the 3 operating modes are:
shift: a frequency shifter that can shift thru-zero with 2 simultaneous outputs (down and up). like traditional frequency shifters, a sine carrier will generate a smooth shift but the e560’s 7 other waves will generate a vast array of harmonic content and even patterns of evolving timbral shift.
rm: a standard ring modulator (4-quadrant multiplying vca) with a twist: the 2 outputs are always forced into quadrature (90 degree phase shift). the 8 carriers can produce everything from tremolo effects to gating to high degrees of distortion.
phase: this is an e560 exclusive mode. the audio input is applied to an 8-stage all-pass network. the 2 audio outputs are in quadrature, but in turn phase shifted from 0 to 360 degrees relative to the input. not only that, the ‘vector' the phase shift follows is the data in the carrier wavetable. the phase shifting can be linear (saw wave), traditional (triangle) or bouncing all over the place (64-random phase waveform).
not only do you have full control over the effect, but also the wet/dry mix and applying either positive or phase-inverted (negative) feedback) this introduces peaking at certain harmonics or cancellation of those harmonics. applying a slow lfo to the feedback cv can produce a wide range of constantly changing spectral content.
there are 4 cvs available to control the e560 in real-time. all 4 of the panel controls have a corresponding cv input, so that you can turn all 4 knobs at once by applying 4 cvs.
the e560 is another unique dsp-based module that has no equal in the modular world, in any format. if you are 'stuck in a musical rut' and are looking for a new module with a wide range of sounds, the e560 might be what you are looking for.
size: 3u x 14hp (128.5mmx 70.8mm)
power: +12/+12v @ 90ma, -12v/-15v @ 20ma (supports both motm/frac 4-pin and euro ribbon cables)
frequency shift range: 0hz to +-3000hz
carrier waveforms: sine, triangle, square, saw, 16-point random phase, 64-point random phase, cross-modulated triangle/pulse and 3x sine