Effects
Rotating Speakers
9-21
LoResonate
and
HiResonate
are
simulations
of
cabinet
resonant
modes
expressed
as
a
percentage.
For
realism,
you
should
use
very
low
settings.
The
range
is
0
to
100%.
Lo
Res
Dly
and
Hi
Res
Dly
are
the
number
of
samples
of
delay
in
each
resonator
circuit
in
addition
to
the
rotation
excursion
delay.
The
range
is
10
to
2550
samples.
LoResXcurs
and
HiResXcurs
are
the
number
of
samples
of
delay
to
sweep
through
the
resonator
at
the
rotation
rate
of
each
rotating
speaker.
The
range
is
0
to
510
samples.
ResH/LPhs
sets
the
relative
phases
of
the
high
and
low
resonators.
The
angle
value
in
degrees
is
somewhat
arbitrary
and
you
can
expect
the
effect
of
this
parameter
to
be
rather
subtle.
The
range
is
0
to
360.0
degrees.
Mic
Angle
is
the
angle
of
the
virtual
microphones
in
degrees
from
the
“front”
of
the
rotating
speaker.
For
the
left
microphone
the
angle
increases
clockwise
(when
viewed
from
the
top),
while
for
the
right
microphone
the
angle
increases
counter
‐
clockwise.
Assigning
a
MOD
to
this
parameter
should
be
done
with
caution:
real
‐
time
adjustments
to
it
will
result
in
large
sample
skips,
which
will
cause
clicks
in
the
signal
passing
through.
The
range
is
0
to
360.0
degrees.
(In
Distort
+
Rotary
only.)
The
following
parameters
relate
to
rotation
speed:
Speed
sets
the
rotating
speakers
to
run
at
either
the
slow
rate
or
the
fast
rate.
Brake
,
when
set
to
ʺ
On
ʺ
,
slows
the
rotating
speakers
to
a
halt.
Lo
Mode
,
in
the
ʺ
Normal
ʺ
setting,
will
give
you
full
control
of
the
low
frequency
speaker
with
the
Speed
parameter.
The
ʺ
NoAccel
ʺ
setting
will
hold
the
low
frequency
speaker
at
the
slow
speed,
and
the
Speed
parameter
will
have
no
effect
on
its
speed,
though
Brake
will
still
work.
In
the
ʺ
Stopped
ʺ
position,
the
low
frequency
speaker
will
not
spin
at
all.
Lo
Slow
and
Hi
Slow
are
the
rotation
rates
in
hertz
(Hz)
of
the
speakers
when
Speed
is
set
to
ʺ
Slow
ʺ
.
Lo
Fast
and
Hi
Fast
are
the
rotation
rate
in
hertz
(Hz)
of
the
speakers
when
Speed
is
set
to
ʺ
Fast
ʺ
.
LoSlow>Fst
and
HiSlow>Fst
are
the
times
for
the
speakers
to
accelerate
from
the
slow
speed
to
the
fast
speed.
LoFst>Slow
and
HiFst>Slow
are
the
times
for
the
speaker
to
decelerate
from
the
fast
speed
to
the
slow
speed.
LoAccelCrv
and
HiAccelCrv
are
the
shapes
of
the
acceleration
curves
for
the
speakers.þ0%
is
a
constant
acceleration.
Positive
values
cause
the
speaker
to
speed
up
slowly
at
first
then
quickly
reach
the
fast
rate.
Negative
values
cause
a
quick
initial
speed
‐
up
then
slowly
settle
in
to
the
fast
speed.
If
set
to
a
low
negative
value,
it
will
overshoot.
LoSpinDir
and
HiSpinDir
are
the
directions
of
rotation
of
the
speakers.
The
choice
is
clockwise
(CW)
or
counter
‐
clockwise
(CCW).
Vibrato/Chorus
The
Vibrato/Chorus
algorithm
(and
also
the
KB3
Effects
algorithm)
simulates
the
vibrato
and
chorus
effects
on
a
tone
wheel
organ,
and
is
used
in
conjunction
with
the
Rotary
Speaker.
It
has
several
unique
parameters:
VibChInOut
is
an
in/out
switch
for
the
Vibrato/Chorus
effect.
Vib/Chor
is
the
type
of
Vibrato/Chorus
effect
to
be
used.
The
choices
are
from
three
vibratos,
“V1”,
“V2”,
“V3”,
or
three
choruses,
“C1”,
“C2”,
“C3”.
Summary of Contents for PC3K6
Page 24: ...1 6 Introduction Options...
Page 50: ...4 4 The Operating Modes Using the Modes...
Page 58: ...5 8 Editing Conventions Special Button Functions...
Page 130: ...6 72 Program Mode Programming Tips...
Page 202: ...7 72 Setup Mode Recording A Setup To Song Mode...
Page 206: ...8 4 Quick Access Mode The QA Editor...
Page 232: ...9 26 Effects Mono Algorithms...
Page 268: ...11 18 Master Mode Preview Sample PRVIEW...
Page 302: ...12 34 Song Mode and the Song Editor Song Editor The EVENT Page...
Page 328: ...14 14 Keymap and Sample Editing Editing Samples...
Page 334: ...B 4...
Page 370: ...D 32 PC3K Objects V 1 31 Effect Chains...
Page 372: ...E 2 PC3K Legacy File Conversion Object Types and Conversion Details...