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BV512 VOCODER

320

Introduction

The BV512 is an advanced vocoder device with a variable number of filter bands. It

also has a unique 1024-point FFT vocoding mode (equivalent of 512-band vocoding)

for very precise and high quality vocoded speech. By connecting the BV512 to two

instrument devices, you can produce anything from vocoded speech, singing or

drums to weird special effects.

Even if you have worked with a vocoder before, please read the following section.

Knowing the basic terms and processes will make it much easier to get started with

the BV512!

How does a vocoder work?

Carrier and modulator

A vocoder accepts two different input signals, a “carrier” and a “modulator”. It ana-

lyzes the modulator signal, applies its frequency characteristics to the carrier signal

and outputs the resulting “modulated” carrier signal.

In the most typical case, the carrier signal is a string or pad sound and the modulator

signal is speech or vocals - the result will be a talking or singing synth sound. The

modulator could also be drums or percussion (for rhythmically modulated sounds and

effects) or any sound with changing frequency content.

Filter bands

Technically, a vocoder works in the following way: The modulator signal is divided into

a number of frequency bands by means of bandpass filters (called the “modulator fil-

ters” or “analyzing filters”). The signal in each of these bands is sent to a separate en-

velope follower (which continuously analyzes the level of the signal). The carrier signal

is sent through the same number of bandpass filters (the “carrier filters”), with the

same frequency ranges as the filters for the modulator signal. The gain of each band-

pass filter is controlled by the level from the corresponding envelope follower, and the

filtered signals are combined and sent to the vocoder’s output.

In this way, the carrier is filtered to have roughly the same frequency characteristics as

the modulator. If the modulator signal has a lot of energy in one of the frequency

bands, the gain of the corresponding filter band for the carrier signal will be high as

well, emphasizing those frequencies in the output signal. If there is no signal at all

within a frequency band in the modulator signal, the corresponding band in the output

signal will be silent (as the gain will be zero for that filter).

There are several factors determining the quality of the vocoder sound, but the most

important is the number of filter bands. The larger the number of filter bands, the

closer will the output signal follow the modulator’s frequency characteristics. The

BV512 offers 4, 8, 16 or 32-band vocoding.

✪ Even if a high number of bands will make the sound more precise and in-

telligible, this isn’t always what’s desired! Vocoding with a lower number

of bands can give results that sound different, fit better in a musical con-

text, etc.

FFT vocoding

The BV512 has an additional FFT mode, in which the vocoding process isn’t based

on bandpass filters as described above. Instead, FFT (Fast Fourier Transform) analy-

sis and processing is used. This equals 512 “conventional” frequency bands and re-

sults in a very precise and detailed vocoder sound. Note:

• The FFT mode is best suited for vocoding speech or vocals, giving crystal clear

and highly intelligible results. It is not so well suited for vocoding drums and per-

cussion, since the FFT process is inherently “slower” than the regular filtering and

doesn’t respond as quickly to transients, and also there will be a slight delay

added to the signal (in the region of 20ms). A workaround solution to this would

be to move the modulator signal slightly ahead to compensate for the delay.

• Where the conventional filter bands are distributed logarithmically (i.e. the same

number of filter bands per octave), the 512 bands in the FFT mode are distributed

linearly. This means a lot of the bands will be in the high frequency range - this is

one of the reasons for the clear sound but it is also something to keep in mind

when making settings for the vocoder in FFT mode.

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