Access virus os4 ユーザーズマニュアル
32
CHAPTER
4
Introduction
FILTER ROUTING
The final parameter we’ll discuss
for the time being is FILTER ROUT-
ING. This feature offers several fil-
ter routing options which allow
you to operate the filters in series,
i.e. patch one after the other in the
signal chain, or in parallel, which
means side by side in the signal
chain:
for the time being is FILTER ROUT-
ING. This feature offers several fil-
ter routing options which allow
you to operate the filters in series,
i.e. patch one after the other in the
signal chain, or in parallel, which
means side by side in the signal
chain:
SER-4 The filters are switched in
series; with two poles each (12dB/
Okt.), both filters have the same
slope for a total of four filter poles
(24dB/Okt.).
series; with two poles each (12dB/
Okt.), both filters have the same
slope for a total of four filter poles
(24dB/Okt.).
SER-6 The filters are switched in
series; Filter-1 has four poles (24dB/
Okt.), Filter-2 has two poles (12dB/
Okt.) so the overall slope is equiva-
lent to six poles (36dB/Okt.).
series; Filter-1 has four poles (24dB/
Okt.), Filter-2 has two poles (12dB/
Okt.) so the overall slope is equiva-
lent to six poles (36dB/Okt.).
PAR-4 The filters are switched in
parallel and feature two poles each
(12dB/Okt.).
parallel and feature two poles each
(12dB/Okt.).
SPLIT The filters are switched in
parallel and feature two poles each
(12dB/Okt.). Additionally, they
receive independent input signals
(more on this later). Each of the
two oscillators routes its signal
into one of the two filters whose
signals can be spread in the pan-
orama via a parameter called UNI-
SON Pan Spread.
parallel and feature two poles each
(12dB/Okt.). Additionally, they
receive independent input signals
(more on this later). Each of the
two oscillators routes its signal
into one of the two filters whose
signals can be spread in the pan-
orama via a parameter called UNI-
SON Pan Spread.