INSTRUo SYN0008320 Oscillator Perfect Circuit User Manual

INSTRUo SYN0008320 Oscillator Perfect Circuit

Product Information

Description / Features

The Wavefolder is a distortion effect that offers dynamic control over rich harmonic spectra. Unlike traditional distortion effects, it inverts signal amplitude when it passes an amplitude threshold, resulting in a unique sound. It can fold the signal multiple times for added complexity. The module features depth control via an exponential VCA and offers a scalable symmetry bias, allowing for subtle boosts in harmonics or full-on spectral
devastation.

Installation / Specifications

To install the Wavefolder:

1. Power off your Eurorack synthesizer system.
2. Locate 4 HP of space in your Eurorack synthesizer case.
3. Connect the 10-pin side of the IDC power cable to the 2×5 pin.

Note: This module has reverse polarity protection, so inverted installation of the power cable will not damage the module.

Key Features

• Input
• Output
• Wavefold
• Wavefold CV Input
• Wavefold Attenuverter
• Symmetry Bias Input
• Symmetry Bias Switch
• Symmetry Bias Attenuverter
• Drive Toggle
• Strike Input
• Strike Decay

Product Usage Instructions

Wavefolding

Input: Connect a DC coupled signal input here.

Output: The folded signal is present at the Output, which is also a DC coupled signal.

Wavefold: Use the Wavefold fader to control the amount of wavefolding applied to the input signal. The folded signal will be present at the Output.

Wavefold CV Input: This is a bipolar control voltage input for the Wavefold parameter. It utilizes an exponential VCA.

Wavefold Attenuverter: The Wavefold Attenuverter scales and inverts the control voltage signals present at the Wavefold CV Input.

Symmetry Bias Input: A signal present at the Symmetry Bias Input will replace the normalled reference DC voltage. The external signal can be scaled and inverted via the Symmetry Bias Attenuverter. The incoming signal sums with the Input signal before reaching the wavefolding stage.

Symmetry Bias Switch

The Symmetry Bias Switch changes the behavior of the Symmetry Bias Attenuverter.

Symmetry Bias Attenuverter

The Symmetry Bias Attenuverter can function in two ways depending on the position of the Symmetry Bias Switch.

BIAS (Switch down): In this mode, the Symmetry Bias Attenuverter acts as an attenuverter for incoming control voltage or audio signals. You can apply control voltage to the parameter or sum two audio signals together before reaching the wavefolding stage. Turning the knob anticlockwise will scale and invert the incoming control voltage or audio signal, while turning it clockwise will scale the incoming control voltage or audio signal.

BIAS (Switch up): When the switch is in the up position, the Symmetry Bias Attenuverter controls the DC offset amount applied to the signal present at the Input. The amount of DC offset is applied before the wavefolding stage. Turning the knob anticlockwise applies a negative bias to the Input signal, while turning it clockwise applies a positive bias. Applied DC bias will affect the harmonic overtones of the waveform.

Description

The Instruō athrú is a full featured analogue wavefolder that creates incredibly complex timbres from very basic waveforms using an interesting form of distortion.
Unlike traditional distortion effects where signal amplitudes passing a threshold are ‘clipped’, wavefolding inverts signal amplitude when it passes an amplitude threshold. This folding can occur multiple times, resulting in dynamic control over rich harmonic spectra.
In subtractive synthesis, partials are attenuated from harmonically dense waveforms. athrú, on the other hand, utilizes additive synthesis by generating partials from harmonically simple waveforms.
Starting out as a derivative of the West Coast timbre circuit, the wavefolders in the Instruō system have been tweaked and adapted with each incarnation. athrú is the latest incarnation in a stand alone package.
Depth control via an exponential VCA, summing with a scalable symmetry bias offers everything from subtle boosts in harmonics to full on spectral devastation.

Features

• Wavefolding
• Symmetry bias with summing capabilities.
• Strike input with definable decay
• Analog drive

Installation

1. Confirm that the Eurorack synthesizer system is powered off.
2. Locate 4 HP of space in your Eurorack synthesizer case.
3. Connect the 10 pin side of the IDC power cable to the 2×5 pin header on the back of the module, confirming that the red stripe on the power cable is connected to -12V.
4. Connect the 16 pin side of the IDC power cable to the 2×8 pin header on your Eurorack power supply, confirming that the red stripe on the power cable is connected to -12V.
5. Mount the Instruō athrú in your Eurorack synthesizer case.
6. Power your Eurorack synthesizer system on.

Note:
This module has reverse polarity protection.
Inverted installation of the power cable will not damage the module.

Specifications

• Width: 4 HP
• Depth: 39mm
• +12V: 30mA
• -12V: 30mA

verb (mathematics) an act or process through which something becomes different; to change, transform, alteration, variation and mutation

Key

1. Input
2. Output
3. Wavefold
4. Wavefold CV Input
5. Wavefold Attenuverter
6. Symmetry Bias Input
7. Symmetry Bias Switch
8. Symmetry Bias Attenuverter
9. Drive Toggle
10. Strike Input
11. Strike Decay

Any athrú after Nov 2020 has a slightly different layout that places the Strike Decay on the front of the module in the form of a trim pot. The Drive Toggle is also mounted horizontally instead of vertically

Front

1. Input
2. Output
3. Wavefold
4. Wavefold CV Input
5. Wavefold Attenuverter
6. Symmetry Bias Input
7. Symmetry Bias Switch
8. Symmetry Bias Attenuverter
9. Drive Toggle
10. Strike Input
11. Strike Decay

Wavefolding

Input: DC coupled signal input.
Output: DC coupled signal output.
Wavefold: The Wavefold fader controls the amount of wavefolding applied to the signal present at the Input. The folded signal is present at the Output.

• Moving the fader fully downwards will reduce the Input signal’s amplitude, resulting in near-silence.
• Moving the fader fully upwards results in a rich, harmonic timbre (If the Symmetry Bias Switch is in the up position, adjusting the Symmetry Bias Attenuverter will further affect the harmonic spectrum).

Wavefold CV Input: The Wavefold CV Input is a bipolar control voltage input for the Wavefold parameter that utilises an exponential VCA.

• Control voltage is summed with the fader position following its inbuilt attenuverter.

Wavefold Attenuverter: The Wavefold Attenuverter will scale and invert the control voltage signals present at the Wavefold CV Input.
Symmetry Bias Input: A signal present at the Symmetry Bias Input will replace the normalled reference DC voltage. The external signal can be scaled and inverted via the Symmetry Bias Attenuverter. The incoming signal sums with the Input signal before reaching the wavefolding stage.

• External signals can be processed via the Symmetry Bias Input. The Symmetry Bias Attenuverter controls the external signal’s amplitude. Decreasing the amount of wavefolding via the Wavefold fader will isolate only the secondary external signal at the Output.

Symmetry Bias Switch: The Symmetry Bias Switch changes the behavior of the Symmetry Bias Attenuverter.
Symmetry Bias Attenuverter: The Symmetry Bias Attenuverter can function in two ways depending on the position of the Symmetry Bias Switch.

When the switch is in the down position, the Symmetry Bias Attenuverter functions as an attenuverter for incoming control voltage or audio signals. This means that control voltage can be applied to the parameter or two audio signals can be summed together before reaching the wavefolding stage. Turning the knob anticlockwise will scale and invert the incoming control voltage or audio signal. Turning the knob clockwise will scale the incoming control voltage or audio signal. When the switch is in the up position, the Symmetry Bias Attenuverter controls the DC offset amount applied to the signal present at the Input. The amount of DC offset is applied before the wavefolding stage. Turning the knob anticlockwise applies a negative bias to the Input signal. Turning the knob clockwise applies a positive bias to the Input signal. Applied DC bias will affect the harmonic overtones of the waveform.

• The center position of this knob is calibrated to 0V.
  Drive Toggle: Analog overdrive can be applied to the signal present at the Input, resulting in soft harmonic distortion.

• If the toggle is in the up position, overdrive is enabled. If the toggle is in the down position, overdrive is disabled.

• (For all athrú after Nov 2020) If the toggle is in the right position, overdrive is enabled. If the toggle is in the left position, overdrive is disabled. Strike Input: A gate or trigger signal present at the Strike Input will momentarily activate the wavefolder.
  Strike Decay: The decay of the Strike Input can be adjusted via the Strike Decay knob located on the back of the module (front trim pot on any athrú after Nov 2020) .
  Turning the knob anticlockwise will decrease the decay time. Turning the knob clockwise will increase the decay time. The default position is 50%.

Patch Examples

West Coast Synth Voice:
Summary: The random voltage generator sends voltages to the oscillator while simultaneously triggering the envelope generator. The CV output of the envelope generator opens athrú, allowing the oscillator signal to pass through .

Audio Path:

• Connect the desired waveform of an oscillator to the Input of athrú.
• Monitor the output of the athrú.
• Set the fundamental frequency of the oscillator to a desired position.
• Set the Wavefold fader to its minimum setting.

Control Path:

• Connect the stepped random output of a random voltage generator to the 1V/Oct input of the oscillator.
• Connect the gate output of the random voltage generator to the trigger input of an envelope generator.
• Connect the CV output of the envelope generator to the Wavefold CV Input of athrú and set the Wavefold Attenuverter to a desired positive position.
• Set the envelope stages to desired positions.

West Coast Bongo:
Summary: The random voltage generator sends voltages to the oscillator while simultaneously striking athrú, allowing the oscillator signal to pass through.

Audio Path:

• Connect the desired waveform of an oscillator to the Input of athrú.
• Monitor the output of the athrú.
• Set the fundamental frequency of the oscillator to a desired position.
• Set the Wavefold fader to its minimum setting.

Control Path:

• Connect the stepped random output of a random voltage generator to the 1V/Oct input of the oscillator.
• Connect the gate output of the random voltage generator to the Strike Input of athrú.

Summed Wavefolder:

Summary: Two waveforms are summed via the Input and Symmetry Bias Input and then sent through the wavefolder.

Audio Path:

• Create a West Coast Synth Voice audio path.
• Connect a desired waveform from a secondary oscillator to the Symmetry Bias Input.
• Set the Symmetry Bias Switch to the down position and set the Symmetry Bias Attenuverter fully clockwise.
• Set the Drive toggle to the up position for added distortion.

Burst Generator:

Summary: Everytime cèis is triggered, a burst of trigger signals will stike athrú allowing the oscillator signal to pass through. For added modulation, multiply the combined trigger output signal and connect it to both the Strike Input of athrú and the clock input of a random voltage generator and connect the CV output of the random voltage generator to the 1V/Oct input of the oscillator.

Audio Path:

Create the West Coast Synth Voice audio path.

Control Path:

• Connect the combined trigger output of cèis to the strike input of athrú.
• Set the separate envelope stages at different positions to create the desired trigger burst.
• Trigger cèis via the Gate/Trig Input or the Gate/Trig Button.

Manual Author: Collin Russell Manual Design: Dominic D’Sylva
This device meets the requirements of the following standards: EN55032, EN55103-2, EN61000-3-2, EN61000-3-3, EN62311.

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