Seq Status, Midi Sync Source, Bpm Value; Current Parameter Midi Value; Stored Parameter Value; Current Parameter Name/Value - Behringer DEEPMIND 12 User Manual

20 DeepMind 12 User Manual

7.1.5 SEQ STATUS, MIDI SYNC SOURCE, BPM VALUE

(5) It is important to note that on this line there are three separate pieces of
information:
• • SEQ STATUS ("SEQ" in the example diagram) - This shows the status of
the CONTROL SEQUENCER. If the letters SEQ are inverted (white on a black
background) then the CONTROL SEQUENCER is ON. If the letters SEQ appear as
normal text the CONTROL SEQUENCER is OFF. Note: The CONTROL SEQUENCER
ON/OFF control can only be adjusted from the CONTROL SEQUENCER MENU
described later in this document.
• • MASTER BPM SOURCE ("MIDI" in the example diagram) - The Master
BPM can be generated internally (shown as "INT"), or the DeepMind 12 can
synchronize to an incoming MIDI clock signal from the MIDI IN socket (shown
as "MIDI"), or USB ports (shown as "USB"). If the letters are inverted (white
on a black background) then the clock is synchronised to the external source.
If the letters appear as normal text the external source is not present and
the DeepMind 12 will use its internal Master BPM until the external source is
present. Note: The settings for the MIDI SYNC can be found in the EDIT page
of the ARPEGGIATOR described later in this document.
• • BPM VALUE ("BPM:120.0" in the example diagram) - The Arpeggiator,
Control Sequencer and Patterns use a system wide Master BPM (Beats Per
Minute) Clock. The BPM is shown and will auto update if using an external
synchronisation source.
7.1.6 PARAMETER CONTROL
(6) ("POLY UNI" in the example diagram) - This is a fader representation of the
parameter which is currently being adjusted (or was last adjusted). The
name of the parameter is also shown:
If the position of the fader matches the position of the stored value the fader will
be black.
If the fader does not match the position it will be white with a superimposed
arrow pointing in the direction it needs to move in order to approach the stored
value.
When the fader does not match the position there is also a white bar to show
how far the fader needs to move in order to match the stored value.
Note: If the physical fader position is close to the stored value the white bar can
be obscured by the fader.

7.1.7 CURRENT PARAMETER MIDI VALUE

(7) (255 in the example diagram) - This is the value of the parameter which is
currently being adjusted (or was last adjusted).
Note: The parameter is displayed here as a simple value (0-255) which allows you
to quickly compare current and stored values. For explicit values please see the
area at the bottom of the page discussed later in this chapter.

7.1.8 STORED PARAMETER VALUE

(8) (20 in the example diagram) - This is the stored value of the parameter
which is currently being adjusted (or was last adjusted).
The stored parameter is shown in reverse text (i.e. white on a black background)

7.1.9 CURRENT PARAMETER NAME/VALUE

(9) ("DETUNE +/-50.0cents" in the example diagram) - In this area you will see
more detailed information on the parameter being adjusted.
The enhanced information contains:
• • A more detailed description of the parameter being adjusted.
• • A more accurate value of the parameter being adjusted.
• • The type of units used for the value (cents in the example above,
but could be Hz for frequency etc.).
7.1.10 PARAMETER VISUALIZATION
(10) (The UNISON waveform in the example diagram) - This area shows a
visualization of the parameter being adjusted (or last adjusted).
These visualizations are designed to:
• • Help anyone with limited experience to achieve a deeper understanding of
each of the parameters while learning the synthesizer.
• • Help the experienced player/sound designer/programmer to work quickly
and get visual confi rmation about the adjustment being made.
7.1.11 VCA ENV VISUALIZATION
(11) (VCA ENV in the example diagram) - This area shows a visualization of the
VCA envelope. The full Attack, Decay, Sustain, Release and their respective
curves are represented.
7.1.12 VCF ENV VISUALIZATION
(12) (VCF ENV in the example diagram)- This area shows a visualization of the VCF
envelope. The full Attack, Decay, Sustain, Release and their respective curves
are represented.
7.1.13 MOD ENV VISUALIZATION
(13) (MOD ENV in the example diagram) - This area shows a visualization of the
MOD envelope. The full Attack, Decay, Sustain, Release and their respective
curves are represented.