11
Patch Mode
OUTPUT
Parameter Value/Explanation
Patch Output
Assign
Species how the direct sound of each patch will be output.
MFX
Output in stereo through MFX. You can also apply chorus or
reverb to the sound that passes through MFX.
L+R
Output to the OUTPUT L (MONO) jack and OUTPUT R jack in
stereo without passing through MFX.
L, R
Output to the OUTPUT L (MONO) jack or OUTPUT R jack in
mono without passing through MFX.
TONE Outputs according to the settings for each tone.
Tone Output
Assign
Species how the direct sound of each tone will be output.
* If the Patch Output Assign is set to anything other than “TONE,” these
settings will be ignored.
* When the Structure Type (p. 6) has a setting of “2”–”10,” the outputs
of tones 1 and 2 will be combined with tone 2, and the outputs of tones
3 and 4 will be combined with tone 4. For this reason, tone 1 will follow
the settings of tone 2, and tone 3 will follow the settings of tone 4.
* Chorus and reverb are output in mono at all times.
MFX
Output in stereo through MFX. You can also apply chorus or
reverb to the sound that passes through MFX.
L+R
Output to the OUTPUT L (MONO) jack and OUTPUT R jack in
stereo without passing through MFX.
L, R
Output to the OUTPUT L (MONO) jack or OUTPUT R jack in
mono without passing through MFX.
Tone Output Level
Set the level of the signal that is sent to the output destination specied
by Patch Output Assign or Tone Output Assign.
0–127
Tone Chorus Send
Species the level of the signal sent to the chorus for each tone.
0–127
Tone Reverb Send
Species the level of the signal sent to the reverb for each tone.
0–127
LFO1, 2
Parameter Value/Explanation
Waveform
Selects the waveform of the LFO.
* If you set this to “BD-U” or “BD-D,” you must turn the Key Trigger
parameter to “ON.” If this is “OFF,” it will have no eect.
SIN Sine wave
TRI Triangle wave
SAWU Sawtooth wave
SAWD Sawtooth wave (negative polarity)
SQR Square wave
RND Random wave
BD-U
Once the attack of the waveform output by the LFO is allowed
to develop in standard fashion, the waveform then continues
without further change.
BD-D
Once the decay of the waveform output by the LFO is allowed
to develop in standard fashion, the waveform then continues
without further change.
TRP Trapezoidal wave
S&H Sample & Hold wave (one time per cycle, LFO value is changed)
CHS Chaos wave
VSIN
Modied sine wave. The amplitude of a sine wave is randomly
varied once each cycle.
STEP
A waveform generated by the data specied by LFO Step 1–16.
This produces stepped change with a xed pattern similar to a
step modulator.
Rate
Adjusts the modulation rate, or speed, of the LFO.
* This setting will be ignored if the Waveform parameter is set to “CHS.”
0–127, note
Rate Detune
LFO Rate Detune makes subtle changes in the LFO cycle rate (Rate) each
time a key is pressed. Higher settings will cause greater change.
* This parameter is invalid when Rate is set to “note.”
0–127
Oset
Raises or lowers the LFO waveform relative to the central value (pitch or
cuto frequency). Positive (+) settings will move the waveform so that
modulation will occur from the central value upward. Negative (-) settings
will move the waveform so that modulation will occur from the central
value downward.
-100, -50, 0, +50, +100
Delay Time
Delay Time (LFO Delay Time) species the time elapsed before the LFO
eect is applied (the eect continues) after the key is pressed (or released).
* After referring to “How to Apply the LFO” (p. 12), change the setting
until the desired eect is achieved.
0–127
Parameter Value/Explanation
Delay Time KF
Adjusts the value for the Delay Time depending on the key position,
relative to the C4 key (center C). To decrease the time that elapses before
the LFO eect is applied (the eect is continuous) with each higher key
that is pressed in the upper registers, select a positive value; to increase
the elapsed time, select a negative value.
Larger settings will produce greater change. If you do not want the
elapsed time before the LFO eect is applied (the eect is continuous) to
change according to the key pressed, set this to “0.”
-100–+100
Time
Key
Fade Mode
Species how the LFO will be applied.
* After referring to “How to Apply the LFO” (p. 12), change the setting
until the desired eect is achieved.
ON <, ON >, OFF <, OFF >
Fade Time
Species the time over which the LFO amplitude will reach the maximum
(minimum).
* After referring to “How to Apply the LFO” (p. 12), change the setting
until the desired eect is achieved.
0–127
Key Trigger
Species whether the LFO cycle will be synchronized to begin when the
key is pressed (ON) or not (OFF).
OFF, ON
Pitch Depth
Species how deeply the LFO will aect pitch.
-63–+63
TVF Depth
Species how deeply the LFO will aect the cuto frequency.
-63–+63
TVA Depth
Species how deeply the LFO will aect the volume.
-63–+63
Pan Depth
Species how deeply the LFO will aect the pan.
MEMO
When the Structure Type (p. 6) is set to any value from “2” through “10,”
the output of tones 1 and 2 will be combined into tone 2, and the output
of tones 3 and 4 will be combined into tone 4. This applies to the Pan
Depth settings. For this reason, tone 1 will follow the settings of tone 2,
and tone 3 will follow the settings of tone 4.
-63–+63
STEP LFO
Parameter Value/Explanation
Step Type
When generating an LFO waveform from the data specied in LFO
Step1–16, specify whether the level will change abruptly at each step
(TYP1) or will be connected linearly (TYP2).
TYP1, TYP2
LFO Step 1–16
Species the data for the Step LFO. If the LFO Pitch Depth is +63, each +1
unit of the step data corresponds to a pitch of +50 cents.
-36–+36
2
2
2
2
2
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