background image

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

Summary of Contents for AN1x

Page 1: ...Cover1 97 7 111 10PMy W 1...

Page 2: ...t 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 H...

Page 3: ...l 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 back...

Page 4: ...cey 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 pit...

Page 5: ...d 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...

Page 6: ...able 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 Par...

Page 7: ...ms 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...

Page 8: ...8 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...

Page 9: ...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 PORTAME...

Page 10: ...O2PWMSrc x x x 31 VCO2PmodDp 24 add O 63 63 x x 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 2...

Page 11: ...aaaa 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 Synthesiz...

Page 12: ...EPTH 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...

Page 13: ...e 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...

Page 14: ...s 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 E...

Page 15: ...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...

Page 16: ...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 Fr...

Page 17: ...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 Va...

Page 18: ...27 100 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 Ga...

Page 19: ...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 O...

Page 20: ...M D G EMI Division Yamaha Corporation 1997 AN1x_DATALIST C 4 E 97 7 111 45PMy W 1...

Reviews: