FUNS
The FUN Equations
16-14
a(y + b)
The values of y and
b
are added, then multiplied by the value of
a
.
ay + b
The values of
a
and y are multiplied, then added to the value of
b
.
(a + 1)y + b
1 is added to the value of
a
. The sum is multiplied by the value of y. The result is added to the
value of
b
.
y +a(y + b)
The values of y and
b
are added. The sum is multiplied by the value of
a
. The result is added to
the value of y.
a |y| + b
The absolute value of y is taken (if itÕs a negative value, itÕs multiplied by -1). The absolute
value of y is multiplied by the value of
a
. the result is added to the value of b.
Sample b On a
This is a sample and hold function. The values of
inputs a
and
b
are interpreted as logical
quantities, as described for the equations a AND b, a OR b. When the value of
input a
changes
from FALSE to TRUE (goes above +.5), the value of
input b
at that moment is sampled
(recorded), and becomes the FUNÕs output value. This value remains constant until
input a
makes another transition from FALSE to TRUE.
Sample b On ~a
This works like the previous equation, but the value of
input b
is sampled whenever the value
of
input a
makes a transition from TRUE to FALSE.
Track b While a
This equation also interprets the values of
inputs a
and
b
as logical quantities. While the value
of
input a
is TRUE, the value of
input b
is used as the FUNÕs output value. The output value
changes exactly as the value of
input b
changes. When the value of
input a
goes FALSE, the
FUNÕs output value freezes and remains constant until the value of
input a
becomes TRUE
again. The FUNÕs output value then continues to track the value of
input b
.
Track b While ~a
This is the opposite of the previous equation. The FUNÕs output value tracks the value of
input
b
as long as the value of
input a
is FALSE.
Diode Equations
The remaining equations perform a diode-like function; only positive input values are
signiÞcant. If the result of the equation is negative, the FUNÕs output value is 0. You can use
these equations to limit bipolar control signals to unipolar values. Normally youÕll use these by
setting input a or b to ON or OFF, and assigning some control source to the other input. These
will enable you to produce a variety of output curves.
Содержание K2500RS
Страница 12: ...Table of Contents TOC 12...
Страница 16: ...Introduction How to use this manual 1 4...
Страница 32: ...User Interface Basics The Panel Play Feature K2vxR 3 8...
Страница 106: ...Effects Mode and the Effects Editor Configurations and Parameters 9 24...
Страница 186: ...Song Mode Recording Multi timbral Sequences via MIDI 12 52...
Страница 304: ...DSP Functions Hard Sync Functions 14 52...
Страница 394: ...Programs Setups and Keymaps K2500 ROM Keymaps 21 12...
Страница 402: ...LFOs LFO Shapes 23 4...
Страница 406: ...Note Numbers and Intonation Tables List and Description of Intonation Tables 24 4...
Страница 434: ...DSP Algorithms 26 14...
Страница 450: ...MIDI and SCSI Sample Dumps SMDI Sample Transfers 29 8...
Страница 464: ...Glossary 31 6...
Страница 490: ...K2vx Program Farm VOX K25 Appendix A 22...
Страница 494: ...K2vx Compatibility Converting programs from the K2vx to K2000 Appendix B 4...