FULL KIT: Voltage-controlled Lockhart wavefolder - PCB/panel (4HP - FR4 panel)
4 in stock.
⚠️ THIS RUN OF BOARDS HAS AN ERROR ON THE SILKSCREEN - R1 should be a capacitor footprint; it should be a 100nF ceramic capacitor which removes any DC offset from the TRI output. Future runs of the board will correct this ⚠️
Finally, a voltage-controlled version of the Lockhart wavefolder. You can hear a short, albeit rather nasty quality, recording of it here.
Users of the 2HP module would have noted that the level of the incoming signal has an effect on the sound, so with this in mind I put a differential pair in the way to allow voltage control of the input signal. A similar input is present for the comparator on the square-wave output to make it rather more versatile.
The 'main' output gives the folded waveform whilst the 'square' output will, under certain circumstances, give an arrhythmic pulse train which can be used either as a modulation source or a square-wave oscillator in its own right. The two potentiometers control the input levels of the signal and CV - with particularly hot CV levels you can get some extremely gnarly sounds as the transistors saturate.
Works best with sine or triangle-based waveforms but there's nothing to stop you putting, well, anything into it - altering the level of the input signal can lead to some very interesting filter-like effects. Through judicious use of control voltage you can achieve VCA-like effects too.
Finally, on a technical note, the input signal must be at least 1.4V p-p - this is due to the voltage drops created by the two transistors in the circuit; the practical upshot is that this module will not work with audio signals unless they're amplified (a lot!) whereas most VCOs and CV generators will work just fine.
This is a full kit - all the componentry is there, along with a PCB, panel and power cable. It is up to you to do the necessary transistor matching (or not, if that's how you roll)
The supplied panel is fabricated from 1.6mm FR4 and is dark purple (RAL4007) with gold lettering.
The BOM and schematic can be found at: https://github.com/yorkmodular/vc-wavefolderNote that the completed module is 40mm deep, as measured from the rear of the faceplate to the rearmost edge of the power socket - please make sure your case is deep enough to accomodate it.