![]() ![]() If Selig reads this thread, i'll be glad to get some advice from him. Nooomy, I've actually planned to create a Reaktor version - that's why the Combinator is already patched for 8 voices of polyphony in my screen captures, even if Voltage Modular only allows 4 - and will post it here if I succeed, but I need some time, Reaktor is far from beeing as easy as Voltage Modular and I'm no way an expert. I read the selig thread but i still dont understand how to split the MIDI to seprate CV signals Finally, connect the instrument you've chosen - Europa in my example - to the Combinator From Device audio inputs.Ĭould you try to explain how you do this in Reaktor? Connect respective note and gate CV outputs from the two CV-I into the note-gate pairs of CV Player Tap. Connect all the Left audio outputs to the first CV-I (Notes) audio inputs and all the Right outputs to the second (Gates), in the same order. Activate the direct record option in CV Player Tap, then open the Patchwork device CV programmer and flip the Rack to reveal the additional audio outputs. In the Combinator programmer, deactivate MIDI notes reception for all devices except Patchwork. Inside of it, create a Patchwork Synth VST instrument, 2 instances of CV-I and a CV Player Tap with an instrument of your choice. A DC offset blocker is simply a high-pass filter without resonance and cutoff at 30 Hz: it will remove any unwanted low frequency content, including accidental output of CV signals that may cause audio distortion and damage monitors.Ĭreate a Combinator. When experimenting with software or hardware modulars, a general recommendation is to protect your monitoring system by inserting a DC offset blocker and a limiter in your master section. If you don't repatch the Combinator in Reason first, the Voltage Modular patch will send CV into the audio outputs, and it may damage your monitors, especially if your audio interface is DC coupled, as most MOTU models are. CV Player Tap aggregates these CV signals and allows to play an instrument polyphonically and record MIDI tracks in Reason's sequencer.Ĭreate the patches in the order I suggest. CV-I converts these audio rate note and gate CV signals to Reason's standard CV signals. Voltage Modular converts received polyphonic MIDI data into separate audio rate note and gate CV signals and outputs them through its 8 available audio outs: that's why we have up to 4 voices of polyphony. Patchwork transmits them to Voltage Modular. Scaler emits polyphonic MIDI data (Chords) in response to monophonic MIDI data sent by Reason. Robotic Bean CV-I Audio to CV - you can use several instances of Thor instead but it will be a little bit cumbersome. This is possible with Voltage and Mux Modular but not with Reaktor. Alternatively, you could load the VST MIDI effect directly into the VST modular synth if it offers an appropriate plugin host module. Blue Cat Audio Patchwork, or any other VST wrapper that transmits MIDI data between hosted plugins. If you have Reaktor and want to use it instead (Up to 8 voices of polyphony), you will find valuable information from Selig in this thread. A VST modular synth: I will use Voltage Modular (Up to 4 voices of polyphony), but any plugin with multiple audio outs that allows free patching of CV to audio signal outputs will certainly work. A VST that outputs MIDI data: I will use Scaler from Plugin Boutique in this tutorial, but it could be Xfer Cthulhu, Waves Ovox. ![]() Even if it is not currently possible to use VST MIDI effects in Reason, we can build this missing feature using a few additional tools. ![]()
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