Mutable Instruments Plaits User manual
Plaits requires a -12V/+12V power supply (2x5 pin connector). The red stripe of the ribbon cable (-12V
side) must be oriented on the same side as the “Red stripe” marking on the module and on your power
distribution board. The module draws 50mA from the +12V rail, and 5mA from the -12V rail.
This device complies with part 15 of the FCC Rules. Operation is subject to the following
two conditions: (1) This device may not cause harmful interference, and (2) this device must
accept any interference received, including interference that may cause undesired
operation.
This device meets the requirements of the following standards: EN55032, EN55103-2,
EN61000-3-2, EN61000-3-3, EN62311.
A. Model selection buttons and LEDs displaying the active model. Each button cycles through a bank of
8 models. The second bank is focused on noisy and percussive sounds.
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B. Coarse frequency control. By default, it covers a range of 8 octaves, but it can be narrowed down to
14 semitones (refer to the FREQUENCY knob range section).
C. D. E. Model-dependent tone controls. Their actual function varies from model to model. In general,
TIMBRE sweeps the spectral content from dark/sparse to bright/dense, MORPH explores lateral timbral
variations and HARMONICS controls the frequency spread or the balance between the various
constituents of the tone.
F. Attenuverters for the TIMBRE, FM and MORPH CV inputs. When the corresponding CV input is left
unpatched and the trigger input [3] is patched, the attenuverter adjusts the modulation amount from the
internal decaying envelope generator. When unplugging a CV input, and if the trigger input is patched,
remember to reset the attenuverter to 12 o’clock if you do not want the internal envelope to take over!
1. Model selection CV input. When this CV input is modulated, two LEDs are lit: the steadily lit LED
indicates the current model, and the slowly blinking LED indicates the central value, which would be
obtained with a CV of 0V and which is still modifiable with the buttons [A].
Note that when the trigger input [3] is patched, model changes occur only whenever a trigger is received.
2. CV inputs for the timbre, frequency, morph and harmonics parameters.
3. Trigger input. Serves four percussive purposes:
Triggers the internal decaying envelope generator.
Excites the physical and percussive models.
Strikes the internal low-pass gate (unless the LEVEL CV input [4] is patched).
Samples and holds the value of the MODEL CV input.
4. Level CV input. Opens the internal low-pass gate, to simultaneously control the amplitude and
brightness of the output signal. Also acts as an accent control when triggering the physical or percussive
models.
5. V/Oct CV input. Controls the fundamental frequency of the sound, from -3 to +7 octaves relative to the
root note set by the coarse frequency knob [B].
6. 7. Outputs. The AUX output carries a variant, sidekick, or by-product of the main signal produced on
OUT.
Hold the first button (A) and:
Turn the TIMBRE knob to adjust the response of the LPG, from VCFA to VCA.
Turn the MORPH knob to adjust the ringing time of the LPG and the decay time of the internal envelope.
The value of both settings are represented by 4 yellow LEDs.
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Hold the second button (A) and turn the HARMONICS knob to adjust the range of the FREQUENCY knob.
The first 8 settings correspond to C0 +/- 7 semitones, C1 +/- 7 semitones, and so on. The last setting, with
all LEDs lit, corresponds to the full 8-octave range from C0 to C8.
After having turned the HARMONICS, TIMBRE or MORPH knob to adjust a setting, the position of the
knob might no longer match the original value of the corresponding parameter. When this happens, the
response curve of the knob is modified to account for this discrepancy, until the position of the knob and
the parameter perfectly line up again!
Virtual-analog synthesis of classic waveforms.
HARMONICS: detuning between the two waves.
TIMBRE: variable square, from narrow pulse to full square to hardsync formants.
MORPH: variable saw, from triangle to saw with an increasingly wide notch (Braids’ ).
AUX: sum of two hardsync’ed waveforms, the shape of which is controlled by MORPH and detuning by
HARMONICS.
A narrow pulse or wide notch results in silence! Use this trick if you want to silence one of the two
oscillators, to get a variable square or variable saw.
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An asymmetric triangle processed by a waveshaper and a wavefolder. Sounds familiar? That’s the same
signal processing chain as in Tides, when it runs at audio rate!
HARMONICS: waveshaper waveform.
TIMBRE: wavefolder amount.
MORPH: waveform asymmetry.
AUX: variant employing another wavefolder curve, as available in Warps.
Two sine-wave oscillators modulating each other’s phase.
HARMONICS: frequency ratio.
TIMBRE: modulation index.
MORPH: feedback, in the form of operator 2 modulating its own phase (past 12 o’clock, rough!) or
operator 1’s phase (before 12 o’clock, chaotic!).
AUX: sub-oscillator.
Note: turn MORPH fully CCW to get the same range of sounds as Braids’ WTFM. Turn MORPH fully CW
to recreate the same sounds as Braids’ FBFM. A gentler palette equivalent to Braids’ FM is found with
MORPH at 12 o’clock.
Simulation of formants and filtered waveforms through the multiplication, addition and synchronization of
segments of sine waves.
HARMONICS: frequency ratio between formant 1 and 2.
TIMBRE: formant frequency.
MORPH: formant width and shape. This controls the shape of the window by which a sum of two
synchronized sine oscillators is multiplied.
AUX: simulation of filtered waveforms by windowed sine waves – a recreation of Braids’ models.
HARMONICS controls the filter type (peaking, LP, BP, HP), with smooth variation from one response to
another.
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An additive mixture of harmonically-related sine waves.
HARMONICS: number of bumps in the spectrum. Starts with one big bump, and progressively adds
ripples around it.
TIMBRE: index of the most prominent harmonic. This control is somewhat similar to the cutoff frequency
of a band-pass filter.
MORPH: bump shape – from flat and wide to peaked and narrow. This control is somewhat similar to the
resonance of a band-pass filter.
AUX: variant including only the subset of harmonics present in the drawbars of a Hammond organ
(frequency ratios of 1, 2, 3, 4, 6, 8, 10 and 12).
Four banks of 8x8 waveforms, accessed by row and column, with or without interpolation.
HARMONICS: bank selection. 4 interpolated banks followed by the same 4 banks, in reverse order,
without interpolation.
Bank A: harmonically poor waveforms obtained by additive synthesis (sine harmonics, drawbar organ
waveforms).
Bank B: harmonically rich waveforms obtained by formant synthesis or waveshaping.
Bank C: wavetables from the Shruthi-1 / Ambika, sampled from classic wavetable or ROM playback synths.
Bank D: a joyous semi-random permutation of waveforms from the other 3 banks.
TIMBRE: row index. Within a row, the waves are sorted by spectral brightness (except for bank D which is
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a mess!).
MORPH: column index.
AUX: low-fi (5-bit) output.
Four-note chords, played by virtual analogue or wavetable oscillators. The virtual analogue oscillators
emulate the stack of harmonically-related square or sawtooth waveforms generated by vintage
string&organ machines.
HARMONICS: chord type.
TIMBRE: chord inversion and transposition.
MORPH: waveform. The first half of the knob goes through a selection of string-machine like raw
waveforms (different combinations of the organ and string “drawbars”), the second half of the knob scans
a small wavetable containing 16 waveforms.
AUX: root note of the chord.
A collection of speech synthesis algorithms.
HARMONICS: crossfades between formant filtering, SAM, and LPC vowels, then goes through several
banks of LPC words.
TIMBRE: species selection, from Daleks to chipmunks. How does it work? This parameter either shifts the
formants up or down independently of the pitch; or underclocks/overclocks the emulated LPC chip (with
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appropriate compensation to keep the pitch unchanged).
MORPH: phoneme or word segment selection. When HARMONICS is past 11 o’clock, a list of words can
be scanned through by turning the MORPH knob or by sending a CV to the corresponding input. One can
also patch the trigger input [3] to trigger the utterance of a word, use the FM attenuverter to control the
intonation and the MORPH attenuverter to control speed.
AUX: unfiltered vocal cords’ signal.
A swarm of 8 enveloped sawtooth waves.
HARMONICS: amount of pitch randomization.
TIMBRE: grain density.
MORPH: grain duration and overlap. When this setting is fully CW, the grains merge into each other: the
result is a stack of eight randomly frequency-modulated waveforms.
AUX: variant with sine wave oscillators.
To get a nice “supersaw” waveform, try a moderate amount of pitch randomization and grain density, with
full grain overlap.
Variable-clock white noise processed by a resonant filter. The cutoff frequency of the filter is controlled by
the FREQUENCY knob and the V/OCT CV input. This allows proper tracking!
HARMONICS: filter response, from LP to BP to HP.
TIMBRE: clock frequency.
MORPH: filter resonance.
AUX: variant employing two band-pass filters, with their separation controlled by HARMONICS.
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Dust noise processed by networks of all-pass or band-pass filters.
HARMONICS: amount of frequency randomization.
TIMBRE: particle density.
MORPH: filter type – reverberating all-pass network before 12 o’clock, then increasingly resonant band-
pass filters.
AUX: raw dust noise.
For your own pleasure, a mini-Rings! Please refer to the Rings manual for more information about
modulated/inharmonic string synthesis, and modal resonators.
When the TRIG input is not patched, the string/resonator is excited by dust (particle) noise. Otherwise, the
string is excited by a short burst of filtered white noise, or by a low-pass filtered click.
HARMONICS: amount of inharmonicity, or material selection.
TIMBRE: excitation brightness and dust density.
MORPH: decay time (energy absorption).
AUX: raw exciter signal.
Note that Plaits uses a less powerful processor than Rings, and is thus limited to 3 voices of polyphony in
inharmonic string modeling mode, and 1 voice of polyphony with 24 partials in modal resonator mode.
Plaits does not allow you to control the position of the excitation, which is set to 25% of the length of the
string/bar/tube.
No fancy acronyms or patented technology here… Just behavioral simulation of circuits from classic drum
machines! The drum machine emulated on OUT employs a bridged T-network excited by a nicely shaped
pulse. As for the signal synthesized on AUX, it uses a frequency-modulated triangle VCO, turned into a
sine with a pair of diodes, and shaped by a dirty VCA.
HARMONICS: attack sharpness and amount of overdrive.
TIMBRE: brightness.
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MORPH: decay time.
Without any signal patched to the TRIG input, a continuous tone is produced. Not particularly useful, but
its amplitude can still be modulated by the MORPH knob and CV input!
The drum machine emulated on OUT employs a bunch of bridged T-networks, one for each mode of the
shell, excited by a nicely shaped pulse; plus some band-pass filtered noise. As for the signal synthesized
on AUX, it is based on a pair of frequency-modulated sine VCO, mixed with high-pass filtered noise.
HARMONICS: balance of the harmonic and noisy components.
TIMBRE: balance between the different modes of the drum.
MORPH: decay time.
The recipe is similar for both OUT and AUX: a bunch of square oscillators generate a harsh, metallic tone.
The resulting signal is mixed with clocked noise, sent to a HPF, then to a VCA. While OUT uses 6 square
oscillators and a dirty transistor VCA, AUX uses three pairs of square oscillators ring-modulating each
other, and a clean, linear VCA.
HARMONICS: balance of the metallic and filtered noise.
TIMBRE: high-pass filter cutoff.
MORPH: decay time.
The physical and drum models employ their own decay envelope and filter. The internal LPG is disabled
for them:
The TRIG input triggers the synthesis of the signal, but doesn’t strike the LPG.
When the TRIG input is patched, the LEVEL input works as an accent control.
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This product is covered by Mutable Instruments’ warranty, for one year following the date of manufacture.
This warranty covers any defect in the manufacturing of this product. This warranty does not cover any
damage or malfunction caused by incorrect use - such as, but not limited to, power cables connected
backwards, excessive voltage levels, or exposure to extreme temperature or moisture levels.
The warranty covers replacement or repair, as decided by Mutable Instruments. Please contact our
customer service (support@mutable-instruments.net) for a return authorization before sending the
module. The cost of sending a module back for servicing is paid for by the customer.
Mutable Instruments encourages modding and hacking, but we will not service modified units or provide
any assistance in the realization of mods.
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