Anyware Instruments Moodulator Podręcznik użytkownika - Strona 6
Przeglądaj online lub pobierz pdf Podręcznik użytkownika dla Syntezator Anyware Instruments Moodulator. Anyware Instruments Moodulator 19 stron.
OSCILLATOR Section
Oscillators are the primary sound source of a synthesizer; they provide the basic pitch and tone colour to the
final sound. In the case of the MOODULATOR, they generate two different basic waveforms, Sawtooth and Pulse
(each has a different tone colour).
A lot more timbre variation is possible by doing PWM, hard sync, ring modulating them, etc.
TUNE (knob)
Master Tune lets you set the general tune of both oscillators with a range of more than 5 octaves.
OCTAVE (switch)
The Octave switch lets you select between 3 octave ranges for both oscillators.
GLIDE (knob)
Also controls both oscillators. Glide, also known as portamento, is a voltage processor. It's basically a lowpass
filter for control signals; what it does is round any sudden voltage change, like the ones that happen from note
to note when controlled from a keyboard, making a smooth transition between notes. The time it takes to go
from one voltage level to the next is determined by the Glide Knob.
OSCILLATOR 1 WAVE SELECT (switch)
You can choose between SAW and SQUARE. The Pulse Width of the SQUARE wave can be modulated by LFO.
For more info, go to LFO section.
OSCILLATOR 2 RANGE (knob)
This knob allows you to detune Oscillator 2 from Oscillator 1. At 9:00 o´clock position it's unisonP
at 12:00 it´s an octave higher apart, and finally at 3:00 position pitch is two octaves higher.
OSCILLATOR 2 WAVE SELECT (switch)
You can choose between SAW and PULSE. The Pulse Width of the PULSE wave is fixed.
SYNC (OSC1→2) (switch)
Hard Sync was originally conceived as a way to tune analogue (i.e., unstable) oscillators in perfect unison or
Octaves without any beating problems. Then it turned out to be a fantastic way to create new waveforms by
applying different tunings and pitch sweeps to the slave oscillator.
Hard Sync works as follows: Two oscillators are synchronized by internally taking the Sync output of the
"Master" oscillator (OSC1) and connecting it to the Sync input of the "Slave" oscillator (OSC2). Each time
the Master oscillator completes its cycle, the slave oscillator restarts as well;
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