32 higher. This is the rare 14-bit Continuous Controller feature of the MIDI
specification, and NRPNs simply take advantage of that existing option in the
same way offering 16,384 possible values instead of only 128.
(
http://en.wikipedia.org/wiki/NRPN
)
When you enable NRPN, you should not employ CC 99 and 98 as the normal
CC in order to avoid an undesired overlap. An NRPN message must be sent
with this order: CC 99 98 6 38 where the first couple is the CC number and
the second couple is the data. You can MIDI learn as for the normal CC, and
NRPN works for all knobs and parameters. Although an NRPN CC number
can be greater than 127, you will not be able to learn CC beyond 127.
Back Panel
This Back Panel adds features to the app (such as Sequencers, Samplers
and Effects) and should be thoroughly utilized as a further experimental
environment:
OUTPUT Channels feeds a chain of Flanger/Delay/Compressor FX.
INPUT is from hardware Microphone or software bus as Audiobus/Inter-App
Audio or from Integrated Samplers. INPUT can be also feed from DK/
Sequencer or From SCOPE feedback.
All Signals connected to the METER in the Matrix, will be shown in the
Oscilloscope and you can feedback through to the VCS3.
Ext. Input
The first features is the [Dk/Sequencer], [Mute] or [Mic/Sampler] switch. As
you know the VCS3 is Voltage Controlled Based and you have to remain
aware that the DK Keyboard or Sequencer or Sampler provides a Voltage
Signal which feeds the VCS3. You can get this from Matrix Row 8 and 9
(Input Channel 1 and 2) and you can employ this for controlling or feeding the
VCS3 audio modules. This triple switch is a source selector or mute.
You can select Ext, Input between DK/Sequencer or Mic/Sampler (or
Audiobus/Inter-App), for each channel. You will get these through the Matrix
INPUTS CH1/CH2. In Mic/Sampler mode, you can mix both signals. Muted is
mainly used for clearing the Ext Input if you intend on feeding back through
SCOPE Jack-socket.
DK Keyboard
VCS3 Keyboard DK produces a voltage control signal of 3 Volt.
Middle F# produce 0V, High C -1.5V and Low C +.5V (select three octaves
view from Settings).
Содержание iVCS3
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