Multi tap chorus (mt chors), Classic flanger (cl flang), Bi chorus (bi chors) – KORG Ax3000b User Manual
Page 37
DRIVE/AMP
CABINET
PRE EFFECT
MODULA
TION
DELA
Y
REVERB
Effect Type
Tuner
31
2. MULTI TAP CHORUS (MT CHORS)
This is a chorus with independent taps for left/center/right, adding depth and spa-
ciousness to your sound.
3. CLASSIC FLANGER (CL FLANG)
This models a classic analog flanger.
4. BI CHORUS (BI CHORS)
This is a chorus model unique to the AX3000B. It provides two chorus units, CHO-
RUS 1 and CHORUS 2, and lets you connect the two units not only in series or in
parallel, but also to synchronize or de-synchronize the two LFOs. It produces a
variety of tones that cover a range from wonderfully spacious sounds to bizarre
flanger-like sounds with complex modulation.
NOTE: This will not function if MODE is set to P2 or P3.
[1] “DEPTH”
0.0–10.0
* Adjusts the modulation depth.
[2] “SPEED”
0.1–10.0[Hz]
* Adjusts the modulation speed.
[3] “TIME”
0.0–10.0
Adjusts the delay time.
[5] “MIX”
0.0–10.0
* Adjusts the mix level of the effect.
[1] “DEPTH”
0.0–10.0
* Adjusts the modulation depth.
[2] “SPEED”
0.1–10.0[Hz]
* Adjusts the modulation speed.
[3] “MANUAL”
1.0–10.0
* Adjusts the center frequency of the sweep. If
DEPTH is set to 10, MANUAL will not func-
tion.
[4] “RESO”
0.0–10.0
* Adjusts the amount of resonance.
[5] “MIX”
0.0–10.0
* Adjusts the mix amount of the effect.
CONTROL switch
FLN TRIG
If you set the FLN TRIG: CONTROL switch
setting to “FLN TRIG,” the LFO will be reset
to the position specified by OFFSET when-
ever you operate the switch. (p.44 Control
switch settings)
[1] “DEPTH”
0.0–10.0
* Adjusts the modulation depth of CHORUS 1/2.
[2] “SPEED 1”
0.1–10.0[Hz]
* Adjusts the modulation speed of CHORUS 1.
[3] “SPEED 2”
0.1–10.0[Hz]
* Adjusts the modulation speed of CHORUS 2.
[4] “RESO”
0.0–10.0
* Adjusts the amount of resonance for CHO-
RUS 1/2.
[5] “MODE”
Specifies the connection and LFO for CHO-
RUS 1/2.
S:
CHORUS 1/2 are connected in series.
P1:
CHORUS 1/2 are connected in parallel.
P2:
CHORUS 1/2 are connected in parallel, and
their LFOs are synchronized.