Happy Nerding - Super Sawtor [Moog Format]
Super Sawtor is the module designed to produce unison like waveforms from the incoming signal. The best results are achieved using sawtooth, triangle or sine waveforms as an input signal. Unison spread has been tuned to give almost the same type of harmonics smearing as the famous Roland jp80x0 supersaw oscillator. Thus feeding the Super Sawtor with a sawtooth waveform will result in a typical supersaw output.
Though having some common features with sawtooth animators, Super Sawtor gives that vivid tension of the supersaw waveform, which is different to imitation of the multiple oscillators sound most sawtooth animators capable of doing. The main difference is in the approach used: sawtooth animators tend to recreate continuously moving phase shift of the slightly detuned / drifting oscillators; Super Sawtor in its turn creates additional pitched shifted harmonics to the input signal, which gives a different sonic character compared to sawtooth animators.
It is also should be mentioned that Super Sawtor is a completely analog circuit free of aliasing.
No external modulation sources are required for proper operation of the module. However the user can add changes and modulation to the manually set “Spread” amount by using “CV” input and adjusting “CV” knob to the desired degree.
Two identical Super Sawtors are available in one module of DOTCOM format, each of them has separate inputs/outputs and controls. So the module can be considered as double Super Sawtor. Lower sub module has internal connection of its inputs to the inputs of the upper sub module. That is a handy option saving one input connection in cases when you want to share the same input for both parts. This internal routing is disconnected each time a plug is inserted in the lower sub module’s inputs.
EURO version has one module in contrast to two modules in DOTCOM format, but with added MIX control. This MIX control internally mixes the input signal (0 dial position) and the supersaw output.
EURO format / MOTM format / DOTCOM format
input level: -5V … + 5V (can also accept inputs ranging from [-2.5V… +2.5V] to [-15V…+15V] using onboard trimmers)
output level: averages around -5V … + 5V
output impedance: 1 kOhm
module depth: 3 cm or 1,5?
power consumption: +85 /-85 mA at +/-15 Vdc through DOTCOM standard 6 pin MTA-100 connector for DOTCOM format