator pan can be controlled by EG, LFO, keyboard
tracking, controllers, or tempo etc.
If you select Note Number as the AMS and set
Intensity to +50, panning will be controlled by the
keyboard position: center at the C4 note, far right at C6
or above, and far left at C2 or below.
If EG is selected as the AMS, the oscillator pan will be
controlled in synchronization with the changes in EG
level. If Intensity is set to a positive (+) value, the pan
will move toward the right as the EG level increases, and
toward the left as the EG level decreases. If Intensity is
set to a negative () value, the opposite effect will occur.
LFO1/2
99...0...+99
KT(Flt KTrk, Amp KTrk)
99...0...+99
KT(Note Number) *1
...36(C2)...60(C4)...84(C6)...
JS X/Ribbon:CC#16
Max...0...+Max
EXT(+) *2
0...127
EXT(+) *3
Max...0...+Max
EXT(Tempo) *4
( ) = ...60...120...240...
dedicated parameter
1...0...+1[Octave]
1...0...+1[Octave]
1...0...+1[Octave]
dedicated parameter
...1...0...+1...[Octave]
...1...0...+1...[Octave]
1...0...+1[Octave] *5
1...0...+1[Octave]
1...0...+1[Octave]
0...+1[Octave]
0...+1[Octave]
0...+1[Octave]
1...0...+1[Octave]
1...0...+1[Octave]
1...0...+1[Octave]
...1...0...+1...[Octave]
...1...0...+1...[Octave]
...1...0...+1...[Octave]
dedicated parameter
99x2...0...+99x2
99...0...+99
99...0...+99
...99...0...+99...
...99...0...+99...
99...0...+99
99...0...+99
99...0...+99
99...0...+99
0...+99
0...+99
0...+99
0...+99
99...0...+99
99...0...+99
99...0...+99
99...0...+99
...99...0...+99...
...99...0...+99...
...99...0...+99...
...99...0...+99...
dedicated parameter
127...0...+127
99...0...+99
63...0...+63
...99...0...+99...
...63...0...+63...
value x(0...1...8)
99...0...+99
63...0...+63
value x(1...8)
0...+99
0...+63
value x(0...1...8)
99...0...+99
63...0...+63
value x(0...1...8...)
...99...0...+99...
...63...0...+63...
value x(1/128...1...128)
99...0...+99
value x(1/64...1...64)
value x(1/64...1...64)
99...0...+99
value x(...1/64...1...64...)
value x(...1/64...1...64...)
99...0...+99
value x(1/64...1...64)
value x(1/64...1...64)
0...+99
value x(1...64)
value x(1...64)
99...0...+99
value x(1/64...1...64)
value x(1/64...1...64)
99...0...+99
value x(...1/64...1...64...)
value x(...1/64...1...64...) *8