Through-hole Braids

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Braids Assembled 720pxV.jpg

Features

  • Through hole version of Mutable Instruments Braids
  • Braids is a voltage-controlled monophonic digital sound source

Credits / Resources


Original Braids

Braids panel front-720pxV.jpg

  • 16 HP
  • 25mm deep
  • +12V@100mA, -12V@15mA
  • Braids Through Hole version has differences
    • Output is PWM
    • A/D is 10-bits

Original Braids Features

AN ATLAS OF WAVEFORM GENERATION TECHNIQUES

  • Braids is a voltage-controlled monophonic digital sound source.
  • Sound source… like an oscillator? Not really.
    • Most of the timbres it generates are so complex that approaching them with a classic analog modular setup would require a full case of oscillators, filters, VCAs, waveshapers and ring-modulators – that’s why we call it a macro-oscillator – intricate digital synthesis algorithms wrapped in oscillator’s clothes.
  • 2 KNOBS TO RULE THEM ALL
    • Each algorithm is controlled by two continuously variable parameters, TIMBRE and COLOR, both of them voltage controllable.
    • Instead of being directly assigned to the intricate details of the synthesis algorithm, they work as meta-parameters going through all the sweet spots.
    • Very often, these parameters simultaneously affect several dimensions of timbre, creating very complex movements which would be hard to generate with a traditional setup.
  • Synthesis models
  • The classics
    • CS-80 style sawtooth with a notch.
    • Continuously variable morphing between triangle, sawtooth, square and pulse, with character control.
    • Square/sawtooth with pulse width control.
    • Triangle to sine morphing, with wavefolder.
  • Direct digital synthesis
    • Band-limited dual pulse train, with detuning.
    • Dual square or sawtooth oscillator with hard sync.
    • Triple saw, square, triangle or sine.
    • Stack of three ring-modulated sine waves.
    • Swarm of seven sawtooth waves.
    • Comb-filtered sawtooth wave
    • Circuit-bent sawtooth generator with sample rate reduction and bit toggling.
    • Direct synthesis of filtered waveforms, casio CZ style.
    • Low-fi or hi-fi vowel/formant synthesis.
    • Harmonic oscillator.
    • FM with various feedback paths.
  • Physical and percussive models
    • Plucked string (Karplus Strong).
    • Bowed string.
    • Reed and flute.
    • Bell and metallic drum.
    • 808 bass drum, cymbal noise and snare drum.
  • Wavetables
    • 256 waveforms, organized as 21 wavetables or as a 16x16 XY map.
    • 4-note chord synthesis.
  • Noise sources
    • Noise processed by a tuned multimode filter.
    • Noise processed by a dual BP filter.
    • Clocked digital noise.
    • Cloud of sinusoidal grains.
    • Particle synthesis.
  • Additional settings
    • These settings are accessible through a menu, and are not CV controllable.
    • Bit-depth (from 4 to 16 bits) and sample rate (from 4kHz to 96kHz).
    • Quantizer on the CV-input with a large selection of scales.
    • Analog VCO-style linear detuning of higher frequencies.
    • Analog VCO-style pitch drifting.
    • Waveform quirks, unique to each module built.
    • Built-in AD envelope, assignable to the oscillator frequency, the COLOR and TIMBRE parameters, and to the amplitude.
    • META mode enabling CV-controlled model selection with the FM input.
  • Specifications
    • All inputs: 100k impedance, DC to 4kHz.
    • 12-bit CV capture.
    • 96kHz, 16-bit audio processing (some algorithms are 2x or 4x oversampled).

STM32 "Blue Pill"

  • "Blue Pill" Pins

STM32F103C8T6-Blue-Pill-Pin-Layout-720px.png

  • "Blue Pill" Schematic

BluePillSchematic-720px.png

Show Screen Caps

Braids Video Cap 01.PNG

Braids Video Cap 02.PNG

SoundForce Pic-01.PNG

SoundForce Pic-02.PNG

SoundForce Pic-03.PNG

Braids Show Notes

Build

Processing Card

MI Braids P1080726-720px.jpg

Controls Card

MI Braids P1080733-720.jpg

Parts List

Qty Index Desc
0 controls
14 R4-R10, R12-R18 100 Resistor, 1%
1 R51 330 Resistor, 1%
7 R1-R3, R11, R22, R23, R55 1k Resistor, 1%
1 R27 10k Resistor, 1%
1 R50 20k Resistor, 1%
10 R30, R31, R34, R35, R41-R44, R52, R53 24.9k Resistor, 1%
2 R45, R46 39k Resistor, 1%
2 R25, R26 49.9k Resistor, 1%
6 R24, R29, R47, R48, R54, R56 100k Resistor, 1%
1 R39 120k Resistor, 1%
3 R28, R32, R40 200k Resistor, 1%
3 R33, R49, R57 (Optional see note, only on Brain 1.2) 47 Resistor, 1%
1 C29 47p Capacitor, ceramic
2 C21, C22 100p Capacitor, ceramic
4 C13, C14, C16, C17 1n Capacitor, ceramic
13 C1-C6, C18, C20, C23, C26, C27, C28, C31 100n Capacitor, ceramic
1 C8 470n Capacitor, ceramic
Capacitors eletrolytic
1 C24 10u Capacitor, electrolytic NP
4 C7, C9, C15, C33 10u Capacitor, electrolytic
2 C25, C30 47u Capacitor, electrolytic
Diodes
2 D1, D2 1N5817
ICs
2 IC1, IC2 SN74HC595
1 IC3 2.5V LM4040 Shunt Vref
1 IC4 MCP3204 quad 12-bit ADC
1 IC5 MCP4822 dual 12-bit DAC
2 IC6, IC11 3.3V LD1117V33
1 IC7 MCP6004 dual op-amp R2R IO
1 IC8 10V LM4040 Shunt Vref
1 IC9 TL074 quad op-amp
1 IC10 TL072 dual op-amp
6 Q1-Q4, Q6, Q7 NPN transistor 2N3904
1 UC1 STM32F103C8T6 NEEDS TO BE 124kb
0 top
2 DISP1, DISP2 14 segments 2 characters LED module
6 COLOR, FM, OUT, TIMBRE, TRIG, VOCT Vertical jack connector
6 R19-R21, R36-R38 10k linear pot, 15mm shaft
1 SW1 Encoder, 24 steps w/ clicks, w/ switch
Headers
Single row male 1X06, 1X10, 1X8, 1X09
Single row female 1X10, 1X8, 1X09,
2 Female header for the blue pill (optional) 1x20
Euro power 2x05 (Preferably shrouded)
Programmer
Programmer to program the STM32 board
Alternative Serial "programmer" or FTDI's or CH430

Videos