Chladni Sequencer Moog Filter Demo
  • image

    The Chladni Sequencer was my attempt to make a different kind of sequencer that was easily reversible without adding lots of extra counter apparatus that you need in a normal Audulus step sequencer.

    It's basically an 8*8 64 step matrix sequencer. You can have 2 separate 64 step sequences using the same knobs, but read in different directions (x and y axis).

    The thing that distinguishes the Chladni sequencer is that instead of being stepped forwards/backwards by a clock, the Chladni Sequencer is driven directly by 2 LFOs (one for x-axis sequence and the other for the y-axis sequence).

    You can use any shape you want, but a saw will make them work like a traditional step sequencer.

    The LFOs in Audulus range between 0-1.

    Step 1 of the sequencer is selected when the LFO is:

    Step 2 of the sequencer is selected when the LFO is:

    ...and so on until step 64:

    So a saw wave that begins at 0 and increases to 1 would start at step 1 and finish at step 64.

    Adjusting how the sequence is played over the total 64 steps is a matter of attenuating and offsetting the LFO within a 0-1 range.

    Reversing the sequence is easy - just send the inverse of that saw wave.

    Ping-pong sequences are triangle waves.

    Pendulum sequences are sine waves.

    Random sequences can have a S&H input fed to them.

    You can also use audio as a control signal for interesting effects - just make sure you scale the audio into a modulation signal with the a2m translation module.

    The sequencer has 3 outputs:

    X Sequence - with saw wave input - indicated by yellow dot - sequence is left to right, step 1 top left, step 64 bottom right.

    Y Sequence - with saw wave input - indicated by blue dot - sequence is top to bottom, step 1 top left, step 64 bottom right.

    = Sequence - samples current step value when X and Y sequence overlap on same step

    The outputs are all between 0 and 1 (modulation signal) and can be turned into an octave signal (what you send to an oscillator) with an m2o translation module and sent through a scale quantizer.

    The outputs of the sequencer can be fed back onto the sequencer to create even wilder sequences that have a nice light show. The reason it's called the Chladni Sequencer is that you can make patterns that resemble Chladni plates:

    The X and Y knobs are the max step value for the sequence.

    The unlabelled knob steps through combinations of X/Y/= outputs being turned on or off.

    For some example of basic use, see the attached patch.

    Chladni Sequencer Moog Demo.audulus
    Screen Shot 2017-04-21 at 5.23.12 PM.png
    768 x 432 - 350K