FUNS
The Mechanics of Control Sources
16-1
Chapter 16
FUNS
The name ÒFUNs,Ó although it sounds like a pun, is simply the best abbreviation for
ÒFunction.Ó YouÕll deÞnitely have a good time with them, however, if youÕre looking for a
variety of ways to control your sounds.
WeÕve discussed various control sources throughout this manual, from the physical controls
like the Mod Wheel to the software control sources like LFOs and attack velocity. You can
assign them to affect your sounds in all sorts of ways.
The FUNs take the control sources one level further. By setting up a FUN as a control source,
you can mix the signals of two control sources, and perform one of 50 functions on the
combined signals. The result of that function becomes the new control source value. Because
the FUNs can radically change the combined input values, the FUNs can have a profound effect
on your sounds.
You may Þnd that experimenting with the various FUN equations gives you a better idea of
their effects than reading the explanations. Although thereÕs a great deal of mathematics behind
the FUNs, the most important consideration is how they affect your sounds. The more you play
around with them, the better youÕll understand how powerful they are.
The Mechanics of Control Sources
WeÕll return for a minute to the notion that the K2vx is an integrated system consisting of a
MIDI-driven sound engine and a MIDI-driven effects processor. The sound engine responds to
MIDI messages received at the MIDI In port and from the front panel, as does the effects
processor.
The K2vxÕs control sources use their own internal signal format for interpreting control
messages and communicating them to the sound engine. Every control source sent from your
MIDI controller to the K2vxÕs sound engine is translated to a value in the range from -1 to +1.
This consistency enables the sound engine to process control source signals very efÞciently.
Conversely, the K2vxÕs internal control source signals are translated to MIDI values before
being sent to the MIDI Out port.
A control signal value of 0 represents minimum effect; itÕs equivalent to the control source
being turned off or disconnected. A control signal value of +1 represents the maximum positive
effect of a control source, while a value of -1 represents the maximum negative effect of a
control source.
Unipolar and Bipolar Control Sources
There are two kinds of control source signals: unipolar and bipolar. A unipolar signal has a
value between 0 and +1. A bipolar signal has a value between -1 and +1.
A switch pedal is unipolar; its control signal value will never go below 0. Since itÕs a switch
control, it has only two possible values: 0, which corresponds to off or minimum, and +1,
which corresponds to on or maximum. When you depress your MIDI controllerÕs sustain
pedal, for example, it sends a control signal value of +1 to the K2vxÕs sound engine.
Continuous controls can be unipolar or bipolar. Consider your MIDI controllerÕs Mod and
Pitch Wheels as examples. Normally, the Mod Wheel affects the K2vx as a unipolar control
Summary of Contents for K2500RS
Page 12: ...Table of Contents TOC 12...
Page 16: ...Introduction How to use this manual 1 4...
Page 32: ...User Interface Basics The Panel Play Feature K2vxR 3 8...
Page 106: ...Effects Mode and the Effects Editor Configurations and Parameters 9 24...
Page 186: ...Song Mode Recording Multi timbral Sequences via MIDI 12 52...
Page 304: ...DSP Functions Hard Sync Functions 14 52...
Page 394: ...Programs Setups and Keymaps K2500 ROM Keymaps 21 12...
Page 402: ...LFOs LFO Shapes 23 4...
Page 406: ...Note Numbers and Intonation Tables List and Description of Intonation Tables 24 4...
Page 434: ...DSP Algorithms 26 14...
Page 450: ...MIDI and SCSI Sample Dumps SMDI Sample Transfers 29 8...
Page 464: ...Glossary 31 6...
Page 490: ...K2vx Program Farm VOX K25 Appendix A 22...
Page 494: ...K2vx Compatibility Converting programs from the K2vx to K2000 Appendix B 4...