Dimensions
18 HP
25 mm deep
Current Draw
80 mA +12V
20 mA -12V
? mA 5V
Price
$303 Price in €

This Module is currently available.

Specs are approved by the manufacturer

Random Sampler

TLM Audio introduces the classic mutable series.

RANDS is a perfect 1:1 clone of the Mutable Instruments Marbles module.
It is built, calibrated and tested with the highest quality standarts.
The Module is built and assembled in germany and comes ready installed with the newest firmware.

Features
Random gate generator
Master clock
Internal clock with adjustable rate (with V/O CV input), or division/multiplication of an external clock.
Range selection button further multiplying or dividing the clock by 4.
Rhythm follower/predictor to lock onto uneven clock divisions or rhythmic patterns.
Adjustable jitter (knob and CV), going from perfect tracking to completely erroneous – but always preserving the overall tempo.
Two-channel random rhythm generator
Three gate outputs: t2 is the main output carrying the jittery clock, t1 and t3 are the complementary random rhythm output.
Three generative models, with CV-controlled bias parameter increasing the density of notes on one channel or the other:
Random routing of each clock pulse to either outputs, following a coin toss.
Selection of a random division factor for one output, and the reciprocal factor for the other.
Generation of random kick/snare patterns using a process similar to Grids.
Adjustable gate duration, from short triggers to full length. Gate duration can be randomized.
Random voltage generator
3 outputs, either clocked by the 3 outputs of the random gate generator, or by a common external clock.
Distribution control: SPREAD control, scanning between constant, bell-shaped, uniform or discrete distributions; and BIAS control biasing the generated voltage towards the bottom or top of the voltage range.
Adjustable range: 0 to +2V (for melodies), 0 to +5V, -5V to +5V.
Quantized or smooth... CV Post-processor
The STEPS parameter controls the steppiness/quantization of the output voltages.
Turn this knob clockwise and a progressive quantizer is applied to the voltages - progressively reducing the probability of hitting a note outside of the scale, then making accidentals less likely, then giving more weight to the root and fifth - and at the extreme yielding only octaves.
If steppy is not your thing, turn counterclockwise to increasingly slew the output voltages to the point that the module produces smooth, continuous curves.
Programmable quantizer
6 programmable scales.
Scales are programmed by playing a short jam in the target scale: Marbles learns which notes are more prominent than others.
Output diversity
The three outputs can all follow the settings dialed on the control panel, or react in different and opposite ways. The turn of a knob can completely push your patch towards a new direction!
Random looping and shuffling
DEJA VU parameter increasing the probably of re-playing past material to the point that the generated output forms a loop... then increasing the probability of randomizing the order of this loop.
The DEJA VU control applies to the random rhythm, the random voltages, or to both, or neither of them.
Adjustable loop length from 1 to 16 steps.
External CV processing
An external CV can be recorded in the DEJA VU loop in place of internal random voltages.
All transformations performed by the random voltage generator (looping, shuffling, spreading, transposition, quantization, lag-processing) can be performed on external voltages.
TLDR: live remixing of external sequences!
Specifications
Analog random source.
All inputs: 100k impedance, DC to 3.2kHz.
Maximum input clock rate: 1kHz for the t Section, 8kHz for the X section.
32kHz refresh rate.
14-bit DAC with accurate software calibration - error below 1mV.
12-bit CV capture.
Output levels: -5V to +5V for CVs (largest setting), 0V to +8V for gates.
Input CV range: -5V to +5V.

https://www.tlm-audio.com/eurorack


Ø 5.00 (1 Votes) Average Rating
submitted Aug 28th 2023, 12:50 by TLM-Modular | last Change Aug 28th 2023, 12:51 by TLM-Modular

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