7
16
Gate / S-Trig select (default: gat)
The following can be selected;
Gate
[gat]
S-Trig
[Str]
Switches the Gate type between Gate (also known as V-Trig) or S-Trig. For more information about the
various Gate types,
see page 11.
17
Interval select (default: Stn)
The following can be selected;
Semitone (quantised)
[Stn]
Continuous (unquantised)
[Cnt]
A440 (note 69 plus pitchbend) [A44]
Sets whether or not Pitch CV will be quantised to 1-semitone intervals. If this is set to Continuous, the
MIDI note will also be transmitted with an accompanying pitch bend message in order to fully represent
the pitch. A440 is similar to continuous, but only MIDI note 69 is played with accompanying pitchbend.
[See note 3]
18
CV settle time (default: 0)
Range
0 to250
= 0 to 25mS approx
Sets the time delay in tenths of mS from receiving the gate signal to sending the MIDI note message.
This is intended for some synthesizers which take a while for the CV to settle to a stable value, or in
some cases where they send the gate signal before the CV signal.
19
Hz/V linearity (default: 0)
Range
-127 to 0 to +127
If you are using a Hz/V CV source and are having trouble getting it to track in tune, this parameter can
compensate for imperfections in the incoming logarithmic curve. The changes will be more noticeable
the lower the note, so the bottom end of the keyboard will be the most affected. Use with fine tune.
30
Aux 1 controller number (default: 16)
The following can be selected;
CCs 0 to 119
[0 to 119]
CCs 0 to 31 (High res) [H0 to H31]
(CCs sent as two messages giving higher resolution)
Start/stop
[Stt]
(best way to get to these is often backwards from zero)
Clock
[clk]
[See note 5]
Pitch bend
[Pbd]
Velocity
[vEL]
Chan. Aftertouch
[Aft]
Sets which MIDI controller / message Aux 1 is assigned to.
Note:
if either Aux 1 or Aux 2 is set to velocity, they will override the fixed velocity value (parameter 14).
If both are set to velocity, then the most recent message takes priority.
31
Aux 1 minimum voltage (default: 0)
Range
0 to 100
= approx. 0 to 10Volts
– so each step of one is approx. 100mV
