A collection of plugins I use for live performances. And yes, it’s a typo but I won’t fix it.
A non-toggling latching 2:1 switch. You can select one out of two input signals to be forwarded to the output. With a trigger pulse on a trigger input the respective input can be selected.
Tr 1 (2x)/Tr 2 (2x): Two trigger inputs for each In (OR-linked). A rising edge triggers. If Trigger 1 and Trigger 2 are fired simulataneously, Input 1 always wins.
In 1/2: Signal inputs.
Out: Switch output.
Start: Connect with the Start output of your MIDI module. A trigger signal sends a reset and forwards the clock to the Clock output.
Cont: Connect with the Continue output of your MIDI module. A trigger signal forwards the clock to the Clock output.
Stop: Connect with the Stop output of your MIDI module. A trigger signal stops the clock at the Clock output.
Clock: Connect with the Clock output of your MIDI module. Use the raw clock here, do not use the Clock Divider from the MIDI module! See Context Menu.
Reset: Connect with the Reset input of your sequencer module.
Clock: Connect with the Clock input of your sequencer module.
Clock divisor: Set the note value of the Clock Output. There are 96 MIDI clock ticks per whole note.
An eight track gate sequencer with independent start/end points and nudge functionality.
Caveat: it is very likely that this thing will grow a few more units in the foreseeable future. So if you use it in your patches please give it some space. ;)
An uncertain switch: Depending on the voltage at the Probability Input, a signal at the gate input may or may not trigger the gate output.
- P in: Switching probability. 0-10V. The higher the input voltage, the more likely there will be a Gate signal at the Gate output. 0V-10V corresponds to 0%-100%.
- Gate in: Gate Signal (0/10V). When a rising edge occurs, the voltage at the P input is being sampled as the probability.
- Gate out: Gate Signal (0/10V). Based on the P input voltage a gate signal may or may not be present at this output.
A modified VCV Rack Fundamental SEQ3 with stochastic gate outs per row. So you may use the CV as gate probability for the given step in the given row.
- P Gate out 1-3: Gate Signal (0/10V). Based on the current CV value a gate signal may or may not be present at this output.
Splits trigger/gate signals by a control voltage. Accepts control voltages corresponding to midi notes 35 to 82.
- CV in
- Gate/Trigger in
- Gate/Trigger out 35-82