Moog Music Voyager Old School User Manual

Page 46

Voyager OS User’s Manual - Appendices

Page 47

Voyager OS User’s Manual - Appendices

Returning to our Subtractive Synthesis model, the fi rst of the auxiliary components is the keyboard. The
keyboard provides a familiar musical instrument ‘interface’ that produces a control voltage and trigger signal
whenever a key is pressed. The level of the control voltage signal is a function of which key is pressed - the
higher up on the keyboard you play, the higher the level of the control voltage.

The keyboard’s control voltage signal is commonly routed to the oscillators to control the pitch, and it can also
be routed to other voltage-controlled components like the fi lter, to vary the cutoff frequency. The keyboard
trigger signal is routed to the Envelope Generators to trigger the envelopes.

The second

auxiliary component is the Envelope Generator, or EG. The

EG makes no sound by itself. Rather, it creates a time-varying control
voltage that is typically used to control the gain of the amplifi er, or the
cutoff frequency of the fi lter. Many synthesizers, including the Voyager,
provide several EG’s for independent envelope control of the amplifi er
and fi lter circuits.

The EG is triggered from a Gate signal that is generated every time a
key is pressed on the keyboard. Once triggered, as long as the key is
held down (i.e. the Gate signal is present), the EG envelope will evolve
according to the control settings.

The Voyager’s Envelope Generators have four stages that can be set individually:

Attack – The time to go from zero volts to the maximum voltage (the fade in time).
Decay – The time to go from the maximum voltage to the Sustain level.
Sustain – The maximum level of the envelope after completing the attack and decay stages (if the

key is held). If the sustain level is zero, the envelope consists of just the attack and decay
stages, and the Release control has no effect.

Release – The time to go back to zero volts when the key is released (the fade out time).

The last auxiliary component to mention is the Low Frequency Oscillator,
also known as the LFO. The LFO operates like the main oscillators in
almost all respects, but generally at a much lower frequency. LFO’s are
typically used to send modulation control signals to the main components.
For example, if you route a 6Hz LFO signal to an oscillator, it will produce
vibrato by varying the pitch of the oscillator. If you send that same LFO
signal to the amplifi er, you’ll get tremolo. LFO’s are used to create cyclical
variations in the sound, making the sound more dynamic and interesting.