Sync parameter: osc 2 only – ALESIS ANDROMEDA A6 User Manual

Chapter 5: Oscillators and Filters

A

NDROMEDA

A6 R

EFERENCE

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ANUAL

115

SYNC Parameter: OSC 2 Only

Synchronizing OSC 1 with OSC 2
Even with the VCOs’ fine tuning and ultra-fine tuning controls, it is impossible to
tune the VCOs to perfect unison, especially across the entire range of the A6’s

keyboard or the wider range of MIDI Notes. There may be times when you need the
tuning of two VCOs to be locked to each other. This is where

SYNC

is used.

SYNC

forces the frequency of

OSC 2

to match the frequency of

OSC 1

by locking their

waves’ phase – when the waves begin their rise and fall during their periodic cycles.

When two sound waves have their phases synchronized, their cycles begin at exactly
the same instant and stay locked throughout the cycle.

DISPLAY
PAGE

PANEL LABEL

PARAMETER
DISPLAY

OPTIONS

or RANGE DESCRIPTION

TUNE

SYNC

Button +

Two LEDs

SYNC

OFF

Turns the synchronization of

OSC 2

to

OSC 1

off. Both VCOs oscillate independently.

HARD

Turns

HARD SYNC

on. See description below.

SOFT

Turns

SOFT SYNC

on. See description below.

Pressing the

SYNC

button rotates among three synchronizing possibilities: the first

press activates

HARD

sync, the second press activates

SOFT

sync, and the third press

turns

SYNC

off. You can also use soft knob

7

when

OSC 2

’s

TUNE

page is displayed.

The choices, in order, are

- OFF -

,

SOFT

and

HARD

.

HARD

sync locks the phase relationship of

OSC 2

’s fundamental wave with that of

OSC

1

.

SOFT

sync locks the phase relationships of

OSC 2

’s harmonics with the harmonics of

OSC 1

. The audible difference between these two methods depends on the frequencies

of the VCOs before sync is activated.

When tuned to approximately the same frequency, there’s not much (if any) audible
difference between hard and soft sync. What you’ll experience is two VCOs tuned to
perfect (well, for all intents and purposes) unison. There may be a noticeable increase
in loudness – depending on which waveforms are selected – resulting from two
waves being “right on top of each other” (more accurately called “in phase” with
each other), and any beating from two oscillators in close frequency will disappear.

As the oscillators are tuned to wider intervals, the difference between

HARD

and

SOFT

sync (or no sync, for that matter) becomes more obvious. If you tune

OSC 2

up a fifth

from

OSC 1

then turn

HARD

sync on, for example, a new set of harmonics are created

resulting from two fundamental waves – with significantly different frequencies –
being locked in phase: the waveforms start their cycles at the same time. Another set

of harmonics is created when

SOFT

sync is used.

Since

OSC 1

is the reference, try tuning

OSC 1

up from

OSC 2

and listen to the result of

the slaved oscillator (

OSC 2

) being tuned below the reference oscillator (

OSC 1

). Listen

to the difference between hard and soft sync in this situation. You might also want to
experiment with octave intervals and dissonant intervals as well.