How auto-tune corrects pitch, Scales, Speed – Antares TASCAM TA-1VP User Manual

TASCAM TA-1VP

9

intonation correction to be performed on all vocals and

almost all instruments.
Of course, the TA-1VP will not detect pitch when the input

waveform is not periodic. As demonstrated above, the

TA-1VP will fail to tune up even a unison violin section.

But this can also occasionally be a problem with solo

voice and solo instruments as well. Consider, for example,

an exceptionally breathy voice, or a voice recorded in an

unavoidably noisy environment. The added signal is non-

periodic, and the TA-1VP will have difficulty determining

the pitch of the composite (voice + noise) sound. Luckily,

there is a control (the Sensitivity control, discussed in

Chapter 5) that will let the TA-1VP be a bit more casual

about what it considers “periodic.” Experimenting with

this setting will often allow the TA-1VP to track even noisy

signals.

How Auto-Tune corrects pitch

Auto-Tune works by continuously tracking the pitch

of an input sound and comparing it to a user-defined

scale. The scale tone closest to the input is continuously

identified. If the input pitch exactly matches the scale

tone, no correction is applied. If the input pitch varies

from the desired scale pitch, an output pitch is generated

which is closer to the scale tone than the input pitch. (The

exact amount of correction is controlled by the Speed

parameter, described below and in Chapter 5.)

Scales

The heart of Auto-Tune pitch correction is the Scale. The

TA-1VP comes with 25 preprogrammed scales. For each

Scale you can define which notes will sound and which

won’t. And for each note that will sound, you can decide

whether the TA-1VP will apply pitch correction to input

pitches near that note or leave those pitches uncorrected.
You can also edit any of the preprogrammed scales and

save your custom scale as part of a Preset.

Speed

You also have control over how rapidly, in time, the pitch

adjustment is made toward the scale tone. This is set with

the Speed control (see Chapter 5 for more details).

Fast Speed

•

settings are more appropriate for short

duration notes and for mechanical instruments, like an

oboe or clarinet, whose pitch typically changes almost

instantly. A fast enough setting will also minimize or

completely remove a vibrato. At the fastest setting, you

will produce the now-infamous “Cher effect.”
Slow Speed

•

settings, on the other hand, are

appropriate for longer notes where you want

expressive pitch gestures (like vibrato) to come through

at the output and for vocal and instrumental styles that

are typified by gradual slides (portamento) between

pitches. An appropriately selected slow setting can

leave a vibrato unmodified while the average pitch is

accurately adjusted to be in tune.

An example

As an example, consider this before-and-after graphic

representation of the pitch of a vocal phrase that contains

both vibrato and expressive gestures.

10.0

10.5

11.0

D3

B2

C

#

3

ORIGINAL

PERFORMANCE

CORRECTED

BY TA-1VP

In the original performance, we can see that although

the final note should be centered around D, the vocalist

allowed the tail of the note to fall nearly three semitones

flat. The “after” plot is the result of passing this phrase

through the TA-1VP set to a D Major Scale (with C# and

B set to ”Blank”) and a Speed setting of 10. That Speed

causes the pitch center to be moved to D, while still

retaining the vibrato and expressive gestures. (Setting

C# and B to ”Blank” is necessary to keep the TA-1VP from

trying to correct the seriously flat tail of the last note to

those pitches. See Chapter 5 for more details.)

Antares Microphone Modeling

If you’ve spent any time flipping through the pages of pro

audio magazines, you have almost certainly noticed the

intense focus on microphones. From the proliferation of

exotic new mics to the almost cult-like following of certain

historical classics, never has the choice been greater. But

amassing a substantial collection of high-end mics is

financially prohibitive for all but the most well-off studios.
Now, using Antare's patented Spectral Shaping Tool™

technology, we’ve created digital models of a variety

of microphones. Simply tell the TA-1VP what type of

microphone you are actually using and what type of

microphone you’d like it to sound like. It’s as simple as

that.
With the TA-1VP, you can record each track through a

model of the type of mic that will best produce that ideal

sound you’re looking for. Or use it in live performance

to get the sound of mics you’d never consider using on

stage. You can even use it during mixdown to effectively

change the mic on an already recorded track. And for that

final touch of perfection, you can even add some tasty

tube saturation.

2 – Introducing the TASCAM TA-1VP Vocal Producer