CGS simple wave folder

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CGS52 the CGS simple wave folder is an ideal beginners project for two reasons - it is simple to build, and its effect is powerful - far beyond what could be suspected from such a simple circuit. The effect it produces is not like unlike that of the Serge middle wave multiplier - harmonically rich waveforms that can be swept for filter-like effects. It MUST be fed a triangle or sine wave to function properly.

Some ideas on how to use this module

Unlike the more complex CGS29 Wave Multiplier this module does not include any dynamic controls. For modulation, either mix in a DC offset using an external mixer, or modulate the level of the incoming signal using a VCA. The module expects an incoming triangle or sine wave centered around zero volts, though a small DC offset can be tolerated for the purpose of effects. If waveforms from the VCOs in the system to which it is connected are not centered around zero volts, a decoupling capacitor should be added. The DC offset can of course be supplied by an LFO.

Some interesting effects can be achieved by feeding the pulse output into a CGS01 Sub-Oscillator/Harmonic Sequencer .

A little on how it works

The schematic of the simple wave folder.

This circuit is based on "Nonselective Frequency Tripler Uses Transistor Saturation Characteristics" by R. Lockhart, Jr., in Electronics Design, Aug. 16, 1973. Its functionality is not unlike Moog's single transistor sawtooth to triangle wave converter. It's intended purpose is to convert a signal into another of three times the frequency. To do this it expects a +/-1.2 volt triangle or sine wave, and outputs a +/-0.4 volt complex waveform. Unfortunately, due to the uneven spacing of the frequency multiplied waveform, it does not sound like it is a fifth above the incoming signal. This of course is of no particular concern in this application, as the purpose of this module is to create a complex harmonic structure from a simple input, not to triple the frequency.

To convert typical synthesizer signal levels to something appropriate for driving this module, and to allow for variation, a 100k pot is used as an adjustable potential divider, or input level control. The output is buffered by an inverting amplifier with a gain of 10 to bring the level back to something useful. The folded waveform is available from this output (T).

The output of the transistor stage is also fed to a comparator with its sense input at 0 volts. The output is level corrected to approx. +/- 5 volts. A pulse waveform is available from this output (S). The pulses fall in an uneven but repeating pattern. Modulating the input can change the width of these pulses, or move them back and forward with respect to each other, depending in whether the amplitude of the incoming signal or the DC offset is modulated.


The component overlay. Connections can be determined from the circuit diagram.

Before you start assembly, check the board for etching faults. Look for any shorts between tracks, or open circuits due to over etching. Take this opportunity to sand the edges of the board if needed, removing any splinters or rough edges.

When you are happy with the printed circuit board, construction can proceed as normal, starting with the resistors first, followed by the IC socket if used, then moving onto the taller components.

Take particular care with the orientation of the polarized components such as electrolytics, diodes, transistors and ICs.

When inserting ICs into sockets, take care not to accidentally bend any of the pins under the chip. Also, make sure the notch on the chip is aligned with the notch marked on the PCB overlay.

There is space on the copper side of the PCB for two 10n decoupling capacitors.

Parts list

This is a guide only. Parts needed will vary with individual constructor's needs.

Part Quantity
10n 2
1k 2
2k2 1
10k 1
15k 2
100k 1
100k LIN pot 1
TL072 1
2N3904 1
2N3906 1
0.156 4 pin connector 1


  • To use the module with +/-12 volts, replace the 15k resistors with the 12k resistors.
  • PCB is 0.8" x 2" with 3mm mounting holes 0.15" in from the edges.


Readers are permitted to construct these circuits for their own personal use only. Ken Stone retains all rights to his work.

See also


External links