Yamaha AN1x Data papier

Categorie
Muziekinstrumenten
Type
Data papier
Cover1 97.7.11 1:10 PM y[W 1
Combination of arpeggio synth & synthpad. Use [ASSIGN] knobs
to control the arpeggio voice.
Hard sequence voice with pattern select. Keys C#1 to B2
correspond to User Patterns No. 1 to 23.
Dual voice layered with full-bodied bass and metallic sounds.
SINGLE mode is suitable for original tunes. Also try MONO and
LEGATO. Also good for Synth lead in the upper register.
Powerful analog brass sound. Use [RIBBON] controller to change
VCF Cutoff (horizontal) and Resonance (pressure).
Ethereal pad sound using arpeggiator.
Hard core acid sound. Use [RIBBON] controller for distortion
control.
Fat bass sound using DUAL UNISON with Legato.
Fat lead sound with moving filter.
Lead sound using "Sync." Try the [RIBBON] controller for effect.
Pad strings sound with slow attack.
Standard British progressive rock sound.
Classic analog synth bass with various sequence patterns. Keys
C#1 to B2 are correspond to User Patterns No. 25 to 47.
Diving sweep sound. The rhythm in Scene 1 is created with the
FreeEG. This is disabled for Scene 2.
Use [RIBBON] or [MODULATION] wheel for sync pitch control.
Fat hook-line voice for dance & techno music. Try scene 2 with
[MODULATION] wheel.
Continuously changes between electric piano sound and pad
sound using "Sync" by Scene Control function.
Spacey sequence voice. Use [RIBBON] controller and [ASSIGN]
knobs for effect.
Sequence voice with band pass filter for special atmosphere.
Step Sequencer plays a combination of analog drum and analog
bass sounds. Free EG adds modulation for unique atmosphere.
Sound effect layered with arpeggiated melody line and human
voice-type pad.
Nice Split of vintage arpeggio & synth lead.
Combination analog bass and analog effect sound.
Combination synth sound layered with analog drum sound and its
perfect fourth. Step Sequencer playes only while you hold the
keys since the Hold function is set to OFF.
Combination synth sound layered with analog drum sound and its
perfect fourth. Step Sequencer playes only while you hold the
keys since the Hold function is set to OFF.
Combination analog pad and analog lead sound.
Fat hip hop saw bass. Slide the edge back with the
[MODULATION] wheel.
Heavy analog bass with a characteristic attack. Select Scene 2
for a variation.
Hybrid analog and FM bass sound.
Analog bass sound with short filter decay. Use [ASSIGN] knobs to
change the envelope and filter settings.
Bass sound with a characteristic attack. Select Scene 2 to
produce a sharp bass drum attack.
Hollow sub bass sound.
Slippery drum and bass sound. Use the [RIBBON] to control the
slip.
Analog bass sound suitable for melodic riffs.
Analog bass sound with wide dynamic range created by velocity.
Vintage analog style bass sound.
Contemporary acid sound. In Scene 2 the compressor drive is on
the [RIBBON]. Try Scene1 for a more harmonic effect.
Bouncey soft acid sound. Get happy with this one.
Hard acid sound number 1. Note that the feedback parameter
(knob 7) interacts with the resonance (knob 6).
The following voices are preset at the factory. Each voice has different settings which you can change by moving the
CONTROL knobs and other controllers. Each controller is assigned with its own unique settings. In general, AEG or FEG is
assigned to knobs 1 and 2, VCF Cutoff to knob 5, Resonance to knob 6, and Effects-related parameters to knobs 7 and 8,
respectively. Parameters assigned to other knobs were carefully selected for maximum effect. Depending on the settings
for each parameter, changes you make may not be distinctive.
No. DescriptionVoice NameCat. No. DescriptionVoice NameCat.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
Co
Sq
Ba
Br
Pd
Ba
Ba
Ld
Ld
St
Sq
Ba
Se
Pd
Sc
Pf
Sq
Sq
Sq
Fx
Co
Co
Co
Co
Co
Ba
Ba
Ba
Ba
Ba
Ba
Ba
Ba
Ba
Ba
Ba
Ba
Ba
Relaxx
Terraform
Celluloid
MajorBrass
Soar
Hardcore
Uni-Bass
MegaDrone
SyncLead
Legato
Alan
Mini
Chemical
SyncSweep
Caner
MorphEP
Doves
BPF Morph
Seismic
Earth
Vinnie
Detroit
Plastik
ChinaTech
Silence
Dog Bass
Slum
Loud
MiniLow
Kickbass
Sub Sub
Hardstep
Wonder
Duck Bass
Prophetic
Harmosync
Kangaroo
Acid 1
Factory-set Voice List
AURAL EXCITER
®
is a registered trademark of and used under license from Aphex Systems, Ltd.
2
P1-10 97.9.19 2:16 PM Page 2
Acid sound number 2. Twiddle those knobs for ultimate
experience.
Thick detuned wave.
Harder acid sound. [RIBBON] controls distortion amount. Watch
the resonance.
Portamento lead sound created with a typical square wave. Turn
knob 3 to change the pulse width.
Soft analog brass sound. Try the [RIBBON] controller. Sensitive synth lead voice. Use [RIBBON], [PITCH] wheel and
[MODULATION] wheel.
Bright & fat analog sawtooth synth sound. Scene 2 is a square
wave variation.
Fat synth lead sound with sync-envelope.
Unison brass sound with short decay changes. Open filter brass
with the [MODULATION] weel. The same voice with the oscillators
in octaves is in Scene 2.
Dark analog synth lead. Turning knob 5 makes the sound
brighter.
Fat 70s style synth brass. Typical 80s Stevie Winwood type lead sound.
Gentle and cool synth brass sound. Use velocity to control
brightness.
Stacked over 4 octaves! Pink Floyd's "Wish You Were Here"
revisited.
Emulation of classic CS80 brass patch. Dangerous lead sound also great for percussive sequence lines.
Brass sound with fast attack. Great for house stabs. Soft sweep with tons of resonance.
[MODULATION] wheel gradually changes the sound between
filtrated brass sound (Scene 1) and projected brass sound
(Scene 2).
Synth pad using Free EG for subtle trembles. A typical example of
how easy it is to create a voice by using Edge and Ring
Modulator.
Bright analog synth strings. Use [MODULATION] wheel or
[RIBBON] for dark strings.
Layered sound with fast arpeggiated sound and soft pad. The
soft pad can be changed drastically with [MODUALTION] wheel
and [RIBBON] controller.
Rich PWmod string pad. Use the [RIBBON] to control brightness.
A slight variation, up an octave in pitch, is in Scene 2.
Powerful pad sound suitable for progressive rock. Check the
drastic changes between Scene 1 and 2 using the
[MODULATION] wheel.
Orchestral sound layered with strings in different octaves. Pad with arpeggiated bells on top. Use the [RIBBON] to control
the volume of the bells.
Analog PWmod synth string pad. Scene 2 is a square wave
variation, with pulse width controlled by the [RIBBON].
Synth pad sound with great sound projection.
Soft pad great for backing. Dark and thick analog synth pad sound. Scene 2 is an LFO
sweep with BEF variation. The [RIBBON] controls LFO sweep
speed in Scene 2 over a wider range than knob 3 for a "watery"
effect.
70s style poly synth sound. Use [ASSIGN] knobs for neat sound
variations.
Pad with upward BPF sweep. Use the [MODULATION] wheel to
change between the original version of the pad and a variation.
Use the [RIBBON] to control the brightness.
Wasp-like sound for soundtracks with the sweet pleasure of pain. Modulated pluck sound with high string pad fading in over it. Use
the [MODULATION] wheel to change the pitch of the pluck
sound. Middle positions include great voice variations. Use the
[RIBBON] to control volume of the strings.
Emulation of the classic Prophet 5 sound. Clear portamento pad sound.
Voice stacked with a major third. Analog strings pad sound with chorus effect.
Pizzicato synth sound. Powerful synth pad sound.
70s style poly synth. Use [ASSIGN] knobs for sound variations. Vocal type pad sound.
Fat portamento hook-voice for dance & techno. Sweep pad which can morph to Sample & Hold using the
[MODULATION] wheel.
Warm vintage "mini" synth lead voice. Thin pad which sits behind fat drums.
No. DescriptionVoice NameCat. No. DescriptionVoice NameCat.
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
Ba
Ba
Br
Br
Br
Br
Br
Br
Br
Br
St
St
St
St
St
Sc
Sc
Sc
Sc
Sc
Sc
Sc
Ld
Ld
Ld
Ld
Ld
Ld
Ld
Ld
Ld
Pd
Pd
Pd
Pd
Pd
Pd
Pd
Pd
Pd
Pd
Pd
Pd
Pd
Pd
Pd
Acid 2
Acid 3
Soft Brass
Hard Brass
Bronze
Fatty
Quincy
CS80 Brass
Tangiers
Brassmorph
Analog
Lush
Chocolate
Stringz
String Pad
Billy
Fetish
P-5 Compy
Stakka
Dust
WarmPoly
Rhubarb
Susy
OB-8
Lucky
Earth Lead
HardSync
Chick
Stevie
Floyd75
Synchromes
High Sweep
Ice Pad
Sprinkler
GreatMorph
Church Bel
Deep Blue
Da Padd
Water Pad
Night Sky
Oberweich
PolyTen
PortPad
Sacred
Sweep&S/H
Slip
3
P1-10 97.9.19 2:16 PM Page 3
Warm and wide poly synth sound with long filter attack. Sound effect which creates rhythms by matching the delay length
to the Arpeggiator tempo.
Combination of bells with pad. Use [RIBBON] to fade the bells in
or out.
Typical vintage synth with high pass sweep.
Bright FM electric piano sound. Sound which creates animal squeakings using the Free EG.
Condenser piano sound. Filter LFO sound effect great for trance music.
Electric piano with clean Whitney Houston sound. Pointy strobe-ish techno sound.
Clean organ with 4 drawbars. Use [MODULATION] wheel for
rotary speed and [ASSIGN] knobs for tone control.
Thick pad sound with creamy effect. Adjust knobs 2 and 7 if it's
too slow for ya.
Many organ sounds available with controllers.
A sequenced voice is triggered from B2 and below. Try using
single notes or octaves in the lower range of the keyboard. Play
chords from C3 and above. Change chords in time. 
The [RIBBON] controls the brightness of the sequence.
Garage and ragga type small synth organ. Scene 2 has a more
percussive version.
Sound effect created with the FreeEG.
House organ ideal for bouncey basslines. Sound effect combined with Arpeggiator and PEG.
Chiffer pipe organ sound that transforms into full organ when the
[MODULATION] wheel is increased. The [RIBBON] controls the
volume of the upper octave.
Soundd with special sweeping effect.
The immortal Kraftwerk invention. Use all controllers and go crazy!
Ring modulation style wind chimes. Sound effect producing completely different sounds in all pitches
by applying FM modulation.
Ambient percussion effect by ring modulation. Whimsical special effect sound using sync to create vocal
formants.
Great space pad sound. Use the [MODULATION] wheel to add
pitch modulation effects. Hold note A4 to recreate the beginning
of ELP's "Welcome Back My Friends" (Karn Evil 9).
Analog sequence with complex Free EG modulations. Hold the
key for a long time.
Spacey pad with soft sync modulation. Distorted analog sequence great for techno music. Use the
[RIBBON] to control the filter.
Notes in the bottom octave of the keyboard play a sequence and
determine its pitch. Play single or double note melodies in the
upper keyboard. The Free EG does the rest.
Analog sequence with complex Free EG modulations. Hold the
key for a long time.
Synth voice great for film music. Automatically plays with C sus 4. Get into it!
FX voice with pitch attack & sync. Free EG adds radically changing long cycle to the sequences of
typical phrases.
FX pad sound expressing fast bowed sound of a violin using the
Arpeggiator.
Spacey sequence with strong phasing effect.
Combination synth and analog pad sound using Arpeggiator. Typical percussive type analog synth great for arpeggios.
Bright analog sound effect using Arpeggiator. Percussive chill-out effect. Be cool.
Free EG and Arpeggiator extravaganza which procudes unusual
rhythms.
Play a tune along with the typical sequence line while changing
voices using the [MODULATION] wheel.
NOTE When Step Sequencer Keyboard Mode is set to "sel&norm" or "sel&shift", User Patterns can be played
to the left of the Split point. User Patterns can also be selected by playing a note. In this case, when
you press the C1 key, the current Voice Pattern will be accessed. (See page 41.)
No. DescriptionVoice NameCat. No. DescriptionVoice NameCat.
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
Pd
Co
Pf
Pf
Pf
Or
Or
Or
Or
Or
Pc
Pc
Pc
Fx
Fx
Fx
Fx
Fx
Fx
Fx
Fx
Fx
Fx
Fx
Fx
Fx
Fx
Fx
Fx
Fx
Se
Se
Se
Se
Se
Sq
Sq
Sq
Sq
Sq
Sq
Sq
Sq
Sq
Polyswell 
Padbells 
DX E.Piano
Condenser 
WhitneyEP 
DrawOrgans 
16+2.2/3 
Garage 
House 
Pipes 
Hi Q Reso 
Koan 
Woob 
WelcomBk 
Magic 
Hypno 
Soundtrack
Morphyum 
WindString
Vangelizm 
Chandelier
FreeEGRthm
Heaven 
Mars 
Porpoise 
Jack 
Microdot 
Polaris 
RhythmCity
CyberBag 
CyberClock
Flutter 
Industrial
Moment 
We All Die
Cactus 
Overdrive 
Omega 
Csus4 
TekkLine 
Highway 
Saturn 
Poptart 
VirtlScene
4
P1-10 97.9.19 2:16 PM Page 4
Tone Generator And Effect Signal Flow
Arpeggiator Type List
(Delay and Reverb can be
configured in a serial or
parallel connection)
No. Param Name Comments
1 UpOct1 The chord (or phrase) ascends up 1 Octave.
2 UpOct2 The chord (or phrase) ascends up 2 Octaves.
3 UpOct4 The chord (or phrase) ascends up 4 Octaves.
4 DwOct1 The chord (or phrase) descends down 1 Octave.
5 DwOct2 The chord (or phrase) descends down 2 Octaves.
6 DwOct4 The chord (or phrase) descends down 4 Octaves.
7 UpDwAOct1 The chord (or phrase) ascends up 1 Octave, then descends.
8 UpDwAOct2 The chord (or phrase) ascends up 2 Octaves, then descends.
9 UpDwAOct4 The chord (or phrase) ascends up 4 Octaves, then descends.
10 UpDwBOct1 The chord (or phrase) ascends up 1 Octave, then descends. (This is slightly different from type UpDwAOct1.)
11 UpDwBOct2 The chord (or phrase) ascends up 2 Octaves, then descends. (This is slightly different from type UpDwAOct2.)
12 UpDwBOct4 The chord (or phrase) ascends up 4 Octaves, then descends. (This is slightly different from type UpDwAOct4.)
13 RandmOct1 Plays up and down randomly over 1 Octave, based on the chord you play.
14 RandmOct2 Plays up and down randomly over 2 Octaves, based on the chord you play.
15 RandmOct4 Plays up and down randomly over 4 Octaves, based on the chord you play.
16 Techno-A Typical techno sequence TYPE A. (Euro techno type.)
17 Techno-B Typical techno sequence TYPE B. (UK type with Velocity.)
18 Techno-C Typical techno sequence TYPE C. (Japan techno type.)
19 Techno-D Typical techno sequence TYPE D. (German techno type.)
20 DAHouse Backing sequence with House music feel. (Bass for left hand, Chord play for right hand.)
21 SyncopaA Syncopation type sequence TYPE A.
22 SyncopaB Syncopation type sequence TYPE B. (Octave moves considerably.)
23 SyncoEcho Syncopated type echo.
24 TekkEchoA Echo with moving filter A.
25 TekkEchoB Echo with moving filter B.
26 PulseLine Sequence mixed with bass line and sequence line.
27 BassLineA Arpeggio phrase TYPE A for bass.
28 BassLineB Arpeggio phrase TYPE B for bass. (With Velocity.)
29 BassLineC Arpeggio phrase TYPE C for bass.
30 BassLineD Arpeggio phrase TYPE D for bass.
VCO1 MIXER
WAVE:
Saw/Pulse/Saw2/Mix 
Inner 1~3 (SYNC)
SYNC
FM
NOISE
RING MOD.
FEG
ATTACK/ DECAY/
SUSTAIN/ RELEASE
AEG
ATTACK/ DECAY/
SUSTAIN/ RELEASE
HPF
(-6dB)
PEG
Depth / DECAY
Pitch
Pitch
Amount
VCO1
Slave
VCA
VELOCITY SENS.
Controller
Control Source:
PB Wheel
Mod.Wheel
Foot Controller
Ribbon Controller
After Touch
Velocity
Key Track
PWM
PWM
LFO2
WAVE:
TRIANGLE
FEEDBACK
LFO 1
WAVE:
DELAY
VOLUME
EFFECT
VAR
DLY REV
VCO1
Master
VCF
EQ
EQ
SAW / SQUARE / 
SINE /
TRIANGLE
/ 
S&H / S&H2
FILTER TYPE:
LPF
(-12/-18/-24 dB) 
BPF
HPF (-12dB) 
BEF
VELOCITY SENS.
KEY FOLLOW
FM Source
Selector
VCO2
WAVE:
SAW/PULSE/SAW2/MIX
5
P1-10 97.9.19 2:16 PM Page 5
VARIATION EFFECT Wet:Dry
3-BAND EQUALIZER
1 Chorus 1 D63>W ~ D=W ~ D<W63 3-Band EQ
2 Chorus 2 D63>W ~ D=W ~ D<W63 DELAY EFFECT
3 Flanger D63>W ~ D=W ~ D<W63 1 Delay L,C,R
4 Symphonic D63>W ~ D=W ~ D<W63 2 Delay L,R
5 Phaser D63>W ~ D=W ~ D<W63 3 Echo
6 Auto PAN D63>W ~ D=W ~ D<W63 4 Cross Delay
7 Rotary Sp. D63>W ~ D=W ~ D<W63 5 Tempo Delay
8 Pitch Change D63>W ~ D=W ~ D<W63 REVERB EFFECT
9 Aural Exc Dry (1-63), Wet (64-127) 1 Hall1
10 Comp Dry (1-63), Wet (64-127) 2 Hall2
11 Wah D63>W ~ D=W ~ D<W63 3 Hall3
12 Distortion Dry (1-63), Both (64), Wet (65-127) 4 Room1
13 Over Drive Dry (1-63), Both (64), Wet (65-127) 5 Room2
14 Amp Sim. Dry (1-63), Both (64), Wet (65-127) 6 Stage1
7 Stage2
8 Plate
Effect Type List
Effect Parameter List
Variation Effect
CHORUS1, 2
No. Parameter Display Ctrl Matrix Value Table
1 Mod Freq 0.00~41.70Hz Common 0-159 table#1
2 PM Depth 0~100 0-100
3 AM Type off~RndHrd 0-15 table#4
4 Dly Offset 0~50.0ms 0-500
elm Dry:Wet D63>W ~ D=W ~ D<W63 Scene 1-127
FLANGER1
No. Parameter Display Ctrl Matrix Value Table
1 Mod Freq 0.00~41.70Hz Common 0-159 table#1
2 Mod Depth 0~100 0-100
3 Dly Offset 0~15.5ms 0-155
4 FB Level -99~+99 0-198
elm Dry:Wet D63>W ~ D=W ~ D<W63 Scene 1-127
SYMPHONIC
No. Parameter Display Ctrl Matrix Value Table
1 Mod Freq 0.00~41.70Hz Common 0-159 table#1
2 Mod Depth 0~100 0-100
3 Dly Offset 0~45.0ms 0-450
elm Dry:Wet D63>W ~ D=W ~ D<W63 Scene 1-127
PHASER
No. Parameter Display Ctrl Matrix Value Table
1 Mod Freq 0.00~41.70Hz Common 0-159 table#1
2 Mod Depth 0~100 0-100
3 Phase Shift Offset 0~100 0-100
4 FB Level -99~+99 0-198
5 Stage 4, 6, 8 0-2
6 Diffusion stereo, mono 0-1
elm Dry:Wet D63>W ~ D=W ~ D<W63 Scene 1-127
AUTO PAN
No. Parameter Display Ctrl Matrix Value Table
1 Speed 0.00~41.70Hz Common 0-159 table#1
2 L/R Depth 0~100 0-100
3 F/R Depth 0~100 0-100
4 PAN Direction L->R,L<-R,L<->R,Lturn,Rturn 0-4
elm Dry:Wet D63>W ~ D=W ~ D<W63 Scene 1-127
ROTARY SPEAKER
No. Parameter Display Ctrl Matrix Value Table
1 Speed 0.00~41.70Hz Common 0-159 table#1
2 Depth 0~100 0-100
3 HPF Thru~8.0kHz 0-52 table#2
4 LPF 1.0k~Thru 34-60 table#2
elm Dry:Wet D63>W ~ D=W ~ D<W63 Scene 1-127
PITCH CHANGE
No. Parameter Display Ctrl Matrix Value Table
1 Pitch -24~+24 Common 0-48
2 Fine 1 -50~+50 0-100
3 Pan 1 L63~R63 1-127
4 Fine 2 -50~+50 0-100
5 Pan 2 L63~R63 1-127
elm Dry:Wet D63>W ~ D=W ~ D<W63 Scene 1-127
AURAL EXCITER
No. Parameter Display Ctrl Matrix Value Table
1 HPF 500Hz~16.0kHz 28-58
2 Drive 0~100 Comn 0-100
3 Mix Level 0~100 0-100
elm Dry:Wet dry(1), wet(127) ---
*Limit ~63:dry(1), 64~:wet(127)
COMPRESSOR
No. Parameter Display Ctrl Matrix Value Table
1 Attack 1~40ms 0-19 table#5
2 Release 10~680ms 0-15 table#6
3 Threshold -48~-6dB Comn 0-42
4 Ratio 1.0~20.0 0-7 table#7
5 Out Level 0~100 0-100
elm Dry:Wet dry(1), wet(127) ---
*Limit ~63:dry(1), 64~:wet(127)
WAH
No. Parameter Display Ctrl Matrix Value Table
1 Sensitivity 0~100 0-100
2 Cutoff Freq Offset 20Hz~14.0kHz Comn 0-39 table#8
3 Resonance 1.0~10.0 0-90
elm Dry:Wet D63>W ~ D=W ~ D<W63 Scene 1-127
DISTORTION, OVERDRIVE
No. Parameter Display Ctrl Matrix Value Table
1 Drive 0~100 Comn 0-100
2 Mid Freq 100Hz~10.0kHz 14-54 table#2
3 Mid Gain -12~+12dB 52-76
4 High Freq 500Hz~16.0kHz 28-58 table#2
5 High Gain -12~+12dB 52-76
6 Out Level 0~100 0-100
elm Dry:Wet dry(1), both(64), wet(127) --- 1-127
*Limit ~63:dry(1), 65~:wet(127)
GUITAR AMP SIMULATOR
No. Parameter Display Ctrl Matrix Value Table
1 Drive 0~100 Comn 0-100
2 AMP Type Off,Stack,Combo,Tube 0-3
3 LPF 1.0k~Thru 34-60 table#2
4 Out Level 0~100 0-100
elm Dry:Wet dry(1), both(64), wet(127) --- 1-127
*Limit ~63:dry(1), 65~:wet(127)
6
P1-10 97.9.19 2:16 PM Page 6
No.
1
2
3
4
5
6
7
3-BAND EQ
Parameter
Low Freq
Low Gain
Mid Freq
Mid Gain
Mid Reso
High Freq
High Gain
DELAY EFFECT
DELAY L,C,R
Parameter
Lch Dly
Rch Dly
Cch Dly
Cch Level
FB Level
HPF
LPF
Return
DELAY L,R
Parameter
Lch Dly
Rch Dly
FB Dly 1
FB Dly 2
FB Level
HPF
LPF
Return
Parameter
Lch Dly
Lch FB Level
Rch Dly
Rch FB Level
HPF
LPF
Return
CROSS DELAY
Parameter
L->R Dly
L->R FB Level
R->L Dly
R->L FB Level
Input Select
HPF
LPF
Return
TEMPO DELAY
Parameter
Reference Dly
Lch Diffusion
Rch Diffusion
FB Level
HPF
LPF
Return
REVERB EFFECT
HALL1, HALL2, HALL3, ROOM1, ROOM2, STAGE1, STAGE2, PLATE
Parameter
Reverb Time
High Damp
Diffusion
Initial Dly
Er:Rev
HPF
LPF
Return
Display
32Hz~2.0kHz
-12~+12dB
100Hz~10.0kHz
-12~+12dB
1.0~12.0
500Hz~16.0kHz
-12~+12dB
Display
0.1~660.0ms
0.1~660.0ms
0.1~660.0ms
0~100
-99~+99
Thru~8.0kHz
1.0k~Thru
0~127
Display
0.1~660.0ms
0.1~660.0ms
0.1~660.0ms
0.1~660.0ms
-99~+99
Thru~8.0kHz
1.0k~Thru
0~127
Display
0.1~330.0ms
-99~+99
0.1~330.0ms
-99~+99
Thru~8.0kHz
1.0k~Thru
0~127
Display
0.1~330.0ms
-99~+99
0.1~330.0ms
-99~+99
L,R,L&R
Thru~8.0kHz
1.0k~Thru
0~127
Display
e specified:1/2, 3/8, 1/4, 3/16,
1/6, 1/8, 3/32, 1/12, 1/16, 1/24, 1/32
-20 - 20%
-20 - 20%
-99~+99
Thru~8.0kHz
1.0k~Thru
0~127
Display
0.3~30.0s
0.1~1.5
0~10
0.1~100.0ms
*
E63>R ~ E=R ~ E<R63
Thru~8.0kHz
1.0k~Thru
0~127
Ctrl Matrix
Ctrl Matrix
Comn
Ctrl Matrix
Comn
Ctrl Matrix
Comn
Ctrl Matrix
Comn
Ctrl Matrix
Comn
Ctrl Matrix
Comn
Value
4-40
52-76
14-54
52-76
10-120
28-58
52-76
Value
0-6599
0-6599
0-6599
0-100
0-198
0-52
34-60
Value
0-6599
0-6599
0-6599
0-6599
0-198
0-52
34-60
Value
0-3299
0-198
0-3299
0-198
0-52
34-60
Value
0-3299
0-198
0-3299
0-198
0-2
0-52
34-60
Value
44-84
44-84
0-198
0-52
34-60
Value
0-69
0-14
0-10
0-999
1-127
0-52
34-60
Table
table#2
table#2
table#2
Table
table#2
table#2
Table
table#2
table#2
Table
table#2
table#2
Table
table#2
table#2
Table
table#2
table#2
Table
table#3
table#2
table#2
No.
1
2
3
4
5
6
7
No.
1
2
3
4
5
6
7
ECHO
No.
1
2
3
4
5
6
No.
1
2
3
4
5
6
7
No.
1
2
3
4
5
6
No.
1
2
3
4
5
6
7
*
This Dly can be set 0.1 ~ 80ms when HALL1, 2 or 3 is selected.
7
P1-10 97.9.19 2:16 PM Page 7
Effect Parameter Tables
Table#1 Table#2 Table#3
Table#4
Table#5
Table#6
Table#7
Table#8
LFO Frequency EQ Frequency Reverb time
AM Type 
(Chorus)
Compressor 
Attack Time
Compressor 
Release Time
Compressor 
Ratio
Wah Cutoff 
Freq.
Data Value Data Value Data Value Data Value Data Value Data Value
Data Value
Data Value
Data Value
Data Value
0 0 64 5.39 128 20.85 0
THRU(20) 0 0.3 0 off
01
010
0 1.0
020
1 0.08 65 5.47 129 21.52 1 22 1 0.4 1 1xSft
12
115
1 1.5
132
2 0.17 66 5.56 130 22.2 2 25 2 0.5 2 1xMid
23
225
2 2.0
245
3 0.25 67 5.64 131 22.87 3 28 3 0.6 3 1xHrd
34
335
3 3.0
363
4 0.34 68 5.72 132 23.54 4 32 4 0.7 4 2xSft
45
445
4 5.0
480
5 0.42 69 5.81 133 24.21 5 36 5 0.8
64 17.0
65 18.0
66 19.0
67 20.0
68 25.0
69 30.0
5 2xMid
56
555
5 7.0
5 100
6 0.51 70 5.89 134 24.89 6 40 6 0.9 6 2xHrd
67
665
6 10.0
6 125
7 0.59 71 5.98 135 25.56 7 45 7 1.0 7 4xSft
78
775
7 20.0
7 160
8 0.67 72 6.06 136 26.23 8 50 8 1.1 8 4xMid
89
885
8 200
9 0.76 73 6.15 137 26.9 9 56 9 1.2 9 4xHrd
910
9 100
9 250
10 0.84 74 6.23 138 27.58 10 63 10 1.3 10 8xSft
10 12
10 115
10 280
11 0.93 75 6.31 139 28.25 11 70 11 1.4 11 8xMid
11 14
11 140
11 315
12 1.01 76 6.4 140 28.92 12 80 12 1.5 12 8xHrd
12 16
12 170
12 350
13 1.09 77 6.48 141 29.59 13 90 13 1.6 13 RdSft
13 18
13 230
13 400
14 1.18 78 6.57 142 30.27 14 100 14 1.7 14 RdMid
14 20
14 340
14 500
15 1.26 79 6.65 143 30.94 15 110 15 1.8 15 RdHrd
15 23
15 680
15 560
16 1.35 80 6.74 144 31.61 16 125 16 1.9
16 26
16 630
17 1.43 81 6.82 145 32.28 17 140 17 2.0
17 30
17 700
18 1.52 82 6.9 146 32.96 18 160 18 2.1
18 35
18 800
19 1.6 83 6.99 147 33.63 19 180 19 2.2
19 40
19 1.0k
20 1.68 84 7.07 148 34.3 20 200 20 2.3
20 1.2k
21 1.77 85 7.16 149 34.97 21 225 21 2.4
21 1.4k
22 1.85 86 7.24 150 35.65 22 250 22 2.5
22 1.6k
23 1.94 87 7.32 151 36.32 23 280 23 2.6
23 1.8k
24 2.02 88 7.41 152 36.99 24 315 24 2.7
24 2.0k
25 2.1 89 7.49 153 37.67 25 355 25 2.8
25 2.2k
26 2.19 90 7.58 154 38.34 26 400 26 2.9
26 2.5k
27 2.27 91 7.66 155 39.01 27 450 27 3.0
27 2.8k
28 2.36 92 7.75 156 39.68 28 500 28 3.1
28 3.2k
29 2.44 93 7.83 157 40.36 29 560 29 3.2
29 3.6k
30 2.53 94 7.91 158 41.03 30 630 30 3.3
30 4.0k
31 2.61 95 8 159 41.7 31 700 31 3.4
31 5.0k
32 2.69 96 8.08 32 800 32 3.5
32 5.6k
33 2.78 97 8.17 33 900 33 3.6
33 6.3k
34 2.86 98 8.25 34 1.0k 34 3.7
34 7.0k
35 2.95 99 8.33 35 1.1k 35 3.8
35 8.0k
36 3.03 100 8.42 36 1.2k 36 3.9
36 9.0k
37 3.12 101 8.5 37 1.4k 37 4.0
37 10.0k
38 3.2 102 8.59 38 1.6k 38 4.1
38 12.0k
39 3.28 103 8.67 39 1.8k 39 4.2
39 14.0k
40 3.37 104 8.76 40 2.0k 40 4.3
41 3.45 105 8.84 41 2.2k 41 4.4
42 3.54 106 8.92 42 2.5k 42 4.5
43 3.62 107 9.01 43 2.8k 43 4.6
44 3.7 108 9.09 44 3.2k 44 4.7
45 3.79 109 9.18 45 3.6k 45 4.8
46 3.87 110 9.26 46 4.0k 46 4.9
47 3.96 111 9.68 47 4.5k 47 5.0
48 4.04 112 10.11 48 5.0k 48 5.5
49 4.13 113 10.61 49 5.6k 49 6.0
50 4.21 114 11.44 50 6.3k 50 6.5
51 4.29 115 12.11 51 7.0k 51 7.0
52 4.38 116 12.78 52 8.0k 52 7.5
53 4.46 117 13.45 53 9.0k 53 8.0
54 4.55 118 14.13 54 10.0k 54 8.5
55 4.63 119 14.8 55 11.0k 55 9.0
56 4.71 120 15.47 56 12.0k 56 9.5
57 4.8 121 16.14 57 14.0k 57 10.0
58 4.88 122 16.82 58 16.0k 58 11.0
59 4.97 123 17.49 59 18.0k 59 12.0
60 5.05 124 18.16 60
THRU(20.0k)
60 13.0
61 5.14 125 18.83 61 14.0
62 5.22 126 19.51 62 15.0
63 5.3 127 20.18 63 16.0
8
P1-10 97.9.19 2:16 PM Page 8
Common Control Matrix
Parameter Name Ctrl Matrix : Param Ctrl Matrix : Calc Ctrl Matrix : Source
Group Param Name Data Value Multiply CC Data Range Vel Data Range KeyTrk Data Range
or Add AT KeyRnd
--- off 0 --- --- --- ---
ComnVolume 1 add
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63)
Comn Pan 2 add
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63)
Vari Param 3 add
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63)
Dly Return 4 add
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63)
Rev Return 5 add
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63)
Free EG Track 
Parameter List
Control Change Modes
Param (LCD)
off
VCF Type
VCF Cutoff
Resonance
FEG Depth
FEG Attack
FEG Decay
FEG Sustin
FEG Releas
VCF Mod Dp
FEG VelSns
VCF KeyTrk
HPF Cutoff
AEG Attack
AEG Decay
AEG Sustin
AEG Releas
VCA Mod Dp
AEG VelSns
VCA Feedbk
VCA Volume
VCO1 Level
VCO2 Level
Ring Mod
NoiseLevel
Algorithm
Sync Pitch
SyncPit Dp
SyncPitSrc
SyncPmodSw
FM Depth
FM Source1
FM Source2
LFO1 Wave
LFO1 Speed
LFO1 Delay
LFO2 Speed
Scene Tune
PEG Decay
PEG Depth
PEG Sw
Port Time
VCO1 Wave
VCO1 Pitch
VCO1 Fine
VCO1 Edge
VCO1 PW
VCO1PWM Dp
VCO1PWMSrc
VCO1PmodDp
VCO2 Wave
VCO2 Pitch
VCO2 Fine
VCO2 Edge
VCO2 PW
VCO2PWM Dp
VCO2PWMSrc
VCO2PmodDp
VarEF D:W
Pitch Up
Pitch Down
Param (LCD)
CC
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
00..95
MODE1
MODULATION MODULATION
FOOT CONTROLLER
PORTAMENTO TIME
DATA ENTRY MSB
MAIN VOLUME
PANPOT
EXPRESSION
RIBBON Z CONTROLLER
RIBBON X CONTROLLER
FOOT CONTROLLER
PORTAMENTO TIME
DATA ENTRY MSB
MAIN VOLUME
PANPOT
EXPRESSION
RIBBON Z CONTROLLER
RIBBON X CONTROLLER
DATA ENTRY LSB DATA ENTRY LSB
SUSTAIN SWITCH
PORTAMENTO SWITCH
SUSTAIN SWITCH
PORTAMENTO SWITCH
HARMONIC CONTENT (VCF FILTER RESONANCE)
RELEASE TIME (AMP EG RELEASE TIME)
ATTACK TIME (AMP EG ATTACK TIME)
BRIGHTNESS (VCF FILTER CUTOFF)
DECAY TIME (AMP EG DECAY TIME)
HARMONIC CONTENT (VCF FILTER RESONANCE)
RELEASE TIME (AMP EG RELEASE TIME)
ATTACK TIME (AMP EG ATTACK TIME)
BRIGHTNESS (VCF FILTER CUTOFF)
DECAY TIME (AMP EG DECAY TIME)
REVERB DEPTH
CHORUS (VARIATION) DEPTH
DELAY DEPTH
DATA ENTRY INC
DATA ENTRY DEC
ASSIGNABLE CONTROLLER
REVERB DEPTH
CHORUS (VARIATION) DEPTH
DELAY DEPTH
DATA ENTRY INC
DATA ENTRY DEC
ASSIGNABLE CONTROLLER
MODE2
SCENE SELECT
LAYER MODE
POLY/MONO MODE
LFO RESET MODE
LFO1 WAVE
LFO1 SPEED
LFO2 SPEED
VCO1 PiTCH MOD DEPTH
VCF FILTER MOD DEPTH
LFO1 DELAY
VCO1 PITCH COARSE TUNE
VCO SYNC PITCH
VCO SYNC PITCH DEPTH
VCO SYNC PITCH SOURCE
PEG DEPTH
PEG SWITCH
PEG DECAY
PEG SUSTAIN LEVEL
FEG RELEASE
VCF CUTOFF KBD TRACK
AMP EG SUSTAIN LEVEL
VCO ALGORITHM
VCO SYNC PITCH MOD SW
FM DEPTH
FM SOURCE1
FM SOURCE2
MIXER NOISE LEVEL
VCO1 WAVE TYPE
VCO2 WAVE TYPE
VCO2 PITCH COARSE TUNE
VCO2 PITCH FINE TUNE
VCO2 EDGE
VCO2 PULSE WIDTH
VCO2 PWM DEPTH
VCO2 PITCH MOD DEPTH
VCF HPF CUTOFF
VCF FILTER TYPE
FILTER EG VELOCITY SENS
AMP EG VELOCITY SENS
VCA VOLUME
VCA FEEDBACK LEVEL
MIXER VCO1 LEVEL
MIXER VCO2 LEVEL
RING MODULATOR LEVEL
VCO1 EDGE
VCO1 PITCH FINE TUNE
VCO1 PULSE WIDTH
VCO1 PWM DEPTH
VCA AMP MOD DEPTH
FILTER EG DEPTH
FILTER EG ATTACK
FILTER EG DECAY
PORTAMENTO MODE
VCO1 PWM SOURCE
VCO2 PWM SOURCE
ARPEGGIO/STEP SEQ SW
9
P1-10 97.9.19 2:16 PM Page 9
Control Matrix List And Free EG Track Parameter List
Parameter Name Ctrl Matrix : Param Ctrl Matrix : Calc Ctrl Matrix : Source Free EG : Trk Param
Group Param Name Data Value Multiply or Add *1
CC
Data Range Vel Data Range KeyTrk Data Range Data Value
AT
KeyRnd
--- off 0 --- --- --- --- 0
--- Scene Tune 1 add
xO
(-64) - (+63)
x
Pitch Up 2 add
O
(-24) - (+24)
xx
Pitch Down 3 add
O
(-24) - (+24)
xx
PEG PEG Decay 4 add *2
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 1
PEG Depth 5 mul
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 2
PEG Sw
xxx
3
Port Time 6 add
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 4
LFO LFO1 Wave
xxx
5
LFO1 Speed 7 add
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 6
LFO1 Delay 8 add
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 7
LFO2 Speed 9 add
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 8
SYNC/FM Algorithm
xxx
9
Sync Pitch 10 add
O
(-64) - (+63)
O
(-64) - (+63)
O
(-32) - (+32) 10
SyncPit Dp 11 mul
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 11
SyncPitSrc
xxx
12
SyncPmodSw
xxx
13
FM Depth 12 mul
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 14
FM Source1
xxx
15
FM Source2
xxx
16
VCO1 VCO1 Wave
xxx
17
VCO1 Pitch 13 add
xxO
(-64) - (+63) 18
VCO1 Fine 14 add
xxO
(-64) - (+63) 19
VCO1 Edge 15 add
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 20
VCO1 PW 16 add
O
(-64) - (+63)
xx
21
VCO1PWM Dp 17 mul
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 22
VCO1PWMSrc
xxx
23
VCO1PmodDp 18 add
O
(-63) - (+63)
xx
24
VCO2 VCO2 Wave
xxx
25
VCO2 Pitch 19 add
xxO
(-64) - (+63) 26
VCO2 Fine 20 add
xxO
(-64) - (+63) 27
VCO2 Edge 21 add
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 28
VCO2 PW 22 add
O
(-64) - (+63)
xx
29
VCO2PWM Dp 23 mul
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 30
VCO2PWMSrc
xxx
31
VCO2PmodDp 24 add
O
(-63) - (+63)
xx
32
MIX VCO1 Level 25 mul
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 33
VCO2 Level 26 mul
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 34
Ring Mod 27 mul
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 35
NoiseLevel 28 mul
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 36
VCF FEG Attack 29 add *2
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 37
FEG Decay 30 add *2
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 38
FEG Sustin 31 add
O
(-64) - (+63)
xx
39
FEG Releas 32 add *2
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 40
HPF Cutoff 33 add
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 41
VCF Type
xxx
42
VCF Cutoff 34 add
O
(-64) - (+63)
O
(-64) - (+63)
(x) VCF KeyTrk
43
Resonance 35 add
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 44
FEG Depth 36 mul
O
(-64) - (+63)
(Vel x) FEG VelSns O
(-64) - (+63) 45
KeyRnd
(-64) - (+63)
FEG VelSns
xxx
46
VCF KeyTrk
xxx
47
VCF Mod Dp 37 add
O
(-64) - (+63)
xx
48
VCA AEG Attack 38 add *2
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 49
AEG Decay 39 add *2
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 50
AEG Sustin 40 add
O
(-64) - (+63)
xx
51
AEG Releas 41 add *2
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) 52
VCA Feedbk 42 mul
O
(-64) - (+63)
xx
53
VCA Volume 43 mul
O
(-64) - (+63)
(Vel x) AEG VelSns O
(-64) - (+63) 54
KeyRnd
(-64) - (+63)
AEG VelSns
44
xxx
55
VCA Mod Dp add
O
(-64) - (+63)
xx
56
EF VarEF D:W *3 45 add
O
(-64) - (+63)
O
(-64) - (+63)
O
(-64) - (+63) ---
* 1. Adds or multiplies Control Matrix setting to Knob parameter settings. Also does so when the same parameter is selected for multiple Control Matrix settings.
* 2. Adds the value calculated in "Rate" (positive setting makes the EG faster), while the value is calculated in "Time" for the Knob parameters. 
* 3. No effect for the Aural Exciter, Compressor, Distortion, Over Drive and Guitar Amp Simulator. However, Direct Control functions even for these effects.
10
P1-10 97.9.19 2:16 PM Page 10
11
Many MIDI messages listed in the MIDI Data Format section are expressed in hexadecimal or binary numbers. Hexadecimal numbers
may include the letter “H” as a suffix. The letter “n” indicates a certain whole number.
The chart below lists the corresponding decimal number for each hexadecimal/binary number.
Decimal Hexadecimal Binary Decimal Hexadecimal Binary
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
00
01
02
03
04
05
06
07
08
09
0A
0B
0C
0D
0E
0F
10
11
12
13
14
15
16
17
18
19
1A
1B
1C
1D
1E
1F
20
21
22
23
24
25
26
27
28
29
2A
2B
2C
2D
2E
2F
30
31
32
33
34
35
36
37
38
39
3A
3B
3C
3D
3E
3F
0000 0000
0000 0001
0000 0010
0000 0011
0000 0100
0000 0101
0000 0110
0000 0111
0000 1000
0000 1001
0000 1010
0000 1011
0000 1100
0000 1101
0000 1110
0000 1111
0001 0000
0001 0001
0001 0010
0001 0011
0001 0100
0001 0101
0001 0110
0001 0111
0001 1000
0001 1001
0001 1010
0001 1011
0001 1100
0001 1101
0001 1110
0001 1111
0010 0000
0010 0001
0010 0010
0010 0011
0010 0100
0010 0101
0010 0110
0010 0111
0010 1000
0010 1001
0010 1010
0010 1011
0010 1100
0010 1101
0010 1110
0010 1111
0011 0000
0011 0001
0011 0010
0011 0011
0011 0100
0011 0101
0011 0110
0011 0111
0011 1000
0011 1001
0011 1010
0011 1011
0011 1100
0011 1101
0011 1110
0011 1111
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
40
41
42
43
44
45
46
47
48
49
4A
4B
4C
4D
4E
4F
50
51
52
53
54
55
56
57
58
59
5A
5B
5C
5D
5E
5F
60
61
62
63
64
65
66
67
68
69
6A
6B
6C
6D
6E
6F
70
71
72
73
74
75
76
77
78
79
7A
7B
7C
7D
7E
7F
0100 0000
0100 0001
0100 0010
0100 0011
0100 0100
0100 0101
0100 0110
0100 0111
0100 1000
0100 1001
0100 1010
0100 1011
0100 1100
0100 1101
0100 1110
0100 1111
0101 0000
0101 0001
0101 0010
0101 0011
0101 0100
0101 0101
0101 0110
0101 0111
0101 1000
0101 1001
0101 1010
0101 1011
0101 1100
0101 1101
0101 1110
0101 1111
0110 0000
0110 0001
0110 0010
0110 0011
0110 0100
0110 0101
0110 0110
0110 0111
0110 1000
0110 1001
0110 1010
0110 1011
0110 1100
0110 1101
0110 1110
0110 1111
0111 0000
0111 0001
0111 0010
0111 0011
0111 0100
0111 0101
0111 0110
0111 0111
0111 1000
0111 1001
0111 1010
0111 1011
0111 1100
0111 1101
0111 1110
0111 1111
Additional Notes
For example, 144 - 159(Decimal)/9nH/1001 0000 - 1001 1111(Binary) indicate the note-on messages for the channels 1 through 16
respectively. 176 - 191/BnH/1011 0000 - 1011 1111 indicate the control change messages for the channels 1 through 16 respectively. 192 -
207/CnH/1100 0000 - 1100 1111 indicate the program change messages for the channels 1 through 16 respectively. 240/F0H/1111 0000 is
positioned at the beginning of data to indicate a system exclusive message. 247/F7H/1111 0111 is positioned at the end of the system
exclusive message.
aaH(Hexadecimal)/0aaaaaaa(Binary) indicates the data addresses. The data address consists of High, Mid and Low.
bbH/0bbbbbbb indicates byte counts.
ccH/0ccccccc indicates tcheck sums.
ddH/0ddddddd indicates data/value.
Synthesizer Section
(1) TRANSMIT FLOW
SW1
MIDI<-[]—-+———-NOTE ON/OFF 9nH
OUT | |
| +———-CONTROL CHANGE *1
| | MODULATION BnH,01H
| | FOOT CONTROLLER BnH,04H
| | MAIN VOLUME BnH,07H
| | SUSTAIN SWITCH BnH,40H
| | RIBBON Z CONTROLLER BnH,0CH
| | RIBBON X CONTROLLER BnH,0DH
| | HARMONIC CONTENT BnH,47H
| | RELEASE TIME BnH,48H
| | ATTACK TIME BnH,49H
| | BRIGHTNESS BnH,4AH
| | DECAY TIME BnH,4BH
| | ASSIGNABLE BnH,00H...5FH
||
| +———-PROGRAM CHANGE CnH
||
| +———-CHANNEL AFTER TOUCH DnH
||
| +———-PITCH BEND CHANGE EnH
|SW2
+-[]-+———-NOTE ON/OFF 9nH
| |SW4
| +-[]——CONTROL CHANGE
| |SW4 ASSIGNABLE BnH,00H...5FH
| +-[]——CHANNEL AFTER TOUCH DnH
|
|SW3
+-[]-+———-SYSTEM EXCLUSIV MESSAGE
| | <BULK DUMP>
| |———-SYSTEM F0H 43H 0nH 5CH bbH bbH 00H 00H 00H ddH.....ddH ccH F7H
| |———-USER SEQ F0H 43H 0nH 5CH bbH bbH 01H aaH 00H ddH.....ddH ccH F7H
| |———-CURRENT VOICE F0H 43H 0nH 5CH bbH bbH 10H 00H 00H ddH.....ddH ccH F7H
| |———-CURRENT SEQ F0H 43H 0nH 5CH bbH bbH 10H 0EH 00H ddH.....ddH ccH F7H
| |———-CURRENT SCENE1 F0H 43H 0nH 5CH bbH bbH 10H 10H 00H ddH.....ddH ccH F7H
| |———-CURRENT SCENE2 F0H 43H 0nH 5CH bbH bbH 10H 11H 00H ddH.....ddH ccH F7H
| |[SW5]—CURRENT SCENE_CTRL F0H 43H 0nH 5CH bbH bbH 10H 12H 00H ddH.....ddH ccH F7H
| |———-USER VOICE F0H 43H 0nH 5CH bbH bbH 11H aaH 00H ddH.....ddH ccH F7H
||
| | <PARAMETER CHANGE>
| |———-SYSTEM F0H 43H 1nH 5CH 00H 00H aaH ddH.....ddH F7H
| |———-CURRENT VOICE F0H 43H 1nH 5CH 10H 00H aaH ddH.....ddH F7H
| |———-CURRENT SEQ F0H 43H 1nH 5CH 10H 0EH aaH ddH.....ddH F7H
| |———-CURRENT SCENE1 F0H 43H 1nH 5CH 10H 10H aaH ddH.....ddH F7H
| |———-CURRENT SCENE2 F0H 43H 1nH 5CH 10H 11H aaH ddH.....ddH F7H
| |[SW5]—CURRENT SCENE_CTRL F0H 43H 1nH 5CH 10H 12H aaH ddH.....ddH F7H
|
+—-+————SYSTEM EXCLUSIV MESSAGE
| IDENTITY REPLY F0H 7EH 7FH 06H 02H 43H 00H 41H ddH ddH
| 00H 00H 00H 7EH F7H
+——————ACTIVE SENSING FEH
SW1 [] MIDI Transmit Channel
Depends on Keyboard Transmit Channel Set in System Data
SW2 [] MIDI Transmit Channel (ARPEGGIO/STEP SEQ)
Depends on Arpeggio/Step SEQ Transmit Channel in System Data
SW3 [] MIDI Device Number
If Device Number=all, then transmit Device Number=1
SW4 [] ARPEGGIO/STEP SEQ SELECT
Available only when Step Sequencer is selected.
SW5 [] SCENE SELECT
Available only when Scene Select is set to “Scene Control”.
*1 If Control Change Mode is “mode2”, then additional Control Change numbers are transmitted. (See (3-1-6).)
(2) RECEIVE FLOW
MIDI ->—+————+
IN | |
+—+ |
| +————+
| |SW6
| |-[]-+——NOTE OFF 8nH
|| |
| | +——NOTE ON/OFF 9nH
|| |
| | +——CONTROL CHANGE *1
| | | MODULATION BnH,01H
| | | FOOT CONTROLLER BnH,04H
| | | PORTAMENTO TIME BnH,05H
| | | DATA ENTRY MSB BnH,06H
| | | DATA ENTRY LSB BnH,26H
| | | MAIN VOLUME BnH,07H
| | | PANPOT BnH,0AH
| | | EXPRESSION BnH,0BH
| | | SUSTAIN SWITCH BnH,40H
| | | PORTAMENTO SWITCH BnH,41H
| | | HARMONIC CONTENT BnH,47H
| | | RELEASE TIME BnH,48H
| | | ATTACK TIME BnH,49H
| | | BRIGHTNESS BnH,4AH
| | | REVERB DEPTH BnH,5BH
| | | CHORUS(VARIATION) DEPTH BnH,5DH
| | | DELAY DEPTH BnH,5EH
| | | DATA ENTRY INC BnH,60H
| | | DATA ENTRY DEC BnH,61H
| | | ASSIGNABLE CONTROLLER BnH,00H..5FH
| | | RPN
| | | PITCH BEND SENS BnH,64H,00H,65H,00H,06H,mmH
| | | RPN RESET BnH,64H,7FH,65H,7FH
| | | ALL SOUND OFF BnH,78H,00H
| | | RESET ALL CONTROLLERS BnH,79H,00H
| | | ALL NOTE OFF BnH,7BH
| | | OMNI MODE OFF BnH,7CH
| | | OMNI MODE ON BnH,7DH
| | | MONO MODE BnH,7EH
| | | POLY MODE BnH,7FH
|| |
| | +——PROGRAM CHANGE CnH
|| |
| | +——CHANNEL AFTER TOUCH DnH
|| |
| | +——PITCH BEND CHANGE EnH
| |SW3
| +-[]-+——SYSTEM EXCLUSIV MESSAGE
| | | <BULK DUMP>
| | |———SYSTEM F0H 43H 0nH 5CH bbH bbH 00H 00H 00H ddH.....ddH ccH F7H
P11-19 97.9.19 2:24 PM Page 11
12
| | |———USER SEQ F0H 43H 0nH 5CH bbH bbH 01H aaH 00H ddH.....ddH ccH F7H
| | |———CURRENT VOICE F0H 43H 0nH 5CH bbH bbH 10H 00H 00H ddH.....ddH ccH F7H
| | |———CURRENT SEQ F0H 43H 0nH 5CH bbH bbH 10H 0EH 00H ddH.....ddH ccH F7H
| | |———CURRENT SCENE1 F0H 43H 0nH 5CH bbH bbH 10H 10H 00H ddH.....ddH ccH F7H
| | |———CURRENT SCENE2 F0H 43H 0nH 5CH bbH bbH 10H 11H 00H ddH.....ddH ccH F7H
| | |[SW5]-CURRENT SCENE_CTRL F0H 43H 0nH 5CH bbH bbH 10H 12H 00H ddH.....ddH ccH F7H
| | |———USER VOICE F0H 43H 0nH 5CH bbH bbH 11H aaH 00H ddH.....ddH ccH F7H
|||
| | | <PARAMETER CHANGE>
| | |———DX1 MASTER TUNING F0H 43H 1nH 04H 40H ddH F7H
| | |———SYSTEM F0H 43H 1nH 5CH 00H 00H aaH ddH.....ddH F7H
| | |———CURRENT VOICE F0H 43H 1nH 5CH 10H 00H aaH ddH.....ddH F7H
| | |———CURRENT VOICE_SEQ F0H 43H 1nH 5CH 10H 0EH aaH ddH.....ddH F7H
| | |———CURRENT SCENE1 F0H 43H 1nH 5CH 10H 10H aaH ddH.....ddH F7H
| | |———CURRENT SCENE2 F0H 43H 1nH 5CH 10H 11H aaH ddH.....ddH F7H
| | |[SW5]-CURRENT SCENE_CTRL F0H 43H 1nH 5CH 10H 12H aaH ddH.....ddH F7H
|||
| | | <BULK DUMP REQUEST>
| | |———SYSTEM F0H 43H 2nH 5CH 00H 00H 00H F7H
| | |———USER SEQ F0H 43H 2nH 5CH 01H aaH 00H F7H
| | |———CURRENT VOICE F0H 43H 2nH 5CH 10H 00H 00H F7H
| | |———CURRENT VOICE_SEQ F0H 43H 2nH 5CH 10H 0EH 00H F7H
| | |———CURRENT SCENE1 F0H 43H 2nH 5CH 10H 10H 00H F7H
| | |———CURRENT SCENE2 F0H 43H 2nH 5CH 10H 11H 00H F7H
| | |[SW5]-CURRENT SCENE_CTRL F0H 43H 2nH 5CH 10H 12H 00H F7H
| | |———USER VOICE F0H 43H 2nH 5CH 11H aaH 00H F7H
||
| |———SYSTEM EXCLUSIV MESSAGE
| MIDI MASTER VOLUME F0H 7FH 7FH 04H 01H llH mmH F7H
| IDENTITY REQUEST F0H 7EH 0nH 06H 01H F7H
|
|———-+—SYSTEM EXCLUSIV MESSAGE
| TEST ENTRY F0H 43H 10H 18H 5AH 00H F7H
| LCD HARD COPY F0H 43H 10H 18H 5AH 01H F7H
|
+——TIMING CLOCK F8H
+——ACTIVE SENSING FEH
SW3 [] MIDI Device Number
SW4 [] ARPEGGIO/STEP SEQ SELECT
Available only when Step Sequencer is selected.
SW5 [] SCENE SELECT
Available only when Scene Select is set to “Scene Control”.
SW6 [] MIDI Receive Channel
Depends on Receive Channel set in System Data.
*1 If Control Change Mode is “mode2”, then additional Control Change numbers are received. (See (3-1-6).)
(3) TRANSMIT/RECEIVE DATA
(3-1) CHANNEL VOICE MESSAGES
(3-1-1) NOTE OFF
STATUS 1000nnnn(8nH) n = 0 ~ 15; MIDI RECEIVE CHANNEL
NOTE NUMBER 0kkkkkkk k = 0(C-2)~127(G8)
VELOCITY 0vvvvvvv ignores “v”
Reception only.
(3-1-2) NOTE ON/OFF
STATUS 1001nnnn(9nH) n = 0 ~ 15; MIDI TRANSMIT/RECEIVE CHANNEL
NOTE NUMBER 0kkkkkkk k = 0(C-2)~127(G8); when receiving
k = 36(C1)~96(C6); when transmitting
k = 0(C-2)~127(G8); selectable when transposed
VELOCITY 0vvvvvvv (v0) NOTE ON
00000000 (v=0) NOTE OFF
(3-1-3) PROGRAM CHANGE
STATUS 1100nnnn(CnH) n = 0 ~ 15; MIDI TRANSMIT/RECEIVE CHANNEL
PROGRAM NUMBER 0ppppppp p = 0 ~ 127
(3-1-4) CHANNELAFTER TOUCH
STATUS 1101nnnn(DnH) n = 0 ~ 15; MIDI TRANSMIT/RECEIVE CHANNEL
VALUE 0vvvvvvv v = 0 ~ 127 AFTER TOUCH VALUE
(3-1-5) PITCH BEND CHANGE
STATUS 1110nnnn(EnH) n = 0 ~ 15; MIDI TRANSMIT/RECEIVE CHANNEL
LSB 0vvvvvvv PITCH BEND CHANGE LSB
MSB 0vvvvvvv PITCH BEND CHANGE MSB
Transmitted with a resolution of 7 bits.
(3-1-6) CONTROL CHANGE
STATUS 1011nnnn(BnH) n = 0 ~ 15; MIDI TRANSMIT/RECEIVE CHANNEL
CONTROL NUMBER 0ccccccc
CONTROL VALUE 0vvvvvvv
* TRANSMITTED CONTROL NUMBERS
c = 1 MODULATION ; v = 0 - 127 *1
c = 4 FOOT CONTROLLER ; v = 0 - 127 *1
c = 7 MAIN VOLUME ; v = 0 - 127 *1
c = 12 RIBBON Z CONTROLLER ; v = 0 - 127 *1
c = 13 RIBBON X CONTROLLER ; v = 0:-64 - 64:0 - 127:+63 *1
c = 64 SUSTAIN SWITCH ; v = 0-63:OFF, 64-127:ON *1
c = 71 HARMONIC CONTENT ; v = 0 - 127
c = 72 RELEASE TIME ; v = 0 - 127
c = 73 ATTACK TIME ; v = 0 - 127
c = 74 BRIGHTNESS ; v = 0 - 127
c = 75 DECAY TIME ; v = 0 - 127
c = 00..95 ASSIGNABLE CONT ; v = 0 - 127
* RECEIVED CONTROL NUMBER
c = 1 MODULATION ; v = 0 - 127
c = 4 FOOT CONTROLLER ; v = 0 - 127 *1
c = 5 PORTAMENTO TIME ; v = 0 - 127
c = 6 DATA ENTRY MSB ; v = 0 - 127 *2
c = 38 DATA ENTRY LSB ; v = 0 - 127 *2
c = 7 MAIN VOLUME ; v = 0 - 127
c = 10 EXPRESSION ; v = 0 - 127
c = 12 RIBBON Z CONTROLLER ; v = 0 - 127 *1
c = 13 RIBBON X CONTROLLER ; v = 0:-64 - 64:0 - 127:+63 *1
c = 64 SUSTAIN SWITCH ; v = 0-63:OFF, 64-127:ON
c = 65 PORTAMENTO SWITCH ; v = 0-63:OFF, 64-127:ON
c = 71 HARMONIC CONTENT ; v = 0 - 127
(VCF FILTER RESONANCE)
c = 72 RELEASE TIME ; v = 0 - 127
(AMP EG RELEASE TIME)
c = 73 ATTACK TIME ; v = 0 - 127
(AMP EG ATTACK TIME)
c = 74 BRIGHTNESS ; v = 0 - 127
(VCF FILTER CUTOFF)
c = 75 DECAY TIME ; v = 0 - 127
c = 91 REVERB DEPTH ; v = 0 - 127
c = 93 CHORUS(VARIATION) DEPTH ; v = 0 - 127
c = 94 DELAY DEPTH ; v = 0 - 127
c = 96 DATA ENTRY INC ; v = 127 *2
c = 97 DATA ENTRY DEC ; v = 127 *2
c = 00..95 ASSIGNABLE CONTROLLER ; v = 0 - 127
*1 Preset CONTROL CHANGE NUMBER at the factory. Can be changed.
*2 Used only when assigning the parameter with RPN numbers.
In addition, the following CONTROL NUMBERs will be transmitted/received when Control Change Mode 2 is selected. (These are unique
to the AN1x and therefore not in accordance with the MIDI 1.0 standard.)
c = 3 SCENE SELECT ; v = 0 - 127
c = 8 LAYER MODE ; v = 0 - 127
c = 9 POLY/MONO MODE ; v = 0 - 127
c = 14 LFO RESET MODE ; v = 0 - 127
c = 15 LFO1 WAVE ; v = 0 - 127
c = 16 LFO1 SPEED ; v = 0 - 127
c = 17 LFO2 SPEED ; v = 0 - 127
c = 18 VCO1 PITCH MOD DEPTH ; v = 0 - 127
c = 19 VCF FILTER MOD DEPTH ; v = 0 - 127
c = 20 LFO1 DELAY ; v = 0 - 127
c = 21 VCO1 PITCH COARSE TUNE ; v = 0 - 127
c = 22 VCO SYNC PITCH ; v = 0 - 127
c = 23 VCO SYNC PITCH DEPTH ; v = 0 - 127
c = 24 VCO SYNC PITCH SOURCE ; v = 0 - 127
c = 25 PEG DEPTH ; v = 0 - 127
c = 26 PEG SWITCH ; v = 0 - 127
c = 27 PEG DECAY ; v = 0 - 127
c = 28 PEG SUSTAIN LEVEL ; v = 0 - 127
c = 29 FEG RELEASE ; v = 0 - 127
c = 30 VCF CUTOFF KBD TRACK ; v = 0 - 127
c = 31 AMP EG SUSTAIN LEVEL ; v = 0 - 127
c = 33 VCO ALGORITHM ; v = 0 - 127
c = 34 VCO SYNC PITCH MOD SW ; v = 0 - 127
c = 35 FM DEPTH ; v = 0 - 127
c = 36 FM SOURCE1 ; v = 0 - 127
c = 37 FM SOURCE2 ; v = 0 - 127
c = 39 MIXER NOISE LEVEL ; v = 0 - 127
c = 50 VCO1 WAVE TYPE ; v = 0 - 127
c = 51 VCO2 WAVE TYPE ; v = 0 - 127
c = 52 VCO2 PITCH COARSE TUNE ; v = 0 - 127
c = 53 VCO2 PITCH FINE TUNE ; v = 0 - 127
c = 54 VCO2 EDGE ; v = 0 - 127
c = 55 VCO2 PULSE WIDTH ; v = 0 - 127
c = 56 VCO2 PWM DEPTH ; v = 0 - 127
c = 57 VCO2 PITCH MOD DEPTH ; v = 0 - 127
c = 58 VCF HPF CUTOFF ; v = 0 - 127
c = 59 VCF FILTER TYPE ; v = 0 - 127
c = 60 FILTER EG VELOCITY SENS ; v = 0 - 127
c = 61 AMP EG VELOCITY SENS ; v = 0 - 127
c = 62 VCA VOLUME ; v = 0 - 127
c = 63 VCA FEED BACK LEVEL ; v = 0 - 127
c = 68 MIXER VCO1 LEVEL ; v = 0 - 127
c = 69 MIXER VCO2 LEVEL ; v = 0 - 127
c = 70 RING MODULATOR LEVEL ; v = 0 - 127
c = 76 VCO1 EDGE ; v = 0 - 127
c = 77 VCO1 PITCH FINE TUNE ; v = 0 - 127
c = 78 VCO1 PULSE WIDTH ; v = 0 - 127
c = 79 VCO1 PWM DEPTH ; v = 0 - 127
c = 80 VCA AMP MOD DEPTH ; v = 0 - 127
c = 81 FILTER EG DEPTH ; v = 0 - 127
c = 82 FILTER EG ATTACK ; v = 0 - 127
c = 83 FILTER EG DECAY ; v = 0 - 127
c = 85 PORTAMENTO MODE ; v = 0 - 127
c = 86 VCO1 PWM SOURCE ; v = 0 - 127
c = 87 VCO2 PWM SOURCE ; v = 0 - 127
c = 90 ARPEGGIO/STEP SEQ SW ; v = 0 - 127
MODULATION is used to control vibrato depth.
PORTAMENTO TIME sets the time it takes for the pitch to reach the next note played when PORTAMENT SWITCH (CONTROL #65) is set
to on. 0 is the minimum time and 127 is the maximum.
PANPOT position relatively changes accordiong to the preset value for each voice.
REVERB DEPTH controls reverb send level.
CHORUS DEPTH overwrites the Dry: Wet value of the Variation Effect directly for each voice.
DELAY DEPTH controls delay send level.
HARMONIC CONTENT adjusts the resonance preset for each voice. Setting a value adds to or subtracts from the center value 64 since it is
an offset parameter. Higher values produce more resonance. The effective range may be narrower than the range you can designate depending
on the selected voice.
RELEASE TIME adjusts the envelop release time preset for each voice. Setting a value adds to or subtracts from the center value 64 since it
is an offset parameter.
ATTACK TIME adjusts the envelop attack time preset for each voice. Setting a value adds to or subtracts from the center value 64 since it is
an offset parameter.
BRIGHTNESS adjusts the cutoff frequency preset for each voice. Setting a value adds to or subtracts from the center value 64 since it is an
offset parameter. Lower valnes produce a warmer sound. The effective range may be narrower than the range you can designate depending on
the selected voice.
(3-2) CHANNEL MODE MESSAGES
STATUS 1011nnnn(BnH) n = 0 ~ 15 ;MIDI RECEIVE CHANNEL
CONTROL NUMBER 0ccccccc c = CONTROL NUMBER
CONTROL VALUE 0vvvvvvv v = DATA VALUE
(3-2-1) ALL SOUND OFF (CONTROL NUMBER = 78H , DATA VALUE = 0)
All the sounds currently played including the channel messages such as note-on and hold-on in a certain channel are canceled when
receiving this message.
(3-2-2) RESET ALL CONTROLLERS (CONTROL NUMBER = 79H , DATA VALUE = 0)
Resets the values set for the following controllers.
PITCH BEND CHANGE 0 (Center)
AFTER TOUCH 0 (Minimum)
MODULATION 0 (Minimum)
EXPRESSION 127 (Maximum)
SUSTAIN SWITCH 0 (Off)
P11-19 97.9.19 2:24 PM Page 12
13
RPN Not assigned; no change
PORTAMENTO SWITCH 0 (Off)
FOOT CONTROLLER 0 (Minimum)
RIBBON X CONTROLLER 64 (No effect)
RIBBON Z CONTROLLER 0 (Minimum)
VOLUME 127 (Maximum)
PAN 64 (No effect)
REVERB DEPTH 127 (Maximum)
CHORUS(VARIATION) DEPTH No change
DELAY DEPTH 127 (Maximum)
(3-2-3) ALL NOTE OFF (CONTROL NUMBER = 7BH , DATA VALUE = 0)
All the notes currently set to on in a certain channel are muted when receiving this message. However, if Hold 1 or Sostenute is on, notes
will continue sounding until these are turned off.
(3-2-4) OMNI MODE OFF (CONTROL NUMBER = 7CH , DATA VALUE = 0)
Performs the same function as when receiving ALL NOTES OFF.
(3-2-5) OMNI MODE ON (CONTROL NUMBER = 7DH , DATA VALUE = 0)
Performs the same function as when receiving ALL NOTES OFF. Not to change to OMNI ON.
(3-2-6) MONO (CONTROL NUMBER = 7EH , DATA VALUE = 0)
Performs the same function as when receiving ALL SOUNDS OFF. If the 3rd byte (mono) is within 0 through 16, the channel will be
Mode4 (m = 1).
(3-2-7) POLY (CONTROL NUMBER = 7FH , DATA VALUE = 0)
Performs the same function as when receiving ALL SOUNDS OFF. The channel will be Mode3.
(3-3) REGISTERED PARAMETER NUMBER
STATUS 1011nnnn(BnH) n = 0 ~ 15; MIDI RECEIVE CHANNEL
LSB 01100100(64H)
RPN LSB 0ppppppp p = RPN LSB(See chart below)
MSB 01100101(65H)
RPN MSB 0qqqqqqq q = RPN MSB(See chart below)
DATA ENTRY MSB 00000110(06H)
DATA VALUE 0mmmmmmm m = Data Value
DATA ENTRY LSB 00100110(26H)
DATA VALUE 0lllllll l = Data Value
First, designate the parameter using RPN MSB/LSB numbers. Then, set its value with data entry MSB/LSB.
RPN D.ENTRY
LSB MSB MSB LSB PARAMETER NAME DATA RANGE
00H 00H mmH --- PITCH BEND SENSITIVITY 00H - 18H (0 - 24 semitones)
7FH 7FH --- --- RPN RESET Cancels RPN numbers
The internal value is not affected.
(3-4) SYSTEM REAL TIME MESSAGES
(3-4-1) ACTIVE SENSING
STATUS 11111110 (FEH)
Transmitted every 260 msec.
Once this code is received, the AN1x starts sensing. When no status data is received for over approximately 360 ms, MIDI receiving buffer will
be cleared, and the sounds currently played and the sustain switch are forcibly turned off. In this case, each control data will be reset to a certain
value.
(3-4-2) TIMING CLOCK(Receive only)
STATUS 11111000 (F8H)
Selects whether the tempo clock of the Arpeggiator, Step Sequencer and FreeEG is controlled by internal clock or the timing clock of an external
device via MIDI.
(3-5) SYSTEM EXCLUSIVE MESSAGE
(3-5-1) UNIVERSAL NON REALTIME MESSAGE
(3-5-1-1) IDENTITY REQUEST (Receive only)
F0H 7EH 0nH 06H 01H F7H
(3-5-1-2) IDENTITY REPLY (Transmit only)
F0H 7EH 7FH 06H 02H 43H 00H 41H ddH ddH 00H 00H 00H vvH F7H
dd;Device Number CodeÅ@AN1x: 1A 02
vv;TG Support Level AN1x: 7E
(3-5-2) UNIVERSAL REALTIME MESSAGE
(3-5-2-1) MIDI MASTER VOLUME
F0H 7FH 7FH 04H 01H llH mmH F7H
Sets the MASTER VOLUME value.
The value “mm” is used to set the master volume (the value “ll” will be ignored).
(3-5-3) PARAMETER CHANGE
(3-5-3-1) DX1 MASTER TUNING
F0H 43H 1nH 04H 40H ddH F7H
When AN1x receives the DX1 compatible format, MASTER TUNE in the System Data will be changed.
The value “dd” is used to set the master tuning.
dd = -64(00H) ~ 0(40H) ~ +63(7FH)
(3-5-3-2) PARMETER CHANGE
11110000 F0 Exclusive status
01000011 43 YAMAHA ID
0001nnnn 1n device Number
01011100 5C Model ID
0aaaaaaa aaaaaaa Address High
0aaaaaaa aaaaaaa Address Mid
0aaaaaaa aaaaaaa Address Low
0ddddddd ddddddd Data
||
11110111 F7 End of Exclusive
For parameters with data size of 2, transmit the appropriate number of data bytes.
See MIDI Data Table for Address and Byte Count.
The following six types of data are transmitted/received.
System Data
Current Voice Common Data
Current Voice Scene1 Data
Current Voice Scene2 Data
Current Voice Scene Ctrl Data
Current Step SEQ Data
(3-5-4) BULK DUMP
11110000 F0 Exclusive status
01000011 43 YAMAHA ID
0000nnnn 0n device Number
01011100 5C Model ID
0bbbbbbb bbbbbbb ByteCount
0bbbbbbb bbbbbbb ByteCount
0aaaaaaa aaaaaaa Address High
0aaaaaaa aaaaaaa Address Mid
0aaaaaaa aaaaaaa Address Low
00000000 00 Data
||
0ccccccc ccccccc Check-sum
11110111 F7 End of Exclusive
See MIDI Data Table for Address and Byte Count.
The Check sum is the value that results in a value of 0 for the lower 7 bits when the Byte Count, Start Address, Data and Check sum itself are
added.
The following eight types of data are transmitted/received.
System Data
Current Voice Common Data
Current Voice Scene1 Data
Current Voice Scene2 Data
Current Voice Scene Ctrl Data
Current Step SEQ Data
User Voice Data
User Step SEQ Data
(3-5-5) DUMP REQUEST
11110000 F0 Exclusive status
01000011 43 YAMAHA ID
0010nnnn 2n device Number
01011100 5C Model ID
0aaaaaaa aaaaaaa Address High
0aaaaaaa aaaaaaa Address Mid
0aaaaaaa aaaaaaa Address Low
11110111 F7 End of Exclusive
See MIDI Data Table for Address and Byte Count.
The following eight types of data are received.
System Data
Current Voice Common Data
Current Voice Scene1 Data
Current Voice Scene2 Data
Current Voice Scene Ctrl Data
Current Step SEQ Data
User Voice Data
User Step SEQ Data
(4) CONFIGURATION OF KEYBOARD, ARPEGGIATOR AND TONE GENERATOR
+-----------+ +--------------+
| MIDI IN | | KEYBOARD |
+-----------+ +--------------+
||
V|
[Receive Channel] |
||
VV
+----------->+<--[LOCAL SW]<----+---------------------------------+
|| | |
|| V |
| | [LOCAL SW] |
|| | |
|V | |
| +---------------+ | |
| |ARPEGGIATOR/ | | |
| | STEP SEQUENCER| | |
| +---------------+ | |
|| | |
| +-------------------|----------------+ |
|| | | |
| | | [PATTERN |
V V V Transmit Channel] |
+------------+-------------------+ | |
| | [Transmit Channel]
|||
| +---------------+
||
VV
+-----------------------+ +-------------------+
| TONE GENERATOR | | MIDI OUT |
+-----------------------+ +-------------------+
The tone generator will respond to both note data received via MIDI and the data generated by the AN1x such as note data and control data.
ALL SOUNDS OFF clears all the sounds in the specific channel played by both the keyboard and the data via MIDI.
MIDI Data Table <1-1>
Parameter Base Address
Parameter Change Address Description
(H) (M) (L)
SYSTEM 00 00 00 System
USER PATTERN 01 00 00 User Pattern 1 (only Bulk Dump)
:
01 7F 00 User Pattern 128 (only Bulk Dump)
CURRENT VOICE 10 00 00 Current Voice Common Buffer
10 10 00 Current Voice Scene 1 Buffer
10 11 00 Current Voice Scene 2 Buffer
P11-19 97.9.19 2:24 PM Page 13
14
10 12 00 Current Voice Scene Ctrl Buffer
CURRENT PATTERN 10 0E 00 Current Pattern Buffer
USER VOICE 11 00 00 User Voice 1 (only Bulk Dump)
:
11 7F 00 User Voice 128 (only Bulk Dump)
MIDI Data Table <1-2>
MIDI Parameter Change Table (System)
Address Size Data Prameter Name Description Default
(H) (H) (H) value(H)
00 00 00 2 0AA...356 Master tune -100.0(0AA)...+100.0 cent(356) 200(+0)
02 1 1C...64 Keyboard Transpose -36(1C)...+36(64) 40(+0)
03 1 00...05 Keyboard Velocity Curve normal(0),soft1(1),soft2(2), 04(wide)
easy(3),wide(4),hard(5)
04 1 00...7F Keyboard Fixed Velocity off(0),1...127 00(off)
05 1 00...04 Effect Bypass off(0),rev(1),dly(2),rev&dly(3),
all(4) 00(off)
06 1 00...7F Keyboard Transmit Channel 1(0)...16(0F),off(7F) 00(1)
07 1 00...7F Arpeggio/Step Seq 1(0)...16(0F),off(7F) 00(1)
Transmit Channel
08 1 00...7F Receive Channel1 1(0)...16(0F),off(7F) 00(1)
09 1 00...7F Receive Channel2 1(0)...16(0F),off(7F) 00(1)
0a 1 00...11 Midi Device Number 1(0)...16(0F),all(10),off(11) 10(all)
0b 1 00...01 Midi Local off(0),on(1) 01(on)
0c 1 00...60 Scene Ctrl Number off(0),1...95,AT(60) 01(1)
0d 1 00...60 MW Ctrl Number off(0),1...95,AT(60) 01(1)
0e 1 00...60 FV Ctrl Number off(0),1...95,AT(60) 07(7)
0f 1 00...60 FC Ctrl Number off(0),1...95,AT(60) 04(4)
10 1 00...60 FS Ctrl Number off(0),1...95,AT(60) 40(64)
11 1 00...60 Ribbon X Ctrl Number off(0),1...95,AT(60) 0d(13)
12 1 00...60 Ribbon Z Ctrl Number off(0),1...95,AT(60) 0c(12)
13 1 00...62 Assinable Knob 1 Number off(0),1...95,AT(60), 28(41)
Data Entry(61),Tempo(62)
14 1 00...62 Assinable Knob 2 Number off(0),1...95,AT(60), 29(42)
Data Entry(61),Tempo(62)
15 1 00...62 Assinable Knob 3 Number off(0),1...95,AT(60), 2a(43)
Data Entry(61),Tempo(62)
16 1 00...62 Assinable Knob 4 Number off(0),1...95,AT(60), 2b(44)
Data Entry(61),Tempo(62)
17 1 00...62 Assinable Knob 5 Number off(0),1...95,AT(60), 2c(45)
Data Entry(61),Tempo(62)
18 1 00...62 Assinable Knob 6 Number off(0),1...95,AT(60), 2d(46)
Data Entry(61),Tempo(62)
19 1 00...62 Assinable Knob 7 Number off(0),1...95,AT(60), 2e(47)
Data Entry(61),Tempo(62)
1a 1 00...62 Assinable Knob 8 Number off(0),1...95,AT(60), 2f(48)
Data Entry(61),Tempo(62)
1b 1 00...00 reserved 0...0 00
Total size 1C
MIDI Data Table <1-3>
MIDI Parameter Change Table ( Current Voice Common Buffer)
Address Size Data Prameter Name Description Default
(H) (H) (H) value(H)
10 00 00 1 20...7F Voice Name 1 Ascii Code I
01 1 20...7F Voice Name 2 Ascii Code n
02 1 20...7F Voice Name 3 Ascii Code i
03 1 20...7F Voice Name 4 Ascii Code t
04 1 20...7F Voice Name 5 Ascii Code N
05 1 20...7F Voice Name 6 Ascii Code o
06 1 20...7F Voice Name 7 Ascii Code r
07 1 20...7F Voice Name 8 Ascii Code m
08 1 20...7F Voice Name 9 Ascii Code a
09 1 20...7F Voice Name 10 Ascii Code l
0a 1 00...16 Voice Category —,Pf...Sg
0b 1 01...03 Common Scene Select Scene1(1),Scene2(2), 1(scene1)
Scene Ctrl(3)
0c 1 00...05 Layer Mode sinlge(0),unison(1),dual(2), 00(single)
dual-unison(3),split(4),
split-unison(5)
0d 1 00...02 Layer Pan off(0),alternate(1),random(2) 00(off)
0e 1 00...32 Layer Separation 0...32 00
0f 1 00...32 Unison Detune 0...32 06
10 2 27...F0 Common Tempo midi(27),40(28)...240(F0) 8C(140)
12 1 00...7F Common Split Point C-2(0)...G8(7F) 3C(C3)
13 1 00...01 Common Portamento Switch off(0)...on(1) 00(off)
14 1 00...72 Common Ctrl Matrix Source1 off(0)...Assign Knob8(72) *1 00
15 1 00...05 Common Ctrl Matrix Param 1 off(0)...Rev Return(5) *1 00
16 1 00...7F Common Ctrl Matrix Depth 1 -64...+63 *1 40(+0)
17 1 00...72 Common Ctrl Matrix Source2 off(0)...Assign Knob8(72) *1 00
18 1 00...05 Common Ctrl Matrix Param 2 off(0)...Rev Return(5) *1 00
19 1 00...7F Common Ctrl Matrix Depth 2 -64...+63 *1 40(+0)
1a 1 00...0D Vari-Ef Type See Effect Type List 00(=Chorus 1)
1b 1 00...00 reserved 00 00
1c 2 00...7F Vari-Ef Param 1 MSB See Effect Parameter List Depends On Vari-Ef Type
00...7F Vari-Ef Param 1 LSB See Effect Parameter List Depends On Vari-Ef Type
1e 2 00...7F Vari-Ef Param 2 MSB See Effect Parameter List Depends On Vari-Ef Type
00...7F Vari-Ef Param 2 LSB See Effect Parameter List Depends On Vari-Ef Type
20 2 00...7F Vari-Ef Param 3 MSB See Effect Parameter List Depends On Vari-Ef Type
00...7F Vari-Ef Param 3 LSB See Effect Parameter List Depends On Vari-Ef Type
22 2 00...7F Vari-Ef Param 4 MSB See Effect Parameter List Depends On Vari-Ef Type
00...7F Vari-Ef Param 4 LSB See Effect Parameter List Depends On Vari-Ef Type
24 2 00...7F Vari-Ef Param 5 MSB See Effect Parameter List Depends On Vari-Ef Type
00...7F Vari-Ef Param 5 LSB See Effect Parameter List Depends On Vari-Ef Type
26 2 00...7F Vari-Ef Param 6 MSB See Effect Parameter List Depends On Vari-Ef Type
00...7F Vari-Ef Param 6 LSB See Effect Parameter List Depends On Vari-Ef Type
28 1 04...28 3-Band EQ Low Freq 32Hz(04)...2.0kHz(28) 11(140Hz)
29 1 34...4C 3-Band EQ Low Gain 12dB(34)...0(40)...+12dB(4C) 40(+0dB)
2a 1 0E...36 3-Band EQ Mid Freq 100Hz(0E)...10.0kHz(36) 28(2.0kHz)
2b 1 34...4C 3-Band EQ Mid Gain -12dB(34)...0(40)...+12dB(4C) 40(+0dB)
2c 1 0A...78 3-Band EQ Mid Resonance(Q) 1.0(0A)...12.0(78) 0A(1.0)
2d 1 1C...3A 3-Band EQ High Freq 500Hz(1C)...16.0kHz(38) 34(8.0kHz)
2e 1 34...4C 3-Band EQ High Gain -12dB(34)...0(40)...+12dB(4C) 40(+0dB)
2f 1 00...01 Dly-Rev Connection seri(0),para(1) 00(seri)
30 1 00...0D Dly-Ef Type See Effect Type List 00(=Delay L,C,R)
31 1 00...00 Dly-Ef Return 0...127 00
32 2 00...7F Dly-Ef Param 1 MSB See Effect Parameter List Depends On Dly-Ef Type
00...7F Dly-Ef Param 1 LSB See Effect Parameter List Depends On Dly-Ef Type
34 2 00...7F Dly-Ef Param 2 MSB See Effect Parameter List Depends On Dly-Ef Type
00...7F Dly-Ef Param 2 LSB See Effect Parameter List Depends On Dly-Ef Type
36 2 00...7F Dly-Ef Param 3 MSB See Effect Parameter List Depends On Dly-Ef Type
00...7F Dly-Ef Param 3 LSB See Effect Parameter List Depends On Dly-Ef Type
38 2 00...7F Dly-Ef Param 4 MSB See Effect Parameter List Depends On Dly-Ef Type
00...7F Dly-Ef Param 4 LSB See Effect Parameter List Depends On Dly-Ef Type
3a 2 00...7F Dly-Ef Param 5 MSB See Effect Parameter List Depends On Dly-Ef Type
00...7F Dly-Ef Param 5 LSB See Effect Parameter List Depends On Dly-Ef Type
3c 2 00...7F Dly-Ef Param 6 MSB See Effect Parameter List Depends On Dly-Ef Type
00...7F Dly-Ef Param 6 LSB See Effect Parameter List Depends On Dly-Ef Type
3e 2 00...7F Dly-Ef Param 7 MSB See Effect Parameter List Depends On Dly-Ef Type
00...7F Dly-Ef Param 7 LSB See Effect Parameter List Depends On Dly-Ef Type
40 1 00...0D Rev-Ef Type See Effect Type List 00(=Hall 1)
41 1 00...00 Rev-Ef Return 0...127 00
42 2 00...7F Rev-Ef Param 1 MSB See Effect Parameter List Depends On Rev-Ef Type
00...7F Rev-Ef Param 1 LSB See Effect Parameter List Depends On Rev-Ef Type
44 2 00...7F Rev-Ef Param 2 MSB See Effect Parameter List Depends On Rev-Ef Type
00...7F Rev-Ef Param 2 LSB See Effect Parameter List Depends On Rev-Ef Type
46 2 00...7F Rev-Ef Param 3 MSB See Effect Parameter List Depends On Rev-Ef Type
00...7F Rev-Ef Param 3 LSB See Effect Parameter List Depends On Rev-Ef Type
48 2 00...7F Rev-Ef Param 4 MSB See Effect Parameter List Depends On Rev-Ef Type
00...7F Rev-Ef Param 4 LSB See Effect Parameter List Depends On Rev-Ef Type
4a 2 00...7F Rev-Ef Param 5 MSB See Effect Parameter List Depends On Rev-Ef Type
00...7F Rev-Ef Param 5 LSB See Effect Parameter List Depends On Rev-Ef Type
4c 2 00...7F Rev-Ef Param 6 MSB See Effect Parameter List Depends On Rev-Ef Type
00...7F Rev-Ef Param 6 LSB See Effect Parameter List Depends On Rev-Ef Type
4e 2 00...7F Rev-Ef Param 7 MSB See Effect Parameter List Depends On Rev-Ef Type
00...7F Rev-Ef Param 7 LSB See Effect Parameter List Depends On Rev-Ef Type
50 1 00...01 Arpeggio/Step Seq on/off off(0),on(1) 00(off)
51 1 00...01 Arpeggio/Step Seq Select Arpeggio(0),Step Seq(1) 00(Arpeggio)
52 1 00...1D Arpeggio Type/
Step Seq Ptn No UpDwn1(0)...BassLineD(1D) *2 00(UpDwn1)
00...7F C#1:Usr001(0)...Usr128(7F) *3
53 1 00...01 Arpeggio/Step Seq Kbd Mode chord(0),chord&normal(1) *4 00(chord)
00...03 normal(0),note-shift&normal(1), *5
ptn-sel&normal(2),
pt-sel&note-shift(3) *6
54 1 00...01 Arpeggio/Step Hold off(0),on(1) 00(off)
00...02 off(0),mode1(1),mode2(2) *7
55 1 00...02 Arpeggio/Step Seq Scene Sw. Scene1(1),Scene2(2),both(3) 03(both)
56 1 00...09 Arpeggio Subdivide 3/8(0)...1/32(9) 08(1/16)
57 1 32...53 Play Effect Swing 50%(32)...83%(53) *8 32(50%)
58 2 00...C8 Play Effect Velocity realtime(0),1%(1)...200%(C8) 64(100%)
5a 2 01...C8 Play Effect Gate Time 1%(1)...200%(C8) *8 64(100%)
5c 1 00...02 Free EG Trigger free(0),keyboard&midi(1),all(2) 01(kbd&midi)
5d 1 00...04 Free EG Loop Type off(0),fwd(1),fwd-half(2), 04(Alt-half)
alternate(3),alternate-half(4)
5e 1 02...60 Free EG Length 1/2bar(2),1bar(3),3/2bar(4), 28(4.0sec)
2bar(5),3bar(6),4bar(7),6bar(8),
8bar(9),1.0sec(0A)...8.0sec(50)
...16.0sec(60)
5f 1 00...7F Free EG Keyboard Track -64...+63 40(+0)
60 1 00...38 Free EG Trk Param 1 off(0)...VCA Mod Depth(38) *9 00(off)
61 1 00...0F Free EG Trk Scene Switch 1 off(0),Scene1(1),Scene2(2),both(3) 00(off)
bit2..3=track sw’s back up
62 1 00...38 Free EG Trk Param 2 off(0)...VCA Mod Depth(38) *9 00(off)
63 1 00...0F Free EG Trk Scene Switch 2 off(0),Scene1(1),Scene2(2),,both(3) 00(off)
bit2..3=track sw’s back up
64 1 00...38 Free EG Trk Param 3 off(0)...VCA Mod Depth(38) *9 00(off)
65 1 00...0F Free EG Trk Scene Switch 3 off(0),Scene1(1),Scene2(2),both(3) 00(off)
bit2..3=track sw’s back up
66 1 00...38 Free EG Trk Param 4 off(0)...VCA Mod Depth(38) *9 00(off)
67 1 00...0F Free EG Trk Scene Switch 4 off(0),Scene1(1),Scene2(2),both(3) 00(off)
bit2..3=track sw’s back up
00 68 2 00...01 Free EG Trk1 Data1 MSB 0...1 *10 01
00...7F Free EG Trk1 Data1 LSB 0...127 *10 00
00 6a 2 00...01 Free EG Trk1 Data2 MSB 0...1 *10 01
00...7F Free EG Trk1 Data2 LSB 0...127 *10 00
:: : : : :
03 66 2 00...01 Free EG Trk1 Data192 MSB 0...1 *10 01
00...7F Free EG Trk1 Data192 LSB 0...127 *10 00
03 68 2 00...01 Free EG Trk2 Data1 MSB 0...1 *10 01
00...7F Free EG Trk2 Data1 LSB 0...127 *10 00
03 6a 2 00...01 Free EG Trk2 Data2 MSB 0...1 *10 01
00...7F Free EG Trk2 Data2 LSB 0...127 *10 00
:: : : : :
06 66 2 00...01 Free EG Trk2 Data192 MSB 0...1 *10 01
00...7F Free EG Trk2 Data192 LSB 0...127 *10 00
06 68 2 00...01 Free EG Trk3 Data1 MSB 0...1 *10 01
00...7F Free EG Trk3 Data1 LSB 0...127 *10 00
06 6a 2 00...01 Free EG Trk3 Data2 MSB 0...1 *10 01
00...7F Free EG Trk3 Data2 LSB 0...127 *10 00
:: : : : :
09 66 2 00...01 Free EG Trk3 Data128 MSB 0...1 *10 01
00...7F Free EG Trk3 Data128 LSB 0...127 *10 00
09 68 2 00...01 Free EG Trk4 Data1 MSB 0...1 *10 01
00...7F Free EG Trk4 Data1 LSB 0...127 *10 00
09 6a 2 00...01 Free EG Trk4 Data2 MSB 0...1 *10 01
00...7F Free EG Trk4 Data2 LSB 0...127 *10 00
:: : : : :
09 66 2 00...01 Free EG Trk4 Data128 MSB 0...1 *10 01
00...7F Free EG Trk4 Data128 LSB 0...127 *10 00
TOTAL SIZE 668
*1 : see other table (Ctrl Matrix Paramter List)
*2 : see other table (Arpeggio Type List)
*3 : become available only when Step Seq is selected and Kbd Mode =’ptn-sel&norm’ or ‘ptn-sel&note-shift’
*4 : only when Arpeggio is selected
*5 : only when Step Seq is selected
*6 : except *7
*7 : only when Step Seq is selected and Kbd Mode = ‘ptn-sel&norm’ or ‘ptn-sel&note-shift’
*8 : become available only when Step Seq is selected
*9 : see other table (Free EG Track Paramter List)
*10: only Bulk Dump (not transmitted and received as parameter change)
MIDI Data Table <1-4>
MIDI Parameter Change Table ( Current Voice Scene Buffer )
Address Size Data Parameter Name Description Default
(H) (H) (H) Value(H)
10 1S 00 1 00...02 Poly Mode poly(0),mono(1),legato(2) 00(poly)
01 1 2C...54 Pich Up (PB Range +) -24(2C)...+24(54) 42(+2)
02 1 2C...54 Pich Down (PB Range -) -24(2C)...+24(54) 3E(-2)
03 1 00...7F PEG Decay -64...+63 40(+0)
04 1 00...7F PEG Depth -64...+63 semitones 40(+0)
05 1 01...03 PEG Switch VCO1(1),VCO2(2),both(3) 03(both)
06 1 00...01 Portamento Mode normal(0),sustain-key(1) *1 00(normal)
fuul-time(0),fingerd(1) *2
07 1 00...7F Portamento Time 0...127 44(68)
08 1 00...01 LFO Reset Mode off(0),key-on(1) 00(off)
09 1 00...14 LFO1 Wave sine(0)...offset-s/h2(14) *3 00(sine)
0a 2 00...FF LFO1 Speed 1(0)...256(FF) 1F(32)
0c 1 00...7F LFO1 Delay 0...127 00
0d 2 00...FF LFO2 Speed 1(0)...256(FF) 57(88)
0f 1 00...3 VCO Algorithm Sync-off&FM-on(0), 00(Sync-off&FM-on)
(Osillator Sync & FM) Sync-on&FM-both(1),
Sync-on&FM-master(2),
Sync-on&FM-slave(3)
P11-19 97.9.19 2:24 PM Page 14
15
10 1 00...7F Sync Pitch -64...+63 40(+0)
11 1 00...7F Sync Pitch Depth -64...+63 40(+0)
12 1 00...04 Sync Pitch Source fixed(0),PEG(1),FEG(2),LFO1(3), 00(fixed)
LFO2(4)
13 1 01...03 Sync Pitch Mod Switch master(1),slave(2),both(3) 03(both)
14 1 00...7F FM Depth -64...+63 40(+0)
15 1 00...04 FM Source 1 fixed(0),PEG(1),FEG(2),LFO1(3), 00(fixed)
LFO2(4)
16 1 00...06 FM Source 2 VCO2(0),VCO1(1),VCO1-sub(2), 00(VCO2)
PEG(3),FEG(4),LFO1(5),LFO2(6)
17 1 00...03 VCO1 Wave saw(0),pulse(1),saw2(2),mix(3) *4 00(saw)
00...04 VCO1 Wave saw(0),pulse(1),inner1(2), *5
inner2(3),inner3(4)
18 1 00...7F VCO1 Pitch Coarse -64...+63 semitone 40(+0)
19 1 0E...72 VCO1 Pitch Fine -50...+50 cent 40(+0)
1a 1 00...7F VCO1 Edge 0...127 64(100)
1b 1 00...7F VCO1 Pulse Width 0%(0)...50%(40)...99%(7F) 40(50%)
1c 1 01...7F VCO1 PWM Depth -64...+63 40(+0)
1d 1 00...06 VCO1 PWM Source fixed(0),PEG(1),FEG(2), 00(fixed)
LFO1(3),LFO2(4),LFO2-phase(5),
LFO2-fast(6)
1e 2 01...FF VCO1 Pitch Mod Depth -127...+127 80(+0)
20 1 00...03 VCO2 Wave saw(0),pulse(1),saw2(2),mix(3) 00(saw)
21 1 00...7F VCO2 Pitch Coarse -64...+63 semitone 40(+0)
22 1 0E...72 VCO2 Pitch Fine -50(0E)...+50 cent(72) 40(+0)
23 1 00...7F VCO2 Edge 0...127 127
24 1 00...7F VCO2 Pulse Width 0%(0)...50%(40)...99%(7F) 40(50%)
25 1 00...7F VCO2 PWM Depth -64...+63 40(+0)
26 1 00...06 VCO2 PWM Source fixed(0),PEG(1),FEG(2), 00(fixed)
LFO1(3),LFO2(4),LFO2-phase(5),
LFO2-fast(6)
27 2 01...FF VCO2 Pitch Mod Depth -127...+127 80(+0)
29 1 00...7F Mixer VCO1 Level 0...127 7F
2a 1 00...7F Mixer VCO2 Level 0...127 00
2b 1 00...7F Mixer Ring Mod Level 0...127 00
2c 1 00...7F Mixer Noise Level 0...127 00
2d 1 00...7F FilterEG Attack Time 0...127 00
2e 1 00...7F FilterEG Decay Time 0...127 40
2f 1 00...7F FilterEG Sustain Level 0...127 7F
30 1 00...7F FilterEG Release Time 0...127 55(85)
31 1 00...7F VCF HPF Cutoff Freq 0...127 00
32 1 00...05 VCF Filter Type LPF-24dB(0),LFP-18dB(1), 00(LPF-24dB)
LPF-12dB(2),BPF(3),HPF-12dB(4),
BEF(5)
33 1 00...7F VCF Filter Cutoff 0...127 64(100)
34 1 0D...7F VCF Filter Resonance -12(0D)...0(19)...+102(7F) 19(+0)
35 2 00...FF FilterEG Depth -128...+127 A0(+32)
37 1 00...7F FilterEG Velocity Sens -64...+63 40(+0)
38 1 20...7F VCF Keyboard Track -32...+63 40(+0)
39 1 00...7F VCF Filter Mod Depth -64...+63 40(+0)
3a 1 00...7F AmpEG Attack Time 0...127 00
3b 1 00...7F AmpEG Decay Time 0...127 40
3c 1 00...7F AmpEG Sustain Level 0...127 7F
3d 1 00...7F AmpEG Release Time 0...127 24(36)
3e 1 00...7F VCA Feedback Level 0...127 00
3f 1 00...7F VCA Volume 0...127 69(105)
40 1 00...7F AmpEG Velocity Sens -64...+63 40(+0)
41 1 00...7F VCA Amp Mod Depth -64...+63 40(+0)
42 1 01...7F Vari-Ef Dry:Wet D63>W(1)...D=W(40)...D<W63(7F) *6 01(D63>W)
dry(0-3F),wet(40-7F) *7
dry(0-3F),both(40),wet(41-7F) *8
43 1 00...00 Reserve 0...0 00
44 1 00...72 Ctrl Matrix Source1 off(0)...Assign Knob8(72) *9 00
45 1 00...24 Ctrl Matrix Param 1 off(0)...Vari-Ef Dry:Wet(24) *9 00
46 1 00...7F Ctrl Matrix Depth 1 Depends on Ctrl Matrix Param *9 40(+0)
47 1 00...72 Ctrl Matrix Source2 off(0)...Assign Knob8(72) *9 00
48 1 00...24 Ctrl Matrix Param 2 off(0)...Vari-Ef Dry:Wet(24) *9 00
49 1 00...7F Ctrl Matrix Depth 2 Depends on Ctrl Matrix Param *9 40(+0)
4a 1 00...72 Ctrl Matrix Source3 off(0)...Assign Knob8(72) *9 00
4b 1 00...24 Ctrl Matrix Param 3 off(0)...Vari-Ef Dry:Wet(24) *9 00
4c 1 00...7F Ctrl Matrix Depth 3 Depends on Ctrl Matrix Param *9 40(+0)
4d 1 00...72 Ctrl Matrix Source4 off(0)...Assign Knob8(72) *9 00
4e 1 00...24 Ctrl Matrix Param 4 off(0)...Vari-Ef Dry:Wet(24) *9 00
4f 1 00...7F Ctrl Matrix Depth 4 Depends on Ctrl Matrix Param *9 40(+0)
50 1 00...72 Ctrl Matrix Source5 off(0)...Assign Knob8(72) *9 00
51 1 00...24 Ctrl Matrix Param 5 off(0)...Vari-Ef Dry:Wet(24) *9 00
52 1 00...7F Ctrl Matrix Depth 5 Depends on Ctrl Matrix Param *9 40(+0)
53 1 00...72 Ctrl Matrix Source6 off(0)...Assign Knob8(72) *9 00
54 1 00...24 Ctrl Matrix Param 6 off(0)...Vari-Ef Dry:Wet(24) *9 00
55 1 00...7F Ctrl Matrix Depth 6 Depends on Ctrl Matrix Param *9 40(+0)
56 1 00...72 Ctrl Matrix Source7 off(0)...Assign Knob8(72) *9 00
57 1 00...24 Ctrl Matrix Param 7 off(0)...Vari-Ef Dry:Wet(24) *9 00
58 1 00...7F Ctrl Matrix Depth 7 Depends on Ctrl Matrix Param *9 40(+0)
59 1 00...72 Ctrl Matrix Source8 off(0)...Assign Knob8(72) *9 00
5a 1 00...24 Ctrl Matrix Param 8 off(0)...Vari-Ef Dry:Wet(24) *9 00
5b 1 00...7F Ctrl Matrix Depth 8 Depends on Ctrl Matrix Param *9 40(+0)
5c 1 00...72 Ctrl Matrix Source9 off(0)...Assign Knob8(72) *9 00
5d 1 00...24 Ctrl Matrix Param 9 off(0)...Vari-Ef Dry:Wet(24) *9 00
5e 1 00...7F Ctrl Matrix Depth 9 Depends on Ctrl Matrix Param *9 40(+0)
5f 1 00...72 Ctrl Matrix Source10 off(0)...Assign Knob8(72) *9 00
60 1 00...24 Ctrl Matrix Param 10 off(0)...Vari-Ef Dry:Wet(24) *9 00
61 1 00...7F Ctrl Matrix Depth 10 Depends on Ctrl Matrix Param *9 40(+0)
62 1 00...72 Ctrl Matrix Source11 off(0)...Assign Knob8(72) *9 00
63 1 00...24 Ctrl Matrix Param 11 off(0)...Vari-Ef Dry:Wet(24) *9 00
64 1 00...7F Ctrl Matrix Depth 11 Depends on Ctrl Matrix Param *9 40(+0)
65 1 00...72 Ctrl Matrix Source12 off(0)...Assign Knob8(72) *9 00
66 1 00...24 Ctrl Matrix Param 12 off(0)...Vari-Ef Dry:Wet(24) *9 00
67 1 00...7F Ctrl Matrix Depth 12 Depends on Ctrl Matrix Param *9 40(+0)
68 1 00...72 Ctrl Matrix Source13 off(0)...Assign Knob8(72) *9 00
69 1 00...24 Ctrl Matrix Param 13 off(0)...Vari-Ef Dry:Wet(24) *9 00
6a 1 00...7F Ctrl Matrix Depth 13 Depends on Ctrl Matrix Param *9 40(+0)
6b 1 00...72 Ctrl Matrix Source14 off(0)...Assign Knob8(72) *9 00
6c 1 00...24 Ctrl Matrix Param 14 off(0)...Vari-Ef Dry:Wet(24) *9 00
6d 1 00...7F Ctrl Matrix Depth 14 Depends on Ctrl Matrix Param *9 40(+0)
6e 1 00...72 Ctrl Matrix Source15 off(0)...Assign Knob8(72) *9 00
6f 1 00...24 Ctrl Matrix Param 15 off(0)...Vari-Ef Dry:Wet(24) *9 00
70 1 00...7F Ctrl Matrix Depth 15 Depends on Ctrl Matrix Param *9 40(+0)
71 1 00...72 Ctrl Matrix Source16 off(0)...Assign Knob8(72) *9 00
72 1 00...24 Ctrl Matrix Param 16 off(0)...Vari-Ef Dry:Wet(24) *9 00
73 1 00...7F Ctrl Matrix Depth 16 Depends on Ctrl Matrix Param *9 40(+0)
Total size 74 : Scene 1, 2 Edit Buffer
Total size 44 : Scene Ctrl Buffer
S=0 ; Scene 1 Edit Buffer
1 ; Scene 2 Edit Buffer
2 ; Scene Ctrl Buffer (* effective only when Scene Ctrl is active)
*1 : Poly Mode = poly
*2 : Poly Mode = mono,legato
*3 : see other table (LFO1 Wave Type List)
*4 : Osillator Sync = off
*5 : Osillator Sync = on
*6 : Vari-Ef Type = except *7,*8
*7 : Vari-Ef Type = Aural Exciter, Compressor
*8 : Vari-Ef Type = Distortion, Over Drive, Amp.Simulator
*9 : see other table (Ctrl Matrix Paramter List) and not exist in scene-ctrl buffer
MIDI Data Table <1-5>
MIDI Parameter Change Table ( Current Step SEQ Buffer)
Address Size Data Prameter Name Description Default
(H) (H) (H) value(H)
10 0e 00 1 00...09 Step Seq Base Unit 3/8(0)...1/32(9) 04(1/8)
01 1 01...10 Step Seq Length 1steps(1)...16steps(10) 08
02 1 00...03 Step Seq Loop Type fwd(0),backwd(1),alternateA(2), 00(fwd)
alternateB(3)
03 1 00...60 Step Seq Ctrl Change No off(0)...95,AT(60) 00(off)
04 1 00...00 reserved 00 00
05 1 00...00 reserved 00 00
06 1 00...7F Step Seq Note No 1 C-2(0)...G8(7F) C3(3C)
07 1 00...7F Step Seq Note No 2 C-2(0)...G8(7F) C3(3C)
08 1 00...7F Step Seq Note No 3 C-2(0)...G8(7F) C3(3C)
09 1 00...7F Step Seq Note No 4 C-2(0)...G8(7F) C3(3C)
0a 1 00...7F Step Seq Note No 5 C-2(0)...G8(7F) C3(3C)
0b 1 00...7F Step Seq Note No 6 C-2(0)...G8(7F) C3(3C)
0c 1 00...7F Step Seq Note No 7 C-2(0)...G8(7F) C3(3C)
0d 1 00...7F Step Seq Note No 8 C-2(0)...G8(7F) C3(3C)
0e 1 00...7F Step Seq Note No 9 C-2(0)...G8(7F) C3(3C)
0f 1 00...7F Step Seq Note No 10 C-2(0)...G8(7F) C3(3C)
10 1 00...7F Step Seq Note No 11 C-2(0)...G8(7F) C3(3C)
11 1 00...7F Step Seq Note No 12 C-2(0)...G8(7F) C3(3C)
12 1 00...7F Step Seq Note No 13 C-2(0)...G8(7F) C3(3C)
13 1 00...7F Step Seq Note No 14 C-2(0)...G8(7F) C3(3C)
14 1 00...7F Step Seq Note No 15 C-2(0)...G8(7F) C3(3C)
15 1 00...7F Step Seq Note No 16 C-2(0)...G8(7F) C3(3C)
16 1 00...7F Step Seq Velocity 1 rest(0),1...127 100(64)
17 1 00...7F Step Seq Velocity 2 rest(0),1...127 100(64)
18 1 00...7F Step Seq Velocity 3 rest(0),1...127 100(64)
19 1 00...7F Step Seq Velocity 4 rest(0),1...127 100(64)
1a 1 00...7F Step Seq Velocity 5 rest(0),1...127 100(64)
1b 1 00...7F Step Seq Velocity 6 rest(0),1...127 100(64)
1c 1 00...7F Step Seq Velocity 7 rest(0),1...127 100(64)
1d 1 00...7F Step Seq Velocity 8 rest(0),1...127 100(64)
1e 1 00...7F Step Seq Velocity 9 rest(0),1...127 100(64)
1f 1 00...7F Step Seq Velocity 10 rest(0),1...127 100(64)
20 1 00...7F Step Seq Velocity 11 rest(0),1...127 100(64)
21 1 00...7F Step Seq Velocity 12 rest(0),1...127 100(64)
22 1 00...7F Step Seq Velocity 13 rest(0),1...127 100(64)
23 1 00...7F Step Seq Velocity 14 rest(0),1...127 100(64)
24 1 00...7F Step Seq Velocity 15 rest(0),1...127 100(64)
25 1 00...7F Step Seq Velocity 16 rest(0),1...127 100(64)
26 1 00...7F Step Seq Gate Time 1 1%(0)...100%(40)...200%(7F) 94%(3C)
27 1 00...7F Step Seq Gate Time 2 1%(0)...100%(40)...200%(7F) 94%(3C)
28 1 00...7F Step Seq Gate Time 3 1%(0)...100%(40)...200%(7F) 94%(3C)
29 1 00...7F Step Seq Gate Time 4 1%(0)...100%(40)...200%(7F) 94%(3C)
2a 1 00...7F Step Seq Gate Time 5 1%(0)...100%(40)...200%(7F) 94%(3C)
2b 1 00...7F Step Seq Gate Time 6 1%(0)...100%(40)...200%(7F) 94%(3C)
2c 1 00...7F Step Seq Gate Time 7 1%(0)...100%(40)...200%(7F) 94%(3C)
1d 1 00...7F Step Seq Gate Time 8 1%(0)...100%(40)...200%(7F) 94%(3C)
2e 1 00...7F Step Seq Gate Time 9 1%(0)...100%(40)...200%(7F) 94%(3C)
2f 1 00...7F Step Seq Gate Time 10 1%(0)...100%(40)...200%(7F) 94%(3C)
30 1 00...7F Step Seq Gate Time 11 1%(0)...100%(40)...200%(7F) 94%(3C)
31 1 00...7F Step Seq Gate Time 12 1%(0)...100%(40)...200%(7F) 94%(3C)
32 1 00...7F Step Seq Gate Time 13 1%(0)...100%(40)...200%(7F) 94%(3C)
33 1 00...7F Step Seq Gate Time 14 1%(0)...100%(40)...200%(7F) 94%(3C)
34 1 00...7F Step Seq Gate Time 15 1%(0)...100%(40)...200%(7F) 94%(3C)
35 1 00...7F Step Seq Gate Time 16 1%(0)...100%(40)...200%(7F) 94%(3C)
36 1 00...7F Step Seq Ctrl Change Value 1 0...127 0(00)
37 1 00...7F Step Seq Ctrl Change Value 2 0...127 0(00)
38 1 00...7F Step Seq Ctrl Change Value 3 0...127 0(00)
39 1 00...7F Step Seq Ctrl Change Value 4 0...127 0(00)
3a 1 00...7F Step Seq Ctrl Change Value 5 0...127 0(00)
3b 1 00...7F Step Seq Ctrl Change Value 6 0...127 0(00)
3c 1 00...7F Step Seq Ctrl Change Value 7 0...127 0(00)
3d 1 00...7F Step Seq Ctrl Change Value 8 0...127 0(00)
3e 1 00...7F Step Seq Ctrl Change Value 9 0...127 0(00)
3f 1 00...7F Step Seq Ctrl Change Value 10 0...127 0(00)
40 1 00...7F Step Seq Ctrl Change Value 11 0...127 0(00)
41 1 00...7F Step Seq Ctrl Change Value 12 0...127 0(00)
42 1 00...7F Step Seq Ctrl Change Value 13 0...127 0(00)
43 1 00...7F Step Seq Ctrl Change Value 14 0...127 0(00)
44 1 00...7F Step Seq Ctrl Change Value 15 0...127 0(00)
45 1 00...7F Step Seq Ctrl Change Value 16 0...127 0(00)
TOAL SIZE 46
MIDI Data Table <1-6>
MIDI Parameter Change Table ( User Voice: Only Bulk Dump )
Address Size Data Prameter Name Description Default
(H) (H) (H) value(H)
(from Here : Voice Common Data)
11 mm 00 1 20...7F Voice Name 1 Ascii Code I
1 20...7F Voice Name 2 Ascii Code n
1 20...7F Voice Name 3 Ascii Code i
1 20...7F Voice Name 4 Ascii Code t
1 20...7F Voice Name 5 Ascii Code N
1 20...7F Voice Name 6 Ascii Code o
1 20...7F Voice Name 7 Ascii Code r
1 20...7F Voice Name 9 Ascii Code a
1 20...7F Voice Name 10 Ascii Code l
1 00...16 Voice Category —,Pf...Sg
1 01...03 Common Scene Select Scene1(1),Scene2(2), 1(scene1)
Scene Ctrl(3)
1 00...05 Layer Mode sinlge(0),unison(1),dual(2), 00(single)
dual-unison(3),split(4),
split-unison(5)
1 00...02 Layer Pan off(0),alternate(1),random(2) 00(off)
1 00...32 Layer Separation 0...32 00
1 00...32 Unison Detune 0...32 06
2 27...F0 Common Tempo midi(27),40(28)...240(F0) 8C(140)
1 00...7F Common Split Point C-2(0)...G8(7F) 3C(C3)
1 00...01 Common Portamento Switch off(0)...on(1) 00(off)
1 00...72 Common Ctrl Matrix Source1 off(0)...Assign Knob8(72) *1 00
1 00...05 Common Ctrl Matrix Param 1 off(0)...Rev Return(5) *1 00
1 00...7F Common Ctrl Matrix Depth 1 -64...+63 *1 40(+0)
1 00...72 Common Ctrl Matrix Source2 off(0)...Assign Knob8(72) *1 00
1 00...05 Common Ctrl Matrix Param 2 off(0)...Rev Return(5) *1 00
1 00...7F Common Ctrl Matrix Depth 2 -64...+63 *1 40(+0)
1 00...0D Vari-Ef Type See Effect Type List 00(=Chorus 1)
P11-19 97.9.19 2:24 PM Page 15
16
1 00...00 reserved 00 00
2 00...7F Vari-Ef Param 1 MSB See Effect Parameter List Depends On Vari-Ef Type
00...7F Vari-Ef Param 1 LSB See Effect Parameter List Depends On Vari-Ef Type
2 00...7F Vari-Ef Param 2 MSB See Effect Parameter List Depends On Vari-Ef Type
00...7F Vari-Ef Param 2 LSB See Effect Parameter List Depends On Vari-Ef Type
2 00...7F Vari-Ef Param 3 MSB See Effect Parameter List Depends On Vari-Ef Type
00...7F Vari-Ef Param 3 LSB See Effect Parameter List Depends On Vari-Ef Type
2 00...7F Vari-Ef Param 4 MSB See Effect Parameter List Depends On Vari-Ef Type
00...7F Vari-Ef Param 4 LSB See Effect Parameter List Depends On Vari-Ef Type
2 00...7F Vari-Ef Param 5 MSB See Effect Parameter List Depends On Vari-Ef Type
00...7F Vari-Ef Param 5 LSB See Effect Parameter List Depends On Vari-Ef Type
2 00...7F Vari-Ef Param 6 MSB See Effect Parameter List Depends On Vari-Ef Type
00...7F Vari-Ef Param 6 LSB See Effect Parameter List Depends On Vari-Ef Type
1 04...28 3-Band EQ Low Freq 32Hz(04)...2.0kHz(28) 11(140Hz)
1 34...4C 3-Band EQ Low Gain 12dB(34)...0(40)...+12dB(4C) 40(+0dB)
1 0E...36 3-Band EQ Mid Freq 100Hz(0E)...10.0kHz(36) 28(2.0kHz)
1 34...4C 3-Band EQ Mid Gain 12dB(34)...0(40)...+12dB(4C) 40(+0dB)
1 0A...78 3-Band EQ Mid Resonance(Q) 1.0(0A)...12.0(78) 0A(1.0)
1 1C...3A 3-Band EQ High Freq 500Hz(1C)...16.0kHz(38) 34(8.0kHz)
1 34...4C 3-Band EQ High Gain -12dB(34)...0(40)...+12dB(4C) 40(+0dB)
1 00...01 Dly-Rev Connection seri(0),para(1) 00(seri)
1 00...0D Dly-Ef Type See Effect Type List 00(=Delay L,C,R)
1 00...7F Dly-Ef Return 0...127 00
2 00...7F Dly-Ef Param 1 MSB See Effect Parameter List Depends On Dly-Ef Type
00...7F Dly-Ef Param 1 LSB See Effect Parameter List Depends On Dly-Ef Type
2 00...7F Dly-Ef Param 2 MSB See Effect Parameter List Depends On Dly-Ef Type
00...7F Dly-Ef Param 2 LSB See Effect Parameter List Depends On Dly-Ef Type
2 00...7F Dly-Ef Param 3 MSB See Effect Parameter List Depends On Dly-Ef Type
00...7F Dly-Ef Param 3 LSB See Effect Parameter List Depends On Dly-Ef Type
2 00...7F Dly-Ef Param 4 MSB See Effect Parameter List Depends On Dly-Ef Type
00...7F Dly-Ef Param 4 LSB See Effect Parameter List Depends On Dly-Ef Type
2 00...7F Dly-Ef Param 5 MSB See Effect Parameter List Depends On Dly-Ef Type
00...7F Dly-Ef Param 5 LSB See Effect Parameter List Depends On Dly-Ef Type
2 00...7F Dly-Ef Param 6 MSB See Effect Parameter List Depends On Dly-Ef Type
00...7F Dly-Ef Param 6 LSB See Effect Parameter List Depends On Dly-Ef Type
2 00...7F Dly-Ef Param 7 MSB See Effect Parameter List Depends On Dly-Ef Type
00...7F Dly-Ef Param 7 LSB See Effect Parameter List Depends On Dly-Ef Type
1 00...0D Rev-Ef Type See Effect Type List 00(=Hall 1)
1 00...7F Rev-Ef Return 0...127 00
2 00...7F Rev-Ef Param 1 MSB See Effect Parameter List Depends On Rev-Ef Type
00...7F Rev-Ef Param 1 LSB See Effect Parameter List Depends On Rev-Ef Type
2 00...7F Rev-Ef Param 2 MSB See Effect Parameter List Depends On Rev-Ef Type
00...7F Rev-Ef Param 2 LSB See Effect Parameter List Depends On Rev-Ef Type
2 00...7F Rev-Ef Param 3 MSB See Effect Parameter List Depends On Rev-Ef Type
00...7F Rev-Ef Param 3 LSB See Effect Parameter List Depends On Rev-Ef Type
2 00...7F Rev-Ef Param 4 MSB See Effect Parameter List Depends On Rev-Ef Type
00...7F Rev-Ef Param 4 LSB See Effect Parameter List Depends On Rev-Ef Type
2 00...7F Rev-Ef Param 5 MSB See Effect Parameter List Depends On Rev-Ef Type
00...7F Rev-Ef Param 5 LSB See Effect Parameter List Depends On Rev-Ef Type
2 00...7F Rev-Ef Param 6 MSB See Effect Parameter List Depends On Rev-Ef Type
00...7F Rev-Ef Param 6 LSB See Effect Parameter List Depends On Rev-Ef Type
2 00...7F Rev-Ef Param 7 MSB See Effect Parameter List Depends On Rev-Ef Type
00...7F Rev-Ef Param 7 LSB See Effect Parameter List Depends On Rev-Ef Type
1 00...01 Arpeggio/Step Seq on/off off(0),on(1) 00(off)
1 00...01 Arpeggio/Step Seq Select Arpeggio(0),Step Seq(1) 00(Arpeggio)
1 00...1D Arpeggio Type/
Step Seq Ptn No UpDwn1(0)...BassLineD(1D) *2 00(UpDwn1)
00...7F C#1:Usr001(0)...Usr128(7F) *3
1 00...01 Arpeggio/Step Seq Kbd Mode chord(0),chord&normal(1) *4 00(chord)
00...03 normal(0),note-shift&normal(1), *5
ptn-sel&normal(2),
pt-sel&note-shift(3) *6
1 01...03 Arpeggio/Step Hold off(0),on(1) 00(off)
00...02 off(0),mode1(1),mode2(2) *7
1 00...02 Arpeggio/Step Seq Scene Sw. Scene1(1),Scene2(2),both(3) 03(both)
1 00...09 Arpeggio Subdivide 3/8(0)...1/32(9) 08(1/16)
1 32...53 Play Effect Swing 50%(32)...83%(53) *8 32(50%)
2 00...C8 Play Effect Velocity realtime(0),1%(1)...200%(C8) 64(100%)
2 01...C8 Play Effect Gate Time 1%(1)...200%(C8) *8 64(100%)
1 00...02 Free EG Trigger free(0),keyboard&midi(1),all(2) 01(kbd&midi)
1 00...04 Free EG Loop Type off(0),fwd(1),fwd-half(2), 04(Alt-half)
alternate(3),alternate-half(4)
1 02...60 Free EG Length 1/2bar(2),1bar(3),3/2bar(4), 28(4.0sec)
2bar(5),3bar(6),4bar(7),6bar(8),
8bar(9),1.0sec(0A)...8.0sec(50)
...16.0sec(60)
1 00...7F Free EG Keyboard Track -64...+63 40(+0)
1 00...38 Free EG Trk Param 1 off(0)...VCA Mod Depth(38) *9 00(off)
1 00...0F Free EG Trk Scene Switch 1 off(0),Scene1(1),Scene2(2),both(3) 00(off)
bit2..3=track sw’s back up
1 00...38 Free EG Trk Param 2 off(0)...VCA Mod Depth(38) *9 00(off)
1 00...0F Free EG Trk Scene Switch 2 off(0),Scene1(1),Scene2(2),,both(3) 00(off)
bit2..3=track sw’s back up
1 00...38 Free EG Trk Param 3 off(0)...VCA Mod Depth(38) *9 00(off)
1 00...0F Free EG Trk Scene Switch 3 off(0),Scene1(1),Scene2(2),both(3) 00(off)
bit2..3=track sw’s back up
1 00...38 Free EG Trk Param 4 off(0)...VCA Mod Depth(38) *9 00(off)
1 00...0F Free EG Trk Scene Switch 4 off(0),Scene1(1),Scene2(2),both(3) 00(off)
bit2..3=track sw’s back up
2 00...01 Free EG Trk1 Data1 MSB 0...1 *10 01
00...7F Free EG Trk1 Data1 LSB 0...127 *10 00
2 00...01 Free EG Trk1 Data2 MSB 0...1 *10 01
00...7F Free EG Trk1 Data2 LSB 0...127 *10 00
:: : : :
2 00...01 Free EG Trk1 Data192 MSB 0...1 *10 01
00...7F Free EG Trk1 Data192 LSB 0...127 *10 00
2 00...01 Free EG Trk2 Data1 MSB 0...1 *10 01
00...7F Free EG Trk2 Data1 LSB 0...127 *10 00
2 00...01 Free EG Trk2 Data2 MSB 0...1 *10 01
00...7F Free EG Trk2 Data2 LSB 0...127 *10 00
:: : : :
2 00...01 Free EG Trk2 Data192 MSB 0...1 *10 01
00...7F Free EG Trk2 Data192 LSB 0...127 *10 00
2 00...01 Free EG Trk3 Data1 MSB 0...1 *10 01
00...7F Free EG Trk3 Data1 LSB 0...127 *10 00
2 00...01 Free EG Trk3 Data2 MSB 0...1 *10 01
00...7F Free EG Trk3 Data2 LSB 0...127 *10 00
:: : : :
2 00...01 Free EG Trk3 Data128 MSB 0...1 *10 01
00...7F Free EG Trk3 Data128 LSB 0...127 *10 00
2 00...01 Free EG Trk4 Data1 MSB 0...1 *10 01
00...7F Free EG Trk4 Data1 LSB 0...127 *10 00
2 00...01 Free EG Trk4 Data2 MSB 0...1 *10 01
00...7F Free EG Trk4 Data2 LSB 0...127 *10 00
:: : : :
2 00...01 Free EG Trk4 Data128 MSB 0...1 *10 01
00...7F Free EG Trk4 Data128 LSB 0...127 *10 00
(from Here : Scene1’s Data)
1 00...02 Poly Mode poly(0),mono(1),legato(2) 00(poly)
1 2C...54 Pich Up (PB Range +) -24(2C)...+24(54) 42(+2)
1 2C...54 Pich Down (PB Range -) -24(2C)...+24(54) 3E(-2)
1 00...7F PEG Decay -64...+63 40(+0)
1 00...7F PEG Depth -64...+63 semitones 40(+0)
1 01...03 PEG Switch VCO1(1),VCO2(2),both(3) 03(both)
1 00...01 Portamento Mode normal(0),sustain-key(1) *11 00(normal)
full-time(0),fingerd(1) *12
1 00...7F Portamento Time 0...127 44(68)
1 00...01 LFO Reset Mode off(0),key-on(1) 00(off)
1 00...14 LFO1 Wave sine(0)...offset-s/h2(14) *13 00(sine)
2 00...FF LFO1 Speed 1(0)...256(FF) 1F(32)
1 00...7F LFO1 Delay 0...127 00
2 00...FF LFO2 Speed 1(0)...256(FF) 57(88)
1 00...03 VCO Algorithm Sync-off&FM-on(0), 00(Sync-off&FM-on)
(Osillator Sync & FM) Sync-on&FM-both(1),
Sync-on&FM-master(2),
Sync-on&FM-slave(3)
1 00...7F Sync Pitch -64...+63 40(+0)
1 00...7F Sync Pitch Depth -64...+63 40(+0)
1 00...04 Sync Pitch Source fixed(0),PEG(1),FEG(2),LFO1(3) 00(fixed)
LFO2(4)
1 01...03 Sync Pitch Mod Switch master(1),slave(2),both(3) 03(both)
1 00...7F FM Depth -64...+63 40(+0)
1 00...04 FM Source 1 fixed(0),PEG(1),FEG(2),LFO1(3), 00(fixed)
LFO2(4)
1 00...06 FM Source 2 VCO2(0),VCO1(1),VCO1-sub(2), 00(VCO2)
PEG(3),FEG(4),LFO1(5),LFO2(6)
1 00...03 VCO1 Wave saw(0),pulse(1),saw2(2),mix(3) *14 00(saw)
00...04 VCO1 Wave saw(0),pulse(1),inner1(2), *15
inner2(3),inner3(4)
1 00...7F VCO1 Pitch Coarse -64...+63 semitone 40(+0)
1 0E...72 VCO1 Pitch Fine -50...+50 cent 40(+0)
1 00...7F VCO1 Edge 0...127 (64)100
1 00...7F VCO1 Pulse Width 0%(0)...50%(40)...99%(7F) 40(50%)
1 01...7F VCO1 PWM Depth -64...+63 40(+0)
1 00...06 VCO1 PWM Source fixed(0),PEG(1),FEG(2), 00(fixed)
LFO1(3),LFO2(4),LFO2-phase(5),
LFO2-fast(6)
2 01...FF VCO1 Pitch Mod Depth -127...+127 80(+0)
1 00...03 VCO2 Wave saw(0),pulse(1),saw2(2),mix(3) 00(saw)
1 00...7F VCO2 Pitch Coarse -64...+63 semitone 40(+0)
1 0E...72 VCO2 Pitch Fine -50(0E)...+50 cent(72) 40(+0)
1 00...7F VCO2 Edge 0...127 127
1 00...7F VCO2 Pulse Width 0%(0)...50%(40)...99%(7F) 40(50%)
1 00...7F VCO2 PWM Depth -64...+63 40(+0)
1 00...06 VCO2 PWM Source fixed(0),PEG(1),FEG(2), 00(fixed)
LFO1(3),LFO2(4),LFO2-phase(5),
LFO2-fast(6)
2 01...FF VCO2 Pitch Mod Depth -127...+127 80(+0)
1 00...7F Mixer VCO1 Level 0...127 7F
1 00...7F Mixer VCO2 Level 0...127 00
1 00...7F Mixer Ring Mod Level 0...127 00
1 00...7F Mixer Noise Level 0...127 00
1 00...7F FilterEG Attack Time 0...127 00
1 00...7F FilterEG Decay Time 0...127 40
1 00...7F FilterEG Sustain Level 0...127 7F
1 00...7F FilterEG Release Time 0...127 55(85)
1 00...7F VCF HPF Cutoff Freq 0...127 00
1 00...05 VCF Filter Type LPF-24dB(0),LFP-18dB(1), 00(LPF-24dB)
LPF-12dB(2),BPF(3),HPF-12dB(4),
BEF(5)
1 00...7F VCF Filter Cutoff 0...127 (64)100
1 0D...7F VCF Filter Resonance -12(0D)...0(19)...+102(7F) 19(+0)
2 00...FF FilterEG Depth -128...+127 A0(+32)
1 00...7F FilterEG Velocity Sens -64...+63 40(+0)
1 20...7F VCF Keyboard Track -32...+63 40(+0)
1 00...7F VCF Filter Mod Depth -64...+63 40(+0)
1 00...7F AmpEG Attack Time 0...127 00
1 00...7F AmpEG Decay Time 0...127 40
1 00...7F AmpEG Sustain Level 0...127 7F
1 00...7F AmpEG Release Time 0...127 24(36)
1 00...7F VCA Feedback Level 0...127 00
1 00...7F VCA Volume 0...127 69(105)
1 00...7F AmpEG Velocity Sens -64...+63 40(+0)
1 00...7F VCA Amp Mod Depth -64...+63 40(+0)
1 01...7F Vari-Ef Dry:Wet D63>W(1)...D=W(40)...D<W63(7F) *16 01(D63>W)
dry(0-3F),wet(40-7F) *17
dry(0-3F),both(40),wet(41-7F) *18
1 00...00 Reserve 0...0 00
1 00...72 Ctrl Matrix Source1 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 1 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 1 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source2 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 2 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 2 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source3 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 3 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 3 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source4 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 4 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 4 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source5 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 5 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 5 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source6 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 6 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 6 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source7 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 7 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 7 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source8 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 8 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 8 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source9 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 9 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 9 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source10 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 10 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 10 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source11 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 11 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 11 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source12 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 12 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 12 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source13 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 13 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 13 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source14 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 14 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 14 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source15 off(0)...Assign Knob8(72) *19 00
P11-19 97.9.19 2:24 PM Page 16
17
1 00...24 Ctrl Matrix Param 15 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 15 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source16 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 16 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 16 Depends on Ctrl Matrix Param *19 40(+0)
(from Here : Scene2’s Data)
1 00...02 Poly Mode poly(0),mono(1),legato(2) 00(poly)
1 2C...54 Pich Up (PB Range +) -24(2C)...+24(54) 42(+2)
1 2C...54 Pich Down (PB Range -) -24(2C)...+24(54) 3E(-2)
1 00...7F PEG Decay -64...+63 40(+0)
1 00...7F PEG Depth -64...+63 semitones 40(+0)
1 01...03 PEG Switch VCO1(1),VCO2(2),both(3) 03(both)
1 00...01 Portamento Mode normal(0),sustain-key(1) *11 00(normal)
full-time(0),fingerd(1) *12
1 00...7F Portamento Time 0...127 44(68)
1 00...01 LFO Reset Mode off(0),key-on(1) 00(off)
1 00...14 LFO1 Wave sine(0)...offset-s/h2(14) *13 00(sine)
2 00...FF LFO1 Speed 1(0)...256(FF) 1F(32)
1 00...7F LFO1 Delay 0...127 00
2 00...FF LFO2 Speed 1(0)...256(FF) 57(88)
1 00...3 VCO Algorithm Sync-off&FM-on(0), 00(Sync-off&FM-on)
(Osillator Sync & FM) Sync-on&FM-both(1),
Sync-on&FM-master(2),
Sync-on&FM-slave(3)
1 00...7F Sync Pitch -64...+63 40(+0)
1 00...7F Sync Pitch Depth -64...+63 40(+0)
1 00...04 Sync Pitch Source fixed(0),PEG(1),FEG(2),LFO1(3), 00(fixed)
LFO2(4)
1 01...03 Sync Pitch Mod Switch master(1),slave(2),both(3) 03(both)
1 00...7F FM Depth -64...+63 40(+0)
1 00...04 FM Source 1 fixed(0),PEG(1),FEG(2),LFO1(3), 00(fixed)
LFO2(4)
1 00...06 FM Source 2 VCO2(0),VCO1(1),VCO1-sub(2), 00(VCO2)
PEG(3),FEG(4),LFO1(5),LFO2(6)
1 00...03 VCO1 Wave saw(0),pulse(1),saw2(2),mix(3) *14 00(saw)
00...04 VCO1 Wave saw(0),pulse(1),inner1(2), *15
inner2(3),inner3(4)
1 00...7F VCO1 Pitch Coarse -64...+63 semitone 40(+0)
1 0E...72 VCO1 Pitch Fine -50...+50 cent 40(+0)
1 00...7F VCO1 Edge 0...127 (64)100
1 00...7F VCO1 Pulse Width 0%(0)...50%(40)...99%(7F) 40(50%)
1 01...7F VCO1 PWM Depth -64...+63 40(+0)
1 00...06 VCO1 PWM Source fixed(0),PEG(1),FEG(2), 00(fixed)
LFO1(3),LFO2(4),LFO2-phase(5),
LFO2-fast(6)
2 01...FF VCO1 Pitch Mod Depth -127...+127 80(+0)
1 00...03 VCO2 Wave saw(0),pulse(1),saw2(2),mix(3) 00(saw)
1 00...7F VCO2 Pitch Coarse -64...+63 semitone 40(+0)
1 0E...72 VCO2 Pitch Fine -50(0E)...+50 cent(72) 40(+0)
1 00...7F VCO2 Edge 0...127 127
1 00...7F VCO2 Pulse Width 0%(0)...50%(40)...99%(7F) 40(50%)
1 01...7F VCO2 PWM Depth -64...+63 40(+0)
1 00...06 VCO2 PWM Source fixed(0),PEG(1),FEG(2), 00(fixed)
LFO1(3),LFO2(4),LFO2-phase(5),
LFO2-fast(6)
2 01...FF VCO2 Pitch Mod Depth -127...+127 80(+0)
1 00...7F Mixer VCO1 Level 0...127 7F
1 00...7F Mixer VCO2 Level 0...127 00
1 00...7F Mixer Ring Mod Level 0...127 00
1 00...7F Mixer Noise Level 0...127 00
1 00...7F FilterEG Attack Time 0...127 00
1 00...7F FilterEG Decay Time 0...127 40
1 00...7F FilterEG Sustain Level 0...127 7F
1 00...7F FilterEG Release Time 0...127 55(85)
1 00...7F VCF HPF Cutoff Freq 0...127 00
1 00...05 VCF Filter Type LPF-24dB(0),LFP-18dB(1), 00(LPF-24dB)
LPF-12dB(2),BPF(3),HPF-12dB(4),
BEF(5)
1 00...7F VCF Filter Cutoff 0...127 64(100)
1 0D...7F VCF Filter Resonance -12(0D)...0(19)...+102(7F) 19(+0)
2 00...FF FilterEG Depth -128...+127 A0(+32)
1 00...7F FilterEG Velocity Sens -64...+63 40(+0)
1 20...7F VCF Keyboard Track -32...+63 40(+0)
1 00...7F VCF Filter Mod Depth -64...+63 40(+0)
1 00...7F AmpEG Attack Time 0...127 00
1 00...7F AmpEG Decay Time 0...127 40
1 00...7F AmpEG Sustain Level 0...127 7F
1 00...7F AmpEG Release Time 0...127 24(36)
1 00...7F VCA Feedback Level 0...127 00
1 00...7F VCA Volume 0...127 69(105)
1 00...7F AmpEG Velocity Sens -64...+63 40(+0)
1 00...7F VCA Amp Mod Depth -64...+63 40(+0)
1 01...7F Vari-Ef Dry:Wet D63>W(1)...D=W(40)...D<W63(7F) *16 01(D63>W)
dry(0-3F),wet(40-7F) *17
dry(0-3F),both(40),wet(41-7F) *18
1 00...00 Reserve 0...0 00
1 00...72 Ctrl Matrix Source1 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 1 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 1 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source2 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 2 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 2 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source3 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 3 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 3 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source4 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 4 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 4 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source5 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 5 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 5 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source6 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 6 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 6 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source7 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 7 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 7 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source8 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 8 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 8 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source9 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 9 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 9 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source10 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 10 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 10 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source11 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 11 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 11 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source12 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 12 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 12 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source13 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 13 off(0)...Vari-Ef Dry:Wet(24) *19 0
1 00...7F Ctrl Matrix Depth 13 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source14 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 14 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 14 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source15 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 15 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 15 Depends on Ctrl Matrix Param *19 40(+0)
1 00...72 Ctrl Matrix Source16 off(0)...Assign Knob8(72) *19 00
1 00...24 Ctrl Matrix Param 16 off(0)...Vari-Ef Dry:Wet(24) *19 00
1 00...7F Ctrl Matrix Depth 16 Depends on Ctrl Matrix Param *19 40(+0)
(from Here : Step Seq Pattern Data)
1 00...09 Step Seq Base Unit 3/8(0)...1/32(9) 04(1/8)
1 01...10 Step Seq Length 1steps(1)...16steps(10) 08
1 00...03 Step Seq Loop Type fwd(0),backwd(1),alternateA(2), 00(fwd)
alternateB(3)
1 00...60 Step Seq Ctrl Change No off(0)...95,AT(60) 00(off)
1 00...00 reserved 00 00
1 00...00 reserved 00 00
1 00...7F Step Seq Note No 1 C-2(0)...G8(7F) C3(3C)
1 00...7F Step Seq Note No 2 C-2(0)...G8(7F) C3(3C)
1 00...7F Step Seq Note No 3 C-2(0)...G8(7F) C3(3C)
1 00...7F Step Seq Note No 4 C-2(0)...G8(7F) C3(3C)
1 00...7F Step Seq Note No 5 C-2(0)...G8(7F) C3(3C)
1 00...7F Step Seq Note No 6 C-2(0)...G8(7F) C3(3C)
1 00...7F Step Seq Note No 7 C-2(0)...G8(7F) C3(3C)
1 00...7F Step Seq Note No 8 C-2(0)...G8(7F) C3(3C)
1 00...7F Step Seq Note No 9 C-2(0)...G8(7F) C3(3C)
1 00...7F Step Seq Note No 10 C-2(0)...G8(7F) C3(3C)
1 00...7F Step Seq Note No 11 C-2(0)...G8(7F) C3(3C)
1 00...7F Step Seq Note No 12 C-2(0)...G8(7F) C3(3C)
1 00...7F Step Seq Note No 13 C-2(0)...G8(7F) C3(3C)
1 00...7F Step Seq Note No 14 C-2(0)...G8(7F) C3(3C)
1 00...7F Step Seq Note No 15 C-2(0)...G8(7F) C3(3C)
1 00...7F Step Seq Note No 16 C-2(0)...G8(7F) C3(3C)
1 00...7F Step Seq Velocity 1 rest(0),1...127 100(64)
1 00...7F Step Seq Velocity 2 rest(0),1...127 100(64)
1 00...7F Step Seq Velocity 3 rest(0),1...127 100(64)
1 00...7F Step Seq Velocity 4 rest(0),1...127 100(64)
1 00...7F Step Seq Velocity 5 rest(0),1...127 100(64)
1 00...7F Step Seq Velocity 6 rest(0),1...127 100(64)
1 00...7F Step Seq Velocity 7 rest(0),1...127 100(64)
1 00...7F Step Seq Velocity 8 rest(0),1...127 100(64)
1 00...7F Step Seq Velocity 9 rest(0),1...127 100(64)
1 00...7F Step Seq Velocity 10 rest(0),1...127 100(64)
1 00...7F Step Seq Velocity 11 rest(0),1...127 100(64)
1 00...7F Step Seq Velocity 12 rest(0),1...127 100(64)
1 00...7F Step Seq Velocity 13 rest(0),1...127 100(64)
1 00...7F Step Seq Velocity 14 rest(0),1...127 100(64)
1 00...7F Step Seq Velocity 15 rest(0),1...127 100(64)
1 00...7F Step Seq Velocity 16 rest(0),1...127 100(64)
1 00...7F Step Seq Gate Time 1 1%(0)...100%(40)...200%(7F) 94%(3C)
1 00...7F Step Seq Gate Time 2 1%(0)...100%(40)...200%(7F) 94%(3C)
1 00...7F Step Seq Gate Time 3 1%(0)...100%(40)...200%(7F) 94%(3C)
1 00...7F Step Seq Gate Time 4 1%(0)...100%(40)...200%(7F) 94%(3C)
1 00...7F Step Seq Gate Time 5 1%(0)...100%(40)...200%(7F) 94%(3C)
1 00...7F Step Seq Gate Time 6 1%(0)...100%(40)...200%(7F) 94%(3C)
1 00...7F Step Seq Gate Time 7 1%(0)...100%(40)...200%(7F) 94%(3C)
1 00...7F Step Seq Gate Time 8 1%(0)...100%(40)...200%(7F) 94%(3C)
1 00...7F Step Seq Gate Time 9 1%(0)...100%(40)...200%(7F) 94%(3C)
1 00...7F Step Seq Gate Time 10 1%(0)...100%(40)...200%(7F) 94%(3C)
1 00...7F Step Seq Gate Time 11 1%(0)...100%(40)...200%(7F) 94%(3C)
1 00...7F Step Seq Gate Time 12 1%(0)...100%(40)...200%(7F) 94%(3C)
1 00...7F Step Seq Gate Time 13 1%(0)...100%(40)...200%(7F) 94%(3C)
1 00...7F Step Seq Gate Time 14 1%(0)...100%(40)...200%(7F) 94%(3C)
1 00...7F Step Seq Gate Time 15 1%(0)...1100%(40)...200%(7F) 94%(3C)
1 00...7F Step Seq Gate Time 16 1%(0)...1100%(40)...200%(7F) 94%(3C)
1 00...7F Step Seq Ctrl Change Value 1 0...127 0(00)
1 00...7F Step Seq Ctrl Change Value 2 0...127 0(00)
1 00...7F Step Seq Ctrl Change Value 3 0...127 0(00)
1 00...7F Step Seq Ctrl Change Value 4 0...127 0(00)
1 00...7F Step Seq Ctrl Change Value 5 0...127 0(00)
1 00...7F Step Seq Ctrl Change Value 6 0...127 0(00)
1 00...7F Step Seq Ctrl Change Value 7 0...127 0(00)
1 00...7F Step Seq Ctrl Change Value 8 0...127 0(00)
1 00...7F Step Seq Ctrl Change Value 9 0...127 0(00)
1 00...7F Step Seq Ctrl Change Value 10 0...127 0(00)
1 00...7F Step Seq Ctrl Change Value 11 0...127 0(00)
1 00...7F Step Seq Ctrl Change Value 12 0...127 0(00)
1 00...7F Step Seq Ctrl Change Value 13 0...127 0(00)
1 00...7F Step Seq Ctrl Change Value 14 0...127 0(00)
1 00...7F Step Seq Ctrl Change Value 15 0...127 0(00)
1 00...7F Step Seq Ctrl Change Value 16 0...127 0(00)
TOTAL SIZE 796
mm = 00 ~ 7F : User Voice 1 ~ User Voice 128
*1 : see other table (Ctrl Matrix Paramter List)
*2 : see other table (Arpeggio Type List)
*3 : become available only when Step Seq is selected and Kbd Mode =’ptn-sel&norm’ or ‘ptn-sel&note-shift’
*4 : only when Arpeggio is selected
*5 : only when Step Seq is selected
*6 : except *7
*7 : only when Step Seq is selected and Kbd Mode = ‘ptn-sel&norm’ or ‘ptn-sel&note-shift’
*8 : become available only when Step Seq is selected
*9 : see other table (Free EG Track Paramter List)
*10 : only Bulk Dump (not transmitted and received as parameter change)
*11 : Poly Mode = poly
*12 : Poly Mode = mono,legato
*13 : see other table (LFO1 Wave Type List)
*14 : Osillator Sync = off
*15 : Osillator Sync = on
*16 : Vari-Ef Type = except *7, *8
*17 : Vari-Ef Type = Aural Exciter, Compressor
*18 : Vari-Ef Type = Distortion, Over Drive, Amp.Simulator
*19 : see other table (Ctrl Matrix Paramter List) and not exist in scene-ctrl buffer
MIDI Data Table <1-7>
MIDI Parameter Change Table ( User Step SEQ Pattern : Only Bulk Dump )
Address Size Data Prameter Name Description Default
(H) (H) (H) value(H)
01 mm 00 1 00...09 Step Seq Base Unit 3/8(0)...1/32(9) 04(1/8)
01 1 01...10 Step Seq Length 1steps(1)...16steps(10) 08
02 1 00...03 Step Seq Loop Type fwd(0),backwd(1),alternateA(2), 00(fwd)
alternateB(3)
03 1 00...60 Step Seq Ctrl Change No off(0)...95,AT(60) 00(off)
04 1 00...00 reserved 00 00
P11-19 97.9.19 2:24 PM Page 17
18
05 1 00...00 reserved 00 00
06 1 00...7F Step Seq Note No 1 C-2(0)...G8(7F) C3(3C)
07 1 00...7F Step Seq Note No 2 C-2(0)...G8(7F) C3(3C)
08 1 00...7F Step Seq Note No 3 C-2(0)...G8(7F) C3(3C)
09 1 00...7F Step Seq Note No 4 C-2(0)...G8(7F) C3(3C)
0a 1 00...7F Step Seq Note No 5 C-2(0)...G8(7F) C3(3C)
0b 1 00...7F Step Seq Note No 6 C-2(0)...G8(7F) C3(3C)
0c 1 00...7F Step Seq Note No 7 C-2(0)...G8(7F) C3(3C)
0d 1 00...7F Step Seq Note No 8 C-2(0)...G8(7F) C3(3C)
0e 1 00...7F Step Seq Note No 9 C-2(0)...G8(7F) C3(3C)
0f 1 00...7F Step Seq Note No 10 C-2(0)...G8(7F) C3(3C)
10 1 00...7F Step Seq Note No 11 C-2(0)...G8(7F) C3(3C)
11 1 00...7F Step Seq Note No 12 C-2(0)...G8(7F) C3(3C)
12 1 00...7F Step Seq Note No 13 C-2(0)...G8(7F) C3(3C)
13 1 00...7F Step Seq Note No 14 C-2(0)...G8(7F) C3(3C)
14 1 00...7F Step Seq Note No 15 C-2(0)...G8(7F) C3(3C)
15 1 00...7F Step Seq Note No 16 C-2(0)...G8(7F) C3(3C)
16 1 00...7F Step Seq Velocity 1 rest(0),1...127 100(64)
17 1 00...7F Step Seq Velocity 2 rest(0),1...127 100(64)
18 1 00...7F Step Seq Velocity 3 rest(0),1...127 100(64)
19 1 00...7F Step Seq Velocity 4 rest(0),1...127 100(64)
1a 1 00...7F Step Seq Velocity 5 rest(0),1...127 100(64)
1b 1 00...7F Step Seq Velocity 6 rest(0),1...127 100(64)
1c 1 00...7F Step Seq Velocity 7 rest(0),1...127 100(64)
1d 1 00...7F Step Seq Velocity 8 rest(0),1...127 100(64)
1e 1 00...7F Step Seq Velocity 9 rest(0),1...127 100(64)
1f 1 00...7F Step Seq Velocity 10 rest(0),1...127 100(64)
20 1 00...7F Step Seq Velocity 11 rest(0),1...127 100(64)
21 1 00...7F Step Seq Velocity 12 rest(0),1...127 100(64)
22 1 00...7F Step Seq Velocity 13 rest(0),1...127 100(64)
23 1 00...7F Step Seq Velocity 14 rest(0),1...127 100(64)
24 1 00...7F Step Seq Velocity 15 rest(0),1...127 100(64)
25 1 00...7F Step Seq Velocity 16 rest(0),1...127 100(64)
26 1 00...7F Step Seq Gate Time 1 1%(0)...100%(40)...200%(7F) 94%(3C)
27 1 00...7F Step Seq Gate Time 2 1%(0)...100%(40)...200%(7F) 94%(3C)
28 1 00...7F Step Seq Gate Time 3 1%(0)...100%(40)...200%(7F) 94%(3C)
29 1 00...7F Step Seq Gate Time 4 1%(0)...100%(40)...200%(7F) 94%(3C)
2a 1 00...7F Step Seq Gate Time 5 1%(0)...100%(40)...200%(7F) 94%(3C)
2b 1 00...7F Step Seq Gate Time 6 1%(0)...100%(40)...200%(7F) 94%(3C)
2c 1 00...7F Step Seq Gate Time 7 1%(0)...100%(40)...200%(7F) 94%(3C)
1d 1 00...7F Step Seq Gate Time 8 1%(0)...100%(40)...200%(7F) 94%(3C)
2e 1 00...7F Step Seq Gate Time 9 1%(0)...100%(40)...200%(7F) 94%(3C)
2f 1 00...7F Step Seq Gate Time 10 1%(0)...100%(40)...200%(7F) 94%(3C)
30 1 00...7F Step Seq Gate Time 11 1%(0)...100%(40)...200%(7F) 94%(3C)
31 1 00...7F Step Seq Gate Time 12 1%(0)...100%(40)...200%(7F) 94%(3C)
32 1 00...7F Step Seq Gate Time 13 1%(0)...100%(40)...200%(7F) 94%(3C)
33 1 00...7F Step Seq Gate Time 14 1%(0)...100%(40)...200%(7F) 94%(3C)
34 1 00...7F Step Seq Gate Time 15 1%(0)...100%(40)...200%(7F) 94%(3C)
35 1 00...7F Step Seq Gate Time 16 1%(0)...100%(40)...200%(7F) 94%(3C)
36 1 00...7F Step Seq Ctrl Change Value 1 0...127 0(00)
37 1 00...7F Step Seq Ctrl Change Value 2 0...127 0(00)
38 1 00...7F Step Seq Ctrl Change Value 3 0...127 0(00)
39 1 00...7F Step Seq Ctrl Change Value 4 0...127 0(00)
3a 1 00...7F Step Seq Ctrl Change Value 5 0...127 0(00)
3b 1 00...7F Step Seq Ctrl Change Value 6 0...127 0(00)
3c 1 00...7F Step Seq Ctrl Change Value 7 0...127 0(00)
3d 1 00...7F Step Seq Ctrl Change Value 8 0...127 0(00)
3e 1 00...7F Step Seq Ctrl Change Value 9 0...127 0(00)
3f 1 00...7F Step Seq Ctrl Change Value 10 0...127 0(00)
40 1 00...7F Step Seq Ctrl Change Value 11 0...127 0(00)
41 1 00...7F Step Seq Ctrl Change Value 12 0...127 0(00)
42 1 00...7F Step Seq Ctrl Change Value 13 0...127 0(00)
43 1 00...7F Step Seq Ctrl Change Value 14 0...127 0(00)
44 1 00...7F Step Seq Ctrl Change Value 15 0...127 0(00)
45 1 00...7F Step Seq Ctrl Change Value 16 0...127 0(00)
TOTAL SIZE 46
mm = 00 ~ 7F : User Pattern 1 ~ User Pattern
P11-19 97.9.19 2:24 PM Page 18
19
: True number
: Song Position
: Song Select
: Tune
: Clock
: Commands
: Local On/Off
: All Notes Off
: Active Sense
: Reset
Program
Change
System Exclusive
System
Common
System
Real Time
Aux
Messages
Mode 2: OMNI ON, MONO
Mode 4: OMNI OFF, MONO
Mode 1: OMNI ON, POLY
Mode 3: OMNI OFF, POLY
Notes : *1: m is always treated as "1" regardless of its value.
0,32
1,4,7,12,13,64
5,10,11,65
6,38
66,67,84
71-74
0-95
91,93,94
96-97
98-99
100-101
120
121
Control Change
Bank Select
Data Entry
Sound Controller
Assignable Control
Effect Send Level
Data Inc, Dec
NRPN LSB,MSB
RPN LSB,MSB
All Sounds Off
Reset All Controls
Default
Changed
Default
Messages
Altered
: True voice
Note on
Note off
Key's
Ch's
Basic
Channel
Mode
Note
Number
Velocity
After
Touch
Pitch Bend
Function...
Transmitted
Recognized
Remarks
Memorizd
Memorizd
Transpose
YAMAHA [ Control Synthesizer ]
Model : AN1x MIDI Implementation Chart
Date:19-MAR-1997
Version: 1.0
P11-19 97.9.19 2:24 PM Page 19
M.D.G., EMI Division, ©Yamaha Corporation 1997
AN1x_DATALIST/C-4/E 97.7.11 1:45 PM y[W 1
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Yamaha AN1x Data papier

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Type
Data papier