Contents

KORG EXB-MOSS Owner's Manual PDF

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Summary of Content for KORG EXB-MOSS Owner's Manual PDF

2E

EXB-MOSS DSP Synthesizer Board

Owners Manual For the procedure of installing this product, refer to the owners manual of the device into which the product is being installed.

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Warning When installing, servicing, or replacing parts for this product, do not perform any action that is not prescribed in the owner's manual. Do not apply excessive force to the electronic components or connectors on the circuit board, and do not disassemble it. Electrical shock, fire, or malfunction may result. Before installing this product, disconnect the power supply cable of the device in which it is being installed, and discon- nect any cables that connect peripheral devices. Failure to do so may cause electrical shock or malfunctions.

Caution Do not allow this product to become wet, and do not place objects on top of it. Doing so will cause malfunctions. Before touching this product, touch a metal part of the device into which it will be installed, so that any static electricity in your body will be discharged. Failure to do so will risk damaging the electronic components by static electricity. When handling this product, be careful not to touch the leads (wires protruding from the electronic components) on the rear side of the circuit board. Injury may result. When installing this product, do not touch any unrelated parts or circuit boards. Electric shock or malfunction may result. When installing this product, be careful not to cut yourself on any sharp edges or parts of this product or of the device into which this product is being installed. When installing this product, be careful not to drop screws etc. into the device into which this product is being installed.

The manufacturer makes no warrantee regarding possible malfunctions or damage that may result from improper use or

modification. The manufacturer also will take no responsibility for any damages that may result from loss or disappear-

ance of data.

Installing this product For the procedure of installing this product, refer to the owner's manual of the device into which the product is being installed. If you have any questions, please contact your local Korg distributor.

Cautions when installing an option board In order to install the board correctly, please pay attention to the following points. Be careful of static electricity, which may damage components inside the product or on the board. Before beginning the installation, touch an unpainted metal part of the chassis or the grounding terminal of a grounded device to discharge any static electricity that may be present in your body. Perform the installation according to the steps given in the directions, making sure that the board is installed correctly and in the correct orientation. Verify that the option board has been installed correctly. If installation is incorrect, faulty connections or a shorted power supply can cause malfunctions. All the screws that are removed will be used, so be careful not to lose any. Using screws of the incorrect shape or length can cause malfunctions or damage to the product. Use only the screws that were included with the option board or the screws that were fastened in the instrument. When installing or removing the board, be careful not to drop parts or the option board into the instrument. Make sure that the attaching screws are tightened firmly, and are not loose. Handle the board with care. Subjecting it to physical shock (by dropping or pressing it) may cause damage or malfunctions. Be careful not to touch any exposed metal portions of the circuit board, or any parts that are not essential to the installation process.

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Installing this product ..................................................... 2

Cautions when installing an option board .................... 2

1. Introduction ................................................................. 4 Features of the EXB-MOSS .......................................................... 4

2.The structure of bank F programs.............................. 5 Program structure .......................................................................... 5

Features of the oscillator ............................................................... 6

3. Bank F operations ....................................................... 7 Loading the preset programs......................................................... 7

Selecting a program/combination .................................................. 7

Editing a program .......................................................................... 7

Editing a combination .................................................................... 8

Sequencer and Song Play modes ................................................. 9

Control change transmission/reception for the EXB-MOSS ........ 10

4. Parameters ................................................................. 11 Program mode ............................................................................11

Program P0: Play ............................................................................... 11

Program P1: Edit-Basic......................................................................12

Program P2: Edit-Pitch ......................................................................36

Program P3: Edit-Filter ......................................................................38

Program P4: Edit-Amp .......................................................................40

Program P5: Edit-Common LFO ........................................................43

Program P6: Edit-Common EG..........................................................45

Program P7: Edit-Arpeggiator ............................................................46

Program P8: Edit-Insert Effect ...........................................................46

Program P9: Edit-Master Effect ........................................................ 46

Combination mode .................................................................... 47

Combination P4: MOSS Setup ............................................... 47

Appendices .................................................................... 48 Cautions when using bank F ....................................................... 48

Affix the Sondius-XG label ........................................................... 48

Modulation Source List ................................................................ 48

Voice Name List ........................................................................... 49

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1. Introduction Thank you for purchasing the Korg EXB-MOSS DSP synthesizer board. In order to enjoy long and trouble- free use, please read this manual carefully and use the EXB-MOSS correctly.

Before you use this product, you must read the Safety Precautions listed in the beginning of the Parameter Guide.

This manual explains the Bank F parameters that are added when the EXB-MOSS is installed. For details on the parameters other than Bank F, refer to the TRITONs Parameter Guide and Basic Guide etc.

Features of the EXB-MOSS The EXB-MOSS is an option board containing a MOSS (Multi-Oscillator Synthesis System) tone generator with six-voice polyphony. The MOSS tone generator is a physical modeling tone generator that uses Sondius-XG* technology. When the EXB-MOSS is installed into the TRITON, you will be able to use the 128 MOSS tone generator programs in program bank F. Bank F is dedicated to MOSS tone generator programs. Bank F programs can be selected for a timbre/track in Combination, Song, and Song Play modes. You can also create combinations or songs that combine bank F programs with other programs from banks AE or G. Broadly speaking, a MOSS tone generator program consists of voice, EG, LFO, effect, and control sections. The voice section contains an oscillator and a filter. The oscillator provides two oscillators (1 and 2), which can use thirteen different oscillator algorithms, including Standard, Ring Modulation, VPM, Reso- nance, Organ Model, and Electric Piano Model. The oscillator also provides a sub oscillator and a noise generator. The filter provides five types of filters (two filter systems), including a Human Voice Filter that lets you simultaneously set two center frequencies, and a Dual Band Pass Filter that lets you simulate the body resonances of a violin or guitar. Five EG units and four LFO units can be used to modulate this voice section in order to create time- varying movement of pitch, tone, and volume.

* This product was developed under license of physical modeling tone generator patents (http://www.sondius- xg.com) owned by Stanford University USA and Yamaha Corporation.

Specifications and appearance are subject to change without notice for product improvement.

Other product names and company names are registered trademarks and trademarks of their respective owners.

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2.The structure of bank F programs

Program structure The programs of bank F have the following structure.

Oscillator This section produces the waveform that is the basis of the sound. Settings are made by the Program P1: Edit-Basic and Program P2: Edit-Pitch parameters. OSC 1, 2 Thirteen oscillator types (methods of sound genera- tion) are provided. Of these, you can select two oscillator types for use together, and make basic settings for the pitch and waveform. However for some oscillator types, only one type can be used. Settings are made by the parameters of 11: Prog Basic, 12: OSC Basic, 13: OSC1, and 14: OSC2. Sub oscillator One of four basic waveforms can be selected. Its pitch can be set in the same way as OSC1 and 2. These settings are made by the parameters of 12: OSC Basic and 23: SubOSC P.Mod. Noise generator This produces white noise, which can be passed through a multi-mode filter (low pass filter, high pass filter, band pass filter). Settings are made by the 15: Noise Generator parameters.

Mixer This section mixes the signals from oscillators 1 and 2, the sub oscillator, the noise generator, and the feedback from the amp, and outputs the result to multi-mode filters 1 and 2 (filter section). Settings are made by the 16: Mixer parameters.

Mixer

Oscillator 1

Oscillator 2

Sub Oscillator

Noise Generator

Feedback

Amp1

Amp2

Pan LPF/HPF/BPF/BRF/2BPF

LPF/HPF/BPF/BRF/2BPF

Filter 1

Filter 2

Insert Effect

Master Effect

Master EQ

L/Mono R

OSC Mixer

Filter AMP

FX

EG1 EG2 EG3 EG4 Amp.EG

LFO1 LFO2 LFO3 LFO4

Joy Stick, Ribbon Controller & other controllers

INDIVIDUAL 1, 2, 3, 4

Filter This section processes the waveform by attenuating or boosting specific frequency ranges. Two multi-mode filters are provided. As filter types, you can select from low pass, high pass, band pass, band reject, or dual band pass filters. These filters can be used to modify the brightness of the sound. You can also select the connection routing between the two filters and the mixer and amp. Settings are made by the Program P3: Edit-Filter parameters.

Amp This section modifies the volume of the sound that is output from the filter. There are two independent amps. The signal that is input to each will depend on the filter connections. The amp section also provides a special envelope generator for controlling the amp (Amp EG). These settings are made by the Program P4: Edit- Amp parameters.

Effect This section applies effects to the signal that is output from the amp. It has the same parameter structure as the programs of other banks. Settings are made by the Program P7: Edit- Arpeggiator and Program P8: Edit-Insert Effect parameters.

LFO This section provides four LFO units. Each LFO can be used as a modulation source for various param- eters, to apply cyclic change to the sound. Settings are made by the Program P5: Edit-Common LFO parameters.

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EG This section provides four general-purpose EG units. Each EG can be used as a modulation source for various parameters, to apply time-variant change to the sound. Settings are made by the Program P6: Edit-Common EG parameters.

Arpeggiator The arpeggiator can be used in the same way as for the programs of other banks. Settings are made by the Program P7: Edit-Arpeggiator parameters.

Program Basic Here you can make settings for functions such as Scale, Key Assign, and Controllers (joystick, ribbon controller etc.). Settings are made by the 11: Prog Basic and 17: Controller Setup parameters.

Features of the oscillator In a bank F program, you can choose from 13 oscillator types for OSC1 and 9 oscillator types for OSC2. In Program P1 11: Program Basic or 12: OSC Basic you can select the oscillator type for OSC1 and OSC2, and use them together. If a Single Size oscillator (StandardE. Piano Model) is selected for OSC1, you can select a StandardE. Piano Model for OSC2 as well. If a Double Size oscillator (Brass ModelBowed String Model) is selected for OSC1, OSC2 will be unavailable.

Standard This simulates the oscillator of an analog synthesizer. You can use PWM (pulse width modulation) etc. to produce the same results as on an analog synthesizer. (p.14 of this manual)

Comb Filter This oscillator creates pitched components from noise or an impulse. In addition to producing noisy sounds, it can also produce a wide variety of sound ranging from synth basses to string-like sound. (p.17 of this manual)

VPM (Variable Phase Modulation) This oscillator uses phase modulation to generate harmonics. A rich harmonic structure can be created by using phase modulation between two oscillators and the wave shaping table. (p.18 of this manual)

Resonance This oscillator uses filter resonance, and is an especially effective way to produce mallet sounds and pad sounds. (p.20 of this manual) Ring Modulation Cross Modulation Sync Modulation These are special oscillators for generating the sounds which could be produced on an analog synthesizer by modulating one oscillator with another. These allow you to produce sounds with complex overtone structures such as bells, metallic sounds, and gongs. (p.2123 of this manual)

Organ Model This simulates a drawbar organ with three drawbars (when one oscillator is used) or six drawbars (when two oscillators are used) (page 23 of this manual). Since each drawbar can use one of four types of waveform, a wide range of tones can be produced.

E. Piano Model (electric piano model) This is a physical model that simulates a warm vintage electric piano. (p.24 of this manual)

Brass Model This is a physical model that simulates a brass instrument such as a trumpet or trombone. (p.25 of this manual)

Reed Model This is a physical model that simulates a woodwind instrument such as a sax or flute. (p.27 of this manual)

Plucked String Model This is a physical model that simulates plucked string instrument such as guitar or bass. (p.29 of this manual)

Bowed String Model This is a physical model that simulates a bowed string. (p.31 of this manual)

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3. Bank F operations

Loading the preset programs Please load the EXBMOSS-00FD data from the floppy disk included with the EXB-MOSS. For details on the procedure, refer to Disk mode of the TRI- TON Basic Guide. The floppy disk contains the following data.

MOSS.PCG Program Bank A*, B*, F Combination Bank A*, B Drum Kits 0015(A/B)* Arpeggio Pattern 000199(A/B)* Global setting* MOSS.SNG Cue List Demo Song "Feet Hurt MOSS" by Scott Frankfurt

1999 Bleach Bros. Music (breachbros@earthlink.net) - all rights reserved.

Program bank F contains programs that use the EXB- MOSS. Combination bank B contain combinations that use bank F programs together with the TRITONs preloaded programs of banks A and B. * Same as the preloaded data of the TRITON.

When you load MOSS.PCG Programs, combinations, drum kits, arpeggio patterns, and global settings will be written into the TRITONs internal memory.

When you load MOSS.PCG, all the current contents of internal memory will be erased and overwritten.

When you load MOSS.SNG Demo songs that use the bank F programs etc. of MOSS.PCG will be loaded. These songs can be played in Sequencer mode.

When you select and load MOSS.SNG, all the current contents of sequencer memory will be erased and overwritten.

Selecting a program/ combination

In Program P0: Play, you can select a bank F program 000127 in the same way as for banks AE. You can also select programs from the Category/ Program Select menu or the Bank/Program Select menu. Combinations can be selected in Combination P0: Play, and also from the Category/Combination Select menu or the Bank/Combination Select menu. For a list of the programs/combinations in the included floppy disk, refer to Voice Name List on p.49 of this manual.

Editing a program If a bank F MOSS tone generator program is selected in Program P0: Play, you can use P1P9 to edit the program parameters. For details on the program parameters, refer to the Parameters section that begins on p.11 of this manual.

The performance editor parameter Pitch Stretch of Program P0: Play cannot be used for bank F programs.

Damper pedal (CC#64) cannot be used to apply a half-damper effect to the programs of bank F. The damper will function in an on/off mode (vv=0063:off, 64127: on). Nor can the sostenuto pedal (CC#66) or soft pedal (CC#67) effects be applied to these pro- grams. Refer to TRITON Basic Guide p.118.

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Editing a combination You can select a bank F program for a timbre in a combination, and use it in the combination together with programs of banks AE and G. Different MOSS tone generator programs from bank F can be selected for two or more timbres, and used multi-timbrally. In this case, the total polyphony of the MOSS tone generator programs will be six voices.

Insertion/master effect settings and the routing to the individual audio outputs cannot be made independently for multiple timbres.

If you change programs while a bank F program is sounding, the bank F program will stop sounding.

When playing multi-timbrally and a bank F program is being sounded, selecting a bank F program for the timbre number prior to that timbre number will cause noise to be heard in the currently-sounding bank F program.

Editing a combination Heres how to select programs and set the parameters that determine how each program will sound.

(1) Select Combination P0: Play. For details on how to enter each page, refer to p.52 Combination mode in the TRITON Basic Guide.

(2) Select the combination number that you wish to edit.

(3) Select the Combination P4: MOSS Setup tab. Before you select a bank F program, make settings here to specify how the MOSS tone generator will sound.

(4) Set the Voice Allocation Reserve parameter to specify the polyphony for each timbre. For each timbre, specify the number of voices that will be allocated when a MOSS tone generator program is selected. A total of six voices can be allocated. For example, you might allocate two voices to timbre 1 for a bass-type MOSS program, and up to four voices to timbre 2 for an electric piano MOSS program.

These settings have no effect on the programs of banks AE and G. When the timbre bank/program is changed to switch a timbre from a bank F program to a bank AE or G program, the bank AE or G program will sound as usual.

When the timbre bank/program is changed to switch a timbre from a bank AE or G program to a bank F program, it will sound according to the setting you make here. Timbres for which a value of 0 is set will not sound if a bank F program is selected.

(5) Set the MOSS BUS Select Reference. The bank F programs will be routed to the insertion/ master effects or individual audio output according to the settings of the timbre you select here.

The timbre 18 you select here does not have to be using a bank F program.

Bank F programs can be used for two or more timbres according to the Voice Allocation Reserve setting. However, settings for insertion/master effects and routing to individual audio outputs can not be made independently for two or more timbres. Timbre settings for insertion/master effects and routing to individual audio outputs are made in the Program P8: Routing tab. Use the following procedure to make settings. Example) 1. Set MOSS BUS Select Reference to Timbre 1. 2. In the Program P8: Routing tab, set the timbre 1 IFX/Indiv.Out BUS Select to L/R. All bank F programs that you selected will be sent to L/R (without using the insertion effects). 3. Set the timbre 1 parameters Send 1 and Send 2 to 064 and 127 respectively. The signal will be sent to MFX1 and MFX2 at the specified levels. 4. If you wish to use an insertion effect, set IFX/ Indiv.Out BUS Select to IFX1IFX5. If you wish to output to the [AUDIO OUT INDIVIDUAL] 14 jacks, select 14, 1/2, or 3/4.

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The actual levels of send 1 and 2 for a timbre using a bank AE or G program is determined by multiplying the timbre setting by the send level of the program, but for timbres that use a bank F program, the send level setting of the timbre will be the actual level.

This setting has no effect for bank AE or G programs.

(6) Select Combination P1: Edit-Program/ Mixer.

(7) In Bank/Program, select a bank F program. Programs can also be selected from the Category/Program Select menu or the Bank/Program Select menu.

(8) Use Pan to adjust the panpot of the timbre. When a bank F program is selected, the Random setting will not be available. If Random is selected, the sound will be placed in the center, as with C064.

(9) Use Volume to adjust the volume of the timbre.

(10) Make settings for other parameters. In the same way as for programs of other banks, set the parameters of each timbre, and make arpeggiator settings and insertion/master effect settings. However when a bank F program is selected for a timbre, the following parameters will function as explained below. OSC Select will have no effect. (Combination P2: OSC tab) The Detune range will be 100. Even if the absolute value of the parameter setting is greater than 100, the actual detune value will be 100 cents. (Program P2: OSC tab) The Key Zone / Vel Zone Top Slope and Bottom Slope settings will have no effect. (Program P4: Key Z, Vel Z tabs)

Sequencer and Song Play modes

Bank F programs can be selected for playback of a song or Standard MIDI File, or for performance from the keyboard. In the same way as in a combination, bank F programs can be selected for two or more tracks and used multi-timbrally. In this case, the total polyphony of the bank F programs will be six voices.

Insertion/master effect settings and individual audio output routing cannot be specified independently for each track.

Details of the settings, the operation of each param- eter, and cautions are the same as for combinations. Refer to Editing a combination on p.8 of this manual. Sequencer P4: MOSS T0108, MOSS T0916 tabs Song Play P1: MOSS T0108, MOSS T0916 tabs

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Control change transmission/ reception for the EXB-MOSS

In the same way as bank AE or G programs, bank F programs can receive MIDI control changes CC#70 79, and can be operated by the front panel realtime control knobs 14 in A-mode. In B-mode, CC#7079 can be assigned as knob functions, and used to control the program sound. These settings can be saved by writing them in Program mode. Refer to p.223 of the TRITON Parameter Guide.

CC#70: Sustain Level Sustain Level (Program P4: AmpEG tab, Program P6)

This controls the EG that is selected by Filter EG (Program P3: Filter 1/2 tab) and Amp Level EG (Program P4: Amp 1/2 Level tab).

CC#71: Filter Resonance Level Filter A Resonance (Program P3: Filter 1/2 tab) Filter B Resonance (Program P3: Filter 1/2 tab)

CC#72: Release Time Release Time (Program P4: AmpEG tab, Program P6)

This controls the EG that is selected by Filter EG (Program P3: Filter 1/2 tab) and Amp Level EG (Program P4: Amp 1/2 Level tab).

CC#73: Attack Time Attack Time (Program P4: AmpEG tab, Program P6) Time Modulation At (Program P4: AmpEG tab, Program P6)

This controls the EG that is selected by Filter EG (Program P3: Filter 1/2 tab) and Amp Level EG (Program P4: Amp 1/2 Level tab).

CC#74: Low Pass Filter Cutoff Frequency Filter A Frequency (Program P3: Filter 1/2 tab) Filter B Frequency (Program P3: Filter 1/2 tab)

CC#75: Decay Time Decay Time (Program P4: AmpEG tab, Program P6: EG14 tabs) Slope Time (Program P4: AmpEG tab, Program P6: EG14 tabs)

This controls the EG that is selected by Filter EG (Program P3: Filter 1/2 tab) and Amp Level EG (Program P4: Amp 1/2 Level tab).

CC#76: Pitch LFO Speed LFO14 Frequency (Program P5: LFO14 tabs)

If LFO 14 is selected for Pitch Modulation AMS1, AMS2 (Program P2: OSC1/2 Pitch Mod. tab) or Common Pitch Modulation AMS (Program P2: Common Pitch Mod. tab), this control change message will control that LFO.

CC#77: Pitch LFO Intensity Pitch Modulation AMS1 Intensity (Program P2: OSC1/2 Pitch Mod. tab) Pitch Modulation AMS2 Intensity (Program P2: OSC1/2 Pitch Mod. tab) Common Pitch Modulation AMS Intensity (Pro- gram P2: Common Pitch Mod. tab)

If LFO 14 is selected for the corresponding AMS, this control change message will control that LFO.

CC#78: Pitch LFO Delay LFO1, 2, 3, 4 Fade (Program P5)

If LFO 14 is selected for Pitch Modulation AMS1, AMS2 (Program P2: OSC1/2 Pitch Mod. tab) or Common Pitch Modulation AMS (Program P2: Common Pitch Mod. tab), this control change message will control that LFO.

CC#79: Filter EG Intensity Filter A EG Intensity (Program P3: Filter 1/2 tab) Filter B EG Intensity (Program P3: Filter 1/2 tab)

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4. Parameters

Depending on the oscillator types or effect types used by the programs, a certain interval of time may be required after a program is selected until it actually changes.

02: Arpeggio Here you can perform simple editing of the arpeggiator. For details on the parameters, refer to p.3 02: Arpeggio of the TRITONs Parameter Guide.

This document explains the parameters that appear the screen pages that are added when the EXB-MOSS is installed. For details on the other screen pages, refer to the Parameter Guide and Basic Guide etc. of the TRITON. In Program mode, you can use the Write Program page menu command to write an edited program into the specified program number.

When you press the front panel [REC/WRITE] key, the Update Program dialog box will appear. Here too, you can write to the cur- rently selected program.

Be sure to write important programs that you edit. If you turn off the power or select another program before you write, your edits cannot be recovered. Refer to Saving data on p.37 of the TRITON Basic Guide.

Program mode

Program P0: Play

01: Perf.Edit (Performance Edit) Here you can select a program and perform simple editing. For details on the parameters, refer to p.1 1. Program mode of the TRITON Parameter Guide. Parameters that can be controlled from the Performance Editor Octave Octave of OSC1, OSC2, and Sub OSC Pitch Cannot be used for bank F. OSC Balance OSC 1 and 2 levels of OSC Mixer 1

and 2 Amp Level Output level Attack Time Amp EG, EG1,2,3,4

Attack Time, Time Modulation At (controls the EG selected by Filter 1, 2, Filter EG, Amp 1, 2, and Amp Level EG)

Decay Time Amp EG, EG 1, 2, 3, 4 Decay Time, Slope Filter (controls the EG selected by Filter 1, 2, FilterEG, Amp1, 2, and Amp Level EG)

IFX Balance Wet/dry balance of each effect IFX15 MFX Balance Master effect return 1, 2

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Program P1: Edit-Basic Here, you can select programs and perform simple editing.

11: Program Basic

11a

11b

11d

11c

11a: Multi OSC Setup Here, you can make settings for the oscillator. The parameters that are set in 13: OSC 1 and 14: OSC 2 will differ depending on the oscillator type that is selected here. (Link: 12a, 12b)

OSC 1 (Oscillator 1 Type) [StandardBowed String Model]

Selects the oscillator type for oscillator 1. For details on the oscillator types, refer to Features of the oscillator on p. 6 of this manual.

Single Size Standard Comb Filter VPM (Variable Phase Moulation) Resonance Ring Modulation Cross Modulation Sync Modulation Organ Model E. Piano Model

Double Size Brass Model Reed Model Plucked String Model Bowed String Model

When Double Size (Brass Model, Reed Model, Plucked String Model, or Bowed String Model) are selected, OSC 2 cannot be used.

OSC 2 (Oscillator 2 Type) [StandardE. Piano Model]

Selects the oscillator type for oscillator 2. Refer to OSC 1.

11b: Unison Here, you can make settings for unison mode.

Unison [OFF, 2voices, 3voices, 6voices] Specifies the number of notes which will be sounded in unison. With a setting of OFF, unison will not be used. The maximum polyphony will be three notes with a setting of 2voices, two notes for a setting of 3voices, and one note for a setting of 6voices.

Mode [Fixed, Dynamic] Specifies how the number of voices specified by the Unison setting will be allocated. With a setting of Fixed, the number of voices specified by the Unison setting will always sound. With a setting of Dynamic, the number of voices will be determined by the current note-playing situation.

Detune [099] Detunes the notes that are sounded simultaneously by the Unison function.

11c: Voice Assign Mode Here, you can specify how notes will sound when keys are pressed.

Poly, Mono (Single, Multi) Selects whether the sound will be played monophoni- cally or polyphonically. Poly: Polyphonic playing Mono (Single): Single-triggered monophonic playing Mono (Multi): Multi-triggered monophonic playing.

When Poly is selected, the Retrigger Control and Threshold parameters will be unavailable.

Retrigger (Retrigger Contol) [OffMIDI:CC#83] Retrigger refers to the action of resetting the EG and LFO at the time of note-on (the EG will return to its start level, and the LFO will return to the beginning of the cycle of its waveform). Here you can select the controller which will specify whether or not the sound will be retriggered when a note-on occurs.

Threshold (Retrigger Control Threshold) [1127] Specifies the value at which EG and LFO will be retriggered by a note-on. The state of the controller selected by Retrigger Control (i.e., whether the controller value is above or below the specified Threshold value) will determine whether or not the sound will be retriggered when a note-on occurs.

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The operation of this function will differ depending on the Voice Assign Mode setting. With a setting of Mono (Single), retriggering will occur if the controller is above the threshold value. If Retrigger Control is OFF, retriggering will not occur. With a setting of Mono (Multi), retriggering will occur if the controller is below the threshold value. If Retrigger Control is OFF, retriggering will always occur.

If a note-on occurs when all notes are off, retriggering will always occur. LFOs whose Key Sync is turned OFF will not be reset even if retriggering occurs.

Priority [Low, High, Last] Specifies the priority order that will be used when the number of keys pressed exceeds the maximum polyphony. Low: The lowest note will take priority High: The highest note will take priority

Last: The last-pressed note will take priority

Hold When this is checked, the note will continue to sound after the key is released. However, if the EG selected by 41: Amp1, Amp2 (normally the Amp EG is used) has a sustain level of zero, the note will decay naturally.

11d: Scale Specifies the scale type

Type (Scale Type) [Equal TemperamentUser Octave Scale 15]

Selects the basic scale for the internal tone generator. The user scales can be specified in Global mode 31: User Scale (page 127 in Parameter Guide).

Equal Temperament The most widely used scale, consisting of equally- spaced semitone steps. Pure Major The major chords of the selected key will be per- fectly in tune. Pure Minor The minor chords of the selected key will be per- fectly in tune. Arabic This reproduces a quarter-tone scale of Arabic mu- sic. Pythagorean A scale based on ancient Greek musical theory, suit- able for playing melodies. Werckmeister (Werkmeister III) An equal-tempered scale used in the later Baroque period.

Kirnberger (Kirnberger III) A scale created in the 18th century, and used mainly for tuning harpsichords. Slendro An Indonesian gamelan scale in which the octave consists of 5 notes. If the Key parameter is set to C, use the C, D, F, G, and A keys. (Other keys will produce the same pitches as equal temperament.) Pelog An Indonesian gamelan scale in which the octave consists of 7 notes. If the Key parameter is set to C, use only the white keys. (The black keys will produce the same pitches as equal temperament.) Stretch This is a tuning used on acoustic pianos. User All Notes Scale This is the full-range scale (C-1=G9) that you cre- ate in Global mode 31b: User All Notes scale (page 121 in TRITON Parameter Guide). User Octave Scale 0015 This is the one-octave scale that you create in Glo- bal mode 31a: User Octave Scale (page 121 in TRITON Parameter Guide).

Key (Scale Key) [CB] Specify the tonic note of the selected scale. This setting has no effect for Equal Temperament, Stretch, or User All Note Scale .

If a scale other than equal temperament is selected, certain combinations of this param- eter and the Key parameter may cause the tuning of the base key (for example A=440 Hz) to become incorrect. If this occurs, you can adjust the Master Tune (Global P0: Basic tab).

Random [099] As this value is increased, the pitch of the note will become increasingly unpredictable. Normally you will leave this set at zero. Adjust this parameter when you wish to simulate instruments whose pitch is naturally unstable, such as tape-mechanism organs or acoustic instruments.

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12: OSC Basic (Osillator Basic)

12a

12b

12c

12a: OSC 1 Multi OSC Setup Specifies the basic pitch of oscillator 1

OSC 1 (Oscillator 1 Type) [StandardBowed String Model]

This shows the oscillator type that was selected in 1 1a: Multi OSC Setup. This is linked with the identi- cally-named parameter in 11a: Multi OSC Setup.

Octave [2[32']+1[4']] Specifies the basic pitch of oscillator 1 in steps of an octave. 32' is two octaves below, 16' is one octave below, 8' is standard pitch, and 4' is one octave above.

Transpose [12+12] Adjusts the basic pitch specified by Octave in semitone steps.

Tune [50+50] Makes fine adjustments to the pitch in one-cent steps.

F. Offset (Frequency Offset) [10.0+10.0]

Makes fine adjustments to the pitch in 0.1 Hz steps.

12b: OSC 2 Multi OSC Setup Selects the oscillator type for oscillator 2.

12c: Sub OSC Make basic settings for the sub oscillator. Parameters other than Waveform are the same as for oscillator 1.

Waveform [SawSine] Select the waveform of the sub oscillator.

13: OSC1 (Oscillator 1) Make settings for each oscillator type. The oscillator type is selected in 11a: Mult OSC Setup or 12: OSC Basic. The parameters that are displayed will depend on the selected oscillator type.

Standard

13a

13b

13c

This oscillator produces the waveforms used by an analog synthesizer (sawtooth wave, pulse wave, triangle wave) and sine wave. Sawtooth wave, pulse wave and triangle wave waveforms can be modified using waveform modulation. You can specify either sawtooth wave or pulse wave as the main waveform, and mix triangle wave or sine wave with this for output. The level of these three waveforms can be adjusted independently. In addition, wave shaping can be applied to the output of this oscillator.

Waveform modulation Pulse width modulation (PWM) on an analog synthe- sizer produces time-varying change in the pulse width of a pulse wave. The waveform modulation provided by the EXB-MOSS option is an extension of this, which varies not only the pulse width but also the waveform of a sawtooth wave or triangle wave. Waveform modulation will affect the various wave- forms as follows.

Sawtooth wave

-99 -33 0 33 66 99

Waveform modulation will modify a sawtooth waveform as shown below, creating time-variant change in the sound.

15

When modulation is 0, the basic sawtooth waveform will be produced, and when it is 99, a sawtooth wave of double the frequency will be produced. If the modulation value is a negative number, a different effect will result than with positive settings.

Pulse wave

-98 -33 0 33 66 98

Waveform (pulse width) modulation will modify a pulse waveform as shown below, creating time-variant change in the sound. When modulation is 0, a square wave will be produced, and when it is 99, the pulse width will be 0, meaning that there will be no sound. If the modulation value is a negative number, the results will be inverted.

Triangle wave

-99 -25 0 25 50 75 99

Waveform modulation will modify a ramp wave as shown below, creating time-variant change in the sound. When modulation is 0, a triangle wave will result, and as the modulation value increases, the waveform will become a ramp wave (a waveform in which the slope is broken in two). At a modulation value of 50, a trapezoidal wave will result, and at a value of 99 the waveform will once again be a triangle wave. If the modulation value is a negative number, the results will be inverted.Compared to sawtooth or pulse waves, this waveform produces a strong fundamental with fewer overtones, making it particu- larly suitable for bass sounds etc.

13a: Wave

Main Wave [Saw, Pulse] Selects the main waveform. Select either Saw (sawtooth wave) or Pulse (pulse wave).

Level [099] Specifies the output level of the main waveform.

Wave Edge [099] Adjusts the amount of high-range overtones for the main waveform. As the pitch rises, this effect will become stronger, and in the low range there will be little effect. Lower settings of this parameter will produce a more mellow sound, and in the vicinity of 0 the volume will also decrease.

Triangle Level [099] Specifies the output level of the triangle waveform. It will be output mixed with the main waveform.

Sine Level [099] Specifies the output level of the sine waveform. It will be output mixed with the main waveform.

Phase Shift (Triangle & Sine Phase Shift) [99+99]

Specifies the phase difference between the main waveform and the triangle and sine waveforms. (The triangle and sine waveforms will always be in phase with each other.)

13b: Waveform (Waveform Modulation)

Waveform [99+99]

Specifies the waveform. For the way in which this value will affect the waveform, refer to the diagrams shown on the previous page for sawtooth wave, pulse wave, and triangle wave.

LFO [LFO1LFO4] Selects the source LFO for waveform modulation. LFO settings are made in the Program P5.

Intensity (Waveform Modulation LFO Intensity) [99+99]

Specifies the depth and direction of the waveform modulation that will be controlled by the LFO specified in LFO.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control Waveform.

Intensity (Waveform AMS Intensity) [99+99] Specifies the depth and direction of the waveform modula- tion controlled by the AMS. For negative settings, the polarity of the modulation source will be inverted.

13c: Wave Shape

Input (Input Level) [099] Specifies the level of the signal that is input from the standard oscillator to the wave shaping table.

Output level

Input level

Input waveform

Output waveform

Example of when Input Level is modified (Table Type : Reso)

Input Level =99

Input Level =75

Input Level =50

Input Level =25

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control Input.

16

Intensity (Input Level AMS Intensity) [99+99] Specifies the depth and direction of the waveform modulation controlled by the AMS.

Type (Wave Shape Table Type) [Clip/Reso] Use the radio buttons to select the wave shaping table which will modify the input waveform. Clip (clip type) and Reso (resonant type) tables will modify the waveform as shown by the diagrams in Shape, below.

Offset (Wave Shape Offset) [99+99] Specifies an offset amount that will be added to the signal specified by Input.

Output level

Input level

Input waveform (Input Level fixed)

Output waveform

Example of when Offset is modified (Table Type: Clip)

Offset=50 Offset=0 Offset=-50

Shape [099] Specifies the characteristics of the table which will modify the input waveform. The characteristics of the table will change as follows.

Output level

Input level

Shape of the wave shaping table and the Shape parameter CLIP type

Output of the clip type table when a sawtooth waveform is input

Waveform level

Waveform before being input to the table

Shape:0 Shape:99

Output level

Input level

Resonant type

Output of the resonance type table when a sawtooth wave is inputWaveform

level

Waveform before being input to the table

Shape:0 Shape:99

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control Shape.

Intensity (Shape AMS Intensity) [99+99] Specifies the depth and direction of the waveform modulation controlled by the AMS.

Balance [099] Specifies the balance between the signal that has passed through the wave shaping table and the output signal from the standard oscillator. With a setting of

99, it will be only the output of the wave shaping table.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control Balance.

Intensity (Balance AMS Intensity) [99+99] Specifies the depth and direction of the waveform modulation controlled by the AMS.

17

Comb Filter In this oscillator, the signal from the other oscillator waveform or the noise generator is sent through a comb filter, and the feedback level of the comb filter is varied in order to produce tonal change. When noise is input, raising the feedback of the comb filter will gradually change the sound into a pitched tone.

Frequency

Example of when noise is input

Level

As the Feedback value increases, the sound will become more pitched.

Delay

Comb Filter Feedback

Comb Filter

High Damp

Noise Level

Input Wave Level

Noise

Pulse Noise or Impulse

Comb Oscillator

Comb Filter

Feedback=0

Feedback>0

Input Level Mod.Source/Intensity

OSC1/2 or Sub OSC Filter1 out Filter2 out

Level

Level

Frequency

Frequency

13a

13b

13c

13a: Input

Input [OSC2(1)+Noise, SubOSC+Noise, Filter1+Noise, Filter2+Noise, Pulse Noise, Impulse]

Selects the signal that will be input to the comb filter.

Example of when an Impulse is input

As the Feedback is increased, the decay time will become longer.

Time

Time

Comb Filter

Pluse Width=0

Pluse Width=99

Feedback=0

Feedback>0

Time

Time

Level (Input Wave Level) [099] Specifies the volume level of the signal that will be input to the comb filter.

Noise Level [099] This parameter will be available only if Input has been set to OSC2(1)+Noise, SubOSC+Noise, Filter1+Noise or Filter2+Noise. It specifies the volume level of the noise generator output which will be input to the comb filter.

Pulse Width [099] This parameter will be available only if Input has been set to Pulse Noise or Impluse. It specifies the length of time that the Pulse Noise or Impluse will last after being triggered.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control the volume level of the signal being input to the comb filter. The volume level is set by the Level or the Noise Level.

Intensity (Input Wave Level AMS Intensity) [99+99]

Specifies the depth and direction of the effect of AMS.

13b: Feedback

Fbk (Feedback) [099] Specifies the amount of feedback for the comb filter. If this value is high , the resonance of the comb filter will be high, and the tone will have a clear sense of pitch. Conversely, if this value is low , the input signal will be output without change, and if the input signal is only noise, the output signal will have no sense of pitch.

AMS1 (Alternate Modulation Source 1) [OffMIDI:CC#83]

Selects a modulation source 1 (p.48 of this manual) that will control Fbk.

Intensity (Feedback AMS1 Intensity) [99+99] Specifies the depth and direction of the effect of AMS1 .

AMS2 (Alternate Modulation Source 2) [OffMIDI:CC#83]

Selects a modulation source 2 (p.48 of this manual) that will control Fbk.

Intensity (Feedback AMS2 Intensity) [99+99] Specifies the depth and direction of the effect of AMS2 .

18

VPM The output of a carrier is phase-modulated by a modulator, and output through wave shape processing. By controlling the wave shaping parameters and the feedback gain, tonal changes that are different than simple phase modulation can be produced.

Modulator Pitch Carrier Pitch (Basic Pitch)

Carrier Level

Output

Wave Shape Parameter

Feedback Gain

Modulator Level

Modulator Carrier Wave Shape

13a

13b

13a: Carrier

Wave [Saw, Square, Triangle, Sine] Selects the carrier waveform.

Level [099] Specifies the output level of the carrier. This will determine the output level of the VPM oscillator.

AMS1 (Alternate Modulation 1 Source) [OffMIDI:CC#83]

Selects a modulation source 1 (p.48 of this manual) that will control Level.

Intensity (Level AMS1 Intensity) [99+99] Specifies the depth and direction of the effect of AMS1.

AMS2 (Alternate Modulation 2 Source) [OffMIDI:CC#83]

Selects a modulation source 2 (p.48 of this manual) that will control Level.

Intensity (Level AMS2 Intensity) [99+99] Specifies the depth and direction of the effect of AMS2.

Wave Shape [099] Specifies the number of cycle of wave shaping. As this value is increased, the number of cycles will increase, causing more overtones to be added to the high-frequency range of the sound.

13c: High Damp

H. D (High Damp) [099] Specifies the amount of attenuation that will be applied to the high-frequency component of the feedback signal within the comb filter. As this value is increased, the tone will become more mellow. Conversely, decreasing this value will produce a brighter tone.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control H. D.

Intensity (High Damp AMS Intensity) [99+99] Specify the depth and direction in which AMS will affect high damp.

19

Wave Shape:0 Wave Shape:99

Table valiation

Type (Wave Shap Type) [1, 2] 1: The signal after wave shaping will be output

without further change. If Shape is set to the minimum value, the phase modulated signal will be output essentially without change.

2: A rounded waveform will be obtained regardless of the Shape value.

AMS1 (Alternate Modulation Source 1) [OffMIDI:CC#83]

Selects a modulation source 1 (p.48 of this manual) that will control Wave Shape value.

Intensity (Shape AMS1 Intensity) [99+99] Specifies the depth and direction of the effect of AMS1.

AMS2 (Alternate Modulation Source 2) [OffMIDI:CC#83]

Selects a modulation source 2 (p.48 of this manual) that will control Wave Shape value.

Intensity (Shape AMS2 Intensity) [99+99] Specifies the depth and direction of the effect of AMS2.

Feedback [099] Specifies the amount of the output after wave shaping that will be fed back to the carrier.

13b: Modulator

Wave [Saw, Square, Triangle, Sine, OSC2(1), Sub OSC, Filter1, Filter2]

Select the waveform of the modulator. This selects the other oscillator or sub oscillator etc. If you set this to OSC2(1) , SubOSC , Filter 1 , or Filter 2 , the Frequency Coarse and following settings will not be available.

Level [099] Specifies the output level of the modulator. This value will determine the amount of modulation that is applied to the 13a: Carrier setting.

AMS1 (Alternate Modulation Source 1) [OffMIDI:CC#83]

Selects a modulation source 1 (p.48 of this manual) that will control Level.

Intensity (Level AMS1 Intensity) [99+99] Specifies the depth and direction of the effect of AMS1.

AMS2 (Alternate Modulation Source 2) [OffMIDI:CC#83]

Selects a modulation source 2 (p.48 of this manual) that will control Level.

Intensity (Level AMS2 Intensity) [99+99] Specifies the depth and direction of the effect of AMS2.

Frequency Coarse [0.5, 116] Specifies a multiplication factor which will be applied to the pitch of the modulator, relative to the 13a: Carrier setting.

Fine [50+50] Makes fine adjustments to the pitch of the modulator.

AMS1 (Alternate Modulation Source 1) [OffMIDI:CC#83]

Selects a modulation source 1 (p.48 of this manual) that will control the pitch of the modulator.

Intensity (Frequncy AMS1 Intensity) [99+99] Specifies the depth and direction of the effect of AMS1.

AMS2 (Alternate Modulation Source 2) [OffMIDI:CC#83]

Selects a modulation source 2 (p.48 of this manual) that will control the pitch of the modulator.

Intensity (Frequncy AMS2 Intensity) [99+99] Specifies the depth and direction of the effect of AMS2.

20

Resonance This oscillator produces a wide range of tonal change by allowing you to specify the cutoff frequency and resonance of four band pass filters (BPF ). You can select one of the following sources to be the input for the filters: the output of the other oscillator, the sub-oscillator, the output of the noise generator, or the output of filter 1 or filter 2.

OSC 1/2

Sub OSC

Noise Generator

BPF2 BPF3

BPF4

BPF1

Resonance1 Coarse1

Level1Input Level

Input Select

Filter1 out

Filter2 out

13a

13b

13c

13a: Input

Input [OSC 2(1), Sub OSC, Noise, Filter1, Filter2] Selects the signal that will be input to the four band bass filters.

If you select Resonance for OSC 1 and 2 in 12a: Multi Oscillator Synthesis Setup, and select the other oscillator as the input for each, the result will be unstable the sound may be non-reproduceable, or you may hear no sound at all.

Level [099] Specifies the level of the signal that is input to the four band pass filters.

AMS1 (Alternate Modulation Source 1) [OffMIDI:CC#83]

Selects a modulation source 1 (p.48 of this manual) that will control Level.

Intensity (Level AMS1 Intensity) [99+99] Specifies the depth and direction of the effect of AMS1.

AMS2 (Alternate Modulation Source 2) [OffMIDI:CC#83]

Selects a modulation source 2 (p.48 of this manual) that will control Level.

Intensity (Level AMS2 Intensity) [99+99] Specifies the depth and direction of the effect of AMS2.

13b: BPF Parameters Here, you can make settings for each band pass filter 14.

Level [099] Specifies the output level.

Coarse [116] Specifies the harmonic (overtone) of the oscillator pitch at which the center frequency of the filter will be located. You can specify from the first to the 16th harmonic.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control Coarse.

Int (BPF Frequency AMS Intensity) [15+15] Specifies the depth and direction of the effect of AMS. Positive (+) settings will allow the Coarse value to be increased, and negative () settings will allow the Coarse value to be decreased. At this time, the center frequency of band pass filter 1 will change in steps of harmonics, creating the impression that the pitch is changing step-wise.

Fine [99+99] Makes fine adjustments to the center frequency of band pass filter 1 specified by the Coarse parameter.

Reso (Resonance) [099] Specifies the resonance. Increasing this value will produce a stronger effect.

13c: Resonance Modulation

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control the resonance that was specified for each band pass filter.

Intensity (Resonance AMS Intensity) [99+99] Specifies the depth and direction of the effect of AMS.

21

Ring Modulation This multiplies the modulator and carrier and outputs the signal produced. One of four types of waveform can be selected as the carrier. Since the result will be a metallic sound with little sense of pitch, this is suitable for producing sound effects. The Ring Modulation oscillator contains an internal carrier oscillator. The output of the other oscillator etc. can be selected as the modulator. By modifying the pitch of the oscillator, you can produce characteristic ring modulation effects.

13a

13b

13a: Wave

Input [OSC 2(1), Sub OSC, Noise, Filter1, Filter2] Specifies the modulator.

If Ring Modulation is selected for both OSC 1 and 2, and the input of the other is selected for each, some parameter settings may produce no sound.

Carrier [Saw, Square, Triangle, Sine] Specifies the carrier waveform.

Wave Edge [099] Specifies the amount of high frequency harmonics for the carrier waveform. As this value is decreased, the sound will have less high-frequency harmonics, and as it approaches 0 the volume will also decrease.

Type [1, 2] Selects the modulation type. The two types differ in the tone of the high range. Type 2 will produce a brighter sound than type 1.

13b: Modulation Depth

Depth [099] Specifies the depth of modulation. At a setting of 0, the carrier waveform will be output without change.

AMS1 (Alternate Modulation Source 1) [OffMIDI:CC#83]

Selects a modulation source 1 (p.48 of this manual) that will control Depth.

Intensity (Modulation Depth AMS1 Intensity) [99+99]

Specifies the depth and direction of the effect of AMS1.

AMS2 (Alternate Modulation Source 2) [OffMIDI:CC#83]

Selects a modulation source 2 (p.48 of this manual) that will control Depth.

Intensity (Modulation Depth AMS2 Intensity) [99+99]

Specifies the depth and direction of the effect of AMS2.

22

Cross Modulation This uses a modulator to frequency-modulate a carrier. You can select one of four waveforms as the carrier. In general, a pitch envelope is applied to the modula- tor. A carrier oscillator is built-in to the Cross Modulation OSC. You can select the output of the other oscillator etc. as the modulator. By modifying the pitch of the modulator oscillator, you can produce characteristic cross-modulation effects.

13a

13b

13a: Wave

Input [OSC2(1), Sub OSC, Noise, Filter1, Filter2] Specifies the modulator.

Carrier [Saw, Square, Triangle, Sine] Specifies the carrier waveform.

Wave Edge [099] Specifies the amount of high frequency harmonics for the carrier waveform. As this value is decreased, the sound will have less high-frequency harmonics, and as it approaches 0 the volume will also decrease.

13b: Modulation Depth

Depth [099] Specifies the depth of modulation. At a setting of 0, the carrier waveform will be output without change.

AMS1 (Alternate Modulation Source 1) [OffMIDI:CC#83]

Selects a modulation source 1 (p.48 of this manual) that will control Depth.

Intensity (Modulation Depth AMS1 Intensity) [99+99]

Specifies the depth and direction of the effect of AMS1.

AMS2 (Alternate Modulation Source 2) [OffMIDI:CC#83]

Selects a modulation source 2 (p.48 of this manual) that will control Depth.

Intensity (Modulation Depth AMS2 Intensity) [99+99]

Specifies the depth and direction of the effect of AMS2.

23

Sync Modulation This uses the modulator as the master waveform and the carrier as the slave waveform (which will be synchronized to the master). When the master waveform begins a new cycle (i.e., the instant that it passes the zero point going from negative to positive), the phase of the slave waveform is reset to 0, causing it to begin a new cycle.

Modulator Wave (Master)

Carrier Wave (Slave)

Sync Modulation

13a

13a: Wave

Input [OSC2(1), Sub OSC, Noise, Filter1, Filter2] Specifies the master waveform (modulator).

Slave [Saw, Square, Triangle, Sine] Specifies the slave waveform.

Wave Edge [099] Specifies the amount of high frequency harmonics for the slave waveform. As this value is decreased, the sound will have less high-frequency harmonics, and as it approaches 0 the volume will also decrease.

Organ Model This is an oscillator used to produce organ-type sounds. The oscillator simulates three drawbars similar to electric organs of the past. You can specify the footage [Harmo] and waveform setting for each drawbar, allowing a wide range of sounds to be created.

Wave

Sine1 or Sine2 /Sine3/Triangle

Harmonics (Pitch)

LevelDrawbar1

Drawbar2

Drawbar3

Percussion Level

Precussion

Precussion Decay/Level Mod.

13a

13b

13a: Tone Generator

Drawbar1:

Wave [Sine 1, Sine 2, Sine 3, Triangle] Specifies the waveform for drawbar 1. Sine 1 contains only the fundamental (i.e., a pure sine wave). Sine 2 and Sine 3 are waveforms which contain the first two and the first three harmonics respectively.

Coarse (Harmonics Coarse) [1(16)16(1)] Specifies the pitch of drawbar 1, relative to one octave below the oscillator pitch.

Fine (Harmonics Coarse Fine) [99+99] Makes fine adjustments to the pitch of drawbar 1.

Level [099] Specifies the volume level of drawbar 1.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control the Level of drawbar 1.

24

Intensity (Level AMS Intensity) [99+99] Specifies the depth and direction of the effect of AMS1.

Percussion [099] Specifies the volume level of the percussion effect for drawbar 1.

Drawbar 2: Drawbar 3: The parameters are structured identically to those of 13a: Drawbar 1.

Level AMS (Level Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control the percussion level of each drawbar.

Intensity (Level AMS Intensity) [99+99] Specifies the depth and direction of the effect of Level AMS on the percussion level.

Trigger [Single/Multi] Use the radio buttons to specify how the percussion effect will be triggered. With a setting of Single, the percussion effect will apply to the first-played note from a condition of no sound. With a setting of Multi, the percussion effect will apply to each note that is played.

Decay [099] Specifies the decay length of the percussion. As this value is increased the decay time will become longer.

E. Piano Model This oscillator simulates an electric piano. There are four groups of parameters: Hammer (which specifies how the shape and motion of the hammer will affect tonal change and attack noise), Tone Generator (which vibrates in response to being struck by the hammer), Pickup (which specifies the tonal change that occurs when the vibration of the tone generator is converted into an electrical signal), and Low EQ (which is a shelving-type low EQ to adjust the low range).

Pickup

Tone Generator

Hammer

Pickup Location

to Low EQ

13a

13c 13b

13d 13e

13a: Hammer

Force [099] Specifies the Strength with which the hammer strikes the tone generator. Higher settings will produce a brighter sound.

Force Velocity Curve [OFF, 099] Specifies how changes in velocity will affect Force. As this value is increased, velocity will have a greater effect on Force, allowing more dynamic tonal change to be produced. With a setting of OFF, the Force will be constant.

Width (Hammer Width) [099] Simulates the shape of the hammer. As this value is increased, the width of the hammer will become narrower, and the sound of the tone generator and hammer noise will become sharper.

Click Noise Level [099] Specifies the volume of the hammer noise that occurs at the attack.

25

13b: Tone Generator The Decay and Release that you specify here will control the output level of the oscillator. In order for these settings to have an effect, they must be set longer than the decay and release of the EG which you are using for the Amp.

Decay [099] Specifies the decay time of the tone generator.

Release [099] Specifies the release time of the tone generator.

13c: Overtone

Level [099] Specifies the volume of the higher overtones that are produced when the tone generator vibrates.

Frequency [099] Specifies the frequency of the overtones.

Decay [099] Specifies the decay time of the overtone volume.

13d: Pickup

Location [099] Specifies the location of the pickup in relation to the tone generator. With low settings, the pickup will be placed in the center of the vertical vibration of the tone generator, causing the second partial to be emphasized and the fundamental to be less audible.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control Location.

Intensity (Pickup Location AMS Intensity) [99+99]

Specifies the depth and direction of the effect of AMS.

13e: Low EQ Makes settings for a Low EQ (shelving type) that will adjust the output signal.

Frequency [049] Specifies the cutoff frequency of the Low EQ (shelving type) that will be applied to the output signal.

Gain [18+18] Specifies the gain of the Low EQ.

Brass Model This oscillator is a physical model which simulates lip- reed instruments such as a trumpet or trombone. By using key velocity or modulation wheel to modulate the Pressure (the force of breath blown into the mouth- piece) you can produce performance expressions that are very similar to those of an actual lip-reed instrument. The parameters are as follows: Inst Type determines the model which simulates the bore length and shape of the instrument, Breath Pressure indicates the force of breath that is blown into the mouthpiece, Lip Character produces the tonal changes that result from lip position or tension, Bell Character produces the tonal changes that result from the shape of the end of the bore, and Peaking EQ performs a final tonal adjustment.

Lip (Character) Specify tonal change produced by lip position

Inst Type Select a model which simulates the bore length and shape of various instruments

Bell Specify the shape of the end of the bore

Specify the force of breath that is blown into the mouthpiece Specify the amount of breath noise

Pressure Noise {

Brass Model

Signal Flow

Brass Model Peaking EQ Strength

This oscillator allows you to choose from two types of pitch bending: jump bending using a mode jump as on a trumpet (by varying the bore length), and smooth bending produced by sliding the length of the bore as on a trombone.

For some parameter settings, the pitch may not change according to the notes that are played on the keyboard. In some cases, high-pitched notes may have a lower volume, or may not sound at all.

13a

13b

13c 13d

13e

13a: Inst Type

Inst Type [Brass 1, Brass 2, Brass 3, Horn 1, Horn 2, Reed Brass]

Selects the instrument type which will determine the bore length and shape of the simulated instrument.

26

Jump Bend:

JS(+X) (Joystick +X) Specifies how the pitch will change when the joystick is moved in the +X direction (toward the right). If this is checked, the pitch will rise by in steps by changing the resonance of the bore, as on a trumpet. If this is unchecked, the pitch will rise smoothly, as on most synthesizers.

JS(-X) (Joystick -X) Specifies how the pitch will change when the joystick is moved in the X direction (toward the left).

If Jump Bend (+X) and Jump Bend (X) are checked, notes may not sound depending on the position of the joystick and the pitch range setting. For details on setting the pitch range of the joystick, refer to 24a: Picth Bend.

13b: Breath Pressure

EG [EG 1EG 4, Amp EG] Selects the EG which will control pressure. For details on the settings for each EG, refer to Program P6 for EG 14, and 43: Amp EG for Amp EG.

Intensity (Pressure EG Intensity) [99+99] Specifies the depth and direction of the effect that the EG will have on the pressure.

AMS1 (Alternate Modulation Source 1) [OffMIDI:CC#83]

Selects a modulation source 1 (p.48 of this manual) that will control pressure. If you select After Touch, pressing down on the keyboard will produce the effect of the instrument being blown strongly. If you select Joy Stick(X), rotating the Joy Stick in the + direction will produce this effect. In this case, setting Intensity (Pressure EG Intensity) to 0 will allow you to completely control the breath pressure by operating the specified controller.

Intensity (Pressure AMS1 Intensity) [99+99] Specifies the depth and direction of the change in pressure controlled by AMS1.

AMS2 (Alternate Modulation Source 2) [OffMIDI:CC#83]

Selects a modulation source 2 (p.48 of this manual) that will control pressure.

Intensity (Pressure AMS2 Intensity) [99+99] Specifies the depth and direction of the change in pressure controlled by AMS2.

Breath Noise [099] Specifies the volume level of the breath noise. Since

this uses the signal from the noise generator, the filter of the noise generator can be used to modify the tone of the noise.

Strength [099] Adjusts the tone. Higher settings of this value will produce a overdriven sound.

13c: Lip Character

Lip [099] Specifies the tonal change that is produced by lip position and tension. Higher settings of this value will produce a harder (more firmly blown) sound. Lower settings will produce a softer tone.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control Lip.

Intensity (Lip Character AMS Intensity) [99+99] Specifies the depth and direction of the effect of AMS.

13d: Bell Character

Tone [099] Specifies the tone of the bell. As this value is in- creased, the low frequency portion will disappear, producing a less solid tone.

Resonance [099] Specifies the level at which the frequency region in the area of the Tone will be boosted. As this value is increased, the resonance effect will become stronger.

13e: Peaking EQ

Frequency [049] Specifies the center frequency of the frequency range that will be boosted or attenuated by the Peaking EQ. Increasing this value will raise the center frequency.

Q [029] Specifies the width of the Peaking EQ frequency band. Increasing this value will narrow the frequency band that is boosted or attenuated.

Gain [18+18] Specifies the amount by which the area specified by Frequency and Q will be boosted or attenuated.

27

Reed Model This oscillator is a physical model which simulates woodwind reed instruments such as a saxophone or oboe. By using key velocity or the modulation wheel to control Pressure (the strength with which the reed is blown), you can use performance expressions that are very close to those of an actual woodwind instrument. Also, by modulating the characteristics of the reed, you can produce tonal changes that correspond with the way in which a reed is blown.

Inst Type Select a model to specify the bore length and shape of the instrument to be simulated

Reed Character Specify the vibrational characteristics of the reed

Presure Specify the force of the breath that is blown into the reed Noise Specify the amount of breath noise

{

Reed Model Bell Character Wave Shape

Reed Model

Signal Flow

Peaking EQ

13a

13b

13c

13e 13f

13d

13a: Inst Type

Inst Type [Hard Sax 1...Reed Synth] Selects the type of instrument whose bore shape and reed characteristics will be simulated.

Hard Sax 1, Hard Sax 2, Hard Sax 3, Soft Sax 1, Soft Sax 2, Double Reed 1, Double Reed 2, Bassoon, Clarinet, Flute 1, Flute 2, Pan Flute, Ocarina, Shakuhachi, Harmonica 1, Harmonica 2, Reed Synth

Jump Bend: JS(+X) (Joystick +X) Specifies how the pitch will change when the joystick is moved in the +X direction (toward the right). If this is checked, the pitch will rise in steps by changing the resonance of the bore, as on a flute. If this is unchecked, the pitch will rise smoothly, as on most synthesizers.

JS(-X) (Joystick -X) Specifies how the pitch will change when the joystick is moved in the X direction (toward the left).

If Jump Bend (+X)and Jump Bend (X) are checked, notes may not sound depending on the position of the joystick and the pitch range setting. For details on setting the pitch range of the joystick, refer to 12c: Pich Bend.

13b: Breath Pressure

EG [EG 1EG 4, AmpEG] Selects the EG which will control pressure. For details on the settings for each EG, refer to Program P6 for EG 14, and 43: Amp EG for Amp EG.

Intensity (Pressure EG Intensity) [99+99] Specifies the depth and direction of the effect that the EG will have on the pressure.

AMS1 (Alternate Modulation Source 1) [OffMIDI:CC#83]

Selects a modulation source 1 (p.48 of this manual) that will control pressure. If you select After Touch, pressing down on the keyboard will produce the effect of the instrument being blown strongly. If you select Joy Stick (X), moving the joy stick toward the right will produce this effect.

Intensity (Pressure AMS1 Intensity) [99+99] Specifies the depth and direction of the change in pressure controlled by AMS1.

AMS2 (Alternate Modulation Source 2) [OffMIDI:CC#83]

Selects a modulation source 2 (p.48 of this manual) that will control pressure.

Intensity (Pressure AMS2 Intensity) [99+99] Specifies the depth and direction of the change in pressure controlled by AMS2.

Breath Noise [099] Specifies the volume level of the breath noise. Since this uses the signal from the noise generator, the filter of the noise generator can be used to modify the tone of the noise.

28

13c: Reed Character

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will modulate the characteristics of the reed.

Intensity (Reed AMS Intensity) [99+99] Specifies the depth of the modulation effect that AMS will have on the reed.

13d: Bell Character

Tone [099] Specifies the tone of the bell. As this value is in- creased, the low frequency portion will disappear, producing a less solid tone.

Reso [099] Specifies the level at which the frequency region in the area of the Tone will be boosted. As this value is increased, the resonance effect will become stronger.

13e: Wave Shape

Type (Wave Shape Table Type) [Clip/Reso] Use the radio buttons to select the wave shaping table which will modify the input waveform. For the way in which the table will modify the waveform, refer to the Wave Shape diagram shown in Standard (page 16 of this manual).

Offset [99+99] Specifies the offset value that will be added to the Reed OSC signal that is input to wave shaping.

Shape [099] Specifies the character of the table that will shape the input waveform. For details on how the waveform will change, refer to the Shape diagram (page 16 of this manual) for the Standard OSC.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control Shape.

Intensity (Shape AMS Intensity) [99+99] Specifies the depth and direction of the effect of AMS.

13f: Peaking EQ

Frequency [049] Specifies the center frequency of the range that will be boosted or attenuated by the Peaking EQ. Increasing this value will raise the center frequency.

Q [029] Specifies the width of the Peaking EQ frequency band. Increasing this value will narrow the frequency band that is boosted or attenuated.

Gain [18+18] Specifies the amount by which the range specified by Frequency and Q will be boosted or attenuated.

29

Plucked String Model This oscillator is a physical model which simulates plucked string instruments such as a guitar or bass guitar. You can specify aspects of the model such as the attack waveform that is produced when the string is plucked by a pick or finger, the characteristics of the string, the location of the pickup, etc.

Attack Level Specify the strength of playing (the level of the attack waveform). Noise Specify the level and tone of the noise included in the attack waveform. Attack Curve Specify the envelope of the attack waveform.

Parameters relating to the attack waveform

Delay/Release Specify the ratio of the wave transmitted along the string which is reflected back from the bridge (decay/release time).

Bridge Bridge

String Position Specify the location at which the string is struck.

Parameters relating to the characteristics of the string Damping Specify the high frequency attenuation of the wave transmitted along the string. To simulate muted playing techniques, control this parameter. Dispersion Specify tonal change caused by inharmonicity of the higher partials

Harmonics Position Specify the string location to be pressed to play harmonics Harmonics Mod.Source / Mod.Int. Specify the controller which will control the harmonics effect, and the depth of control.

String Model

String Model Pickup Low EQ & Low Boost

Signal Flow

13a

13c

13b

13d 13e 13f

13a: Attack

Attack Level [099] Specifies the force with which the string is plucked.

Velocity (Attack Level Velocity Control) [99+99] Specifies the depth and direction of the effect that velocity will have on Attack Level. The effect will be as shown in the following diagram.

Parameter value

Velocity value1 127

+

+99 99

0

Noise Level [099] Specifies the level of the noise component that is included in the attack waveform. As this value is increased, a greater portion of noise will be included in the attack, and the sound will be brighter with more overtones. The noise signal used here is taken from the output of the noise generator.

Velocity (Noise Level Velocity Control) [99+99]

Specifies the depth and direction of the effect that velocity will have on Noise Level. For the way in which the effect occurs, refer to Velocity (Attack Level Velosity Control).

13b: Attack Curve

Up (Curre Up) [099] Specifies the steepness of the rising edge of the attack waveform.When the rising or falling edge is steep, the tone will be harder.

Envelope of the attack waveform Volume level

Curve Up Curve Down

Velocity (Curve Up Velocity Control) [99+99] Specifies the depth and direction of the effect that velocity will have on Up. For the way in which the effect occurs, refer to Velocity (Attack Level Velosity Control).

Down (Curre Down) [099] Specifies the steepness of the falling edge of the attack waveform.

Velocity (Curve Down Velocity Control) [99+99]

Specifies the depth and direction of the effect that velocity will have on Curve Down. For the way in which the effect occurs, refer to Velocity (Attack Level Velosity Control).

13c: String

Picking Point [099] Specifies the location at which the string will be plucked. A setting of 0 is the end of the string, 50 is the middle of the string, and 99 is the other end of the string.

30

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control Picking Point.

Intensity (Picking Point AMS Intensity) [99+99]

Specifies the depth and direction of the effect of AMS.

Damp [099] Specifies the amount of high-frequency attenuation that will be produced by the characteristics of the string and by how the string is pressed. As this value is increased, the high-frequency components of the vibration in the string will be attenuated (dampened) more strongly, producing a darker sound. In general, this parameter should be set to a higher value to simulate instruments which use soft strings or which have no frets, and to a lower value to simulate instruments which use hard strings or which have frets.

KTr (Damp Keyboard Track) [99+99] Specifies how the Damp amount will be affected by the keyboard location. With positive (+) settings, the Damp value will increase as you play notes above C4. With negative () settings, the Damp will decrease as you play notes above C4.

when Damp=50 when Damp=75when Damp=25 C-1 C4 C9

99

0

50

C-1 C4 C9

99

0

75

C-1 C4 C9

99

0

25

+99 +50

0

-99 -50

+99 +50

0

-50 -99

+99

+50

-50 -99

0

Damp DampDamp

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control Damp.

Intensity (Damp AMS Intensity) [99+99] Specifies the depth and direction of the effect that AMS will have.

Decay [099] Specifies the decay time over which the sound will decay if you continue pressing a note. Higher settings of this value will produce a longer decay time.

Depending on the settings of 43: Amp EG, the setting you make here may not have audible results. If you raise the EG break level and sustain level, it will be easier to hear the result of this setting.

KTr (Decay Keyboard Track) [99+99] Specifies how the Decay amount will be affected by the keyboard location. With positive (+) settings, the decay will become faster as you play notes above C4. With negative () settings, it will become slower.

when Decay=50 when Decay=75when Decay=25 C-1 C4 C9

99

0

50

C-1 C4 C9

99

0

75

C-1 C4 C9

99

0

25

+99 +50

0

-99 -50

+99 +50

0

-50 -99

+99

+50

-50 -99

0

Decay DecayDecay

Release [099] Specifies the length of time over which the sound will decay after you release the note. Higher settings of this value will produce a longer release time.

Depending on the settings of 43: Amp EG, the setting you make here may not have audible results. You may need to raise the EG release level, it will be easier to hear the result of this setting.

Dispersion [099] Specifies the inharmonicity of the higher partials relative to the fundamental. With a value of 0, the partials will be located at integer (whole number) multiples of the fundamental. As this value is increased, the partials will move further away from integer multiple locations. In general, thin and flexible strings can be simulated by a low Dispersion value, and thick and stiff strings can be simulated by a high Dispersion value.

If this value is raised excessively, the pitch may become unstable.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control Dispersion.

Intensity (Dispersion AMS Intensity) [99+99] Specifies the depth and direction of the effect of AMS.

13d: Harmonics

Point [099] Specifies the location at which the string will be pressed to play harmonics.

31

Ctrl (Control) [OffMIDI:CC#83] Selects a modulation source (p.48 of this manual) that will control the harmonics effect.

Intensity (Harmonics Control Intensity) [99+99] Specifies the depth and direction of the control that Ctrl will have on the harmonics effect.

When making the Position setting, you must assign Control to a controller other than OFF, and raise the Intensity value. The decay time of the harmonics effect will differ depending on the keyboard location that you play.

13e: Pickup

Pickup If this is checked, the sound will be passed through a simulated pickup. If this is not checked, the sound will remain unchanged.

Location, AMS, and Intensity can be set when Pickup has been checked.

Location [099] Adjusts the change in tone that results from differ- ences in pickup location.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control Pickup.

Intensity (Pickup Location AMS Intensity) [99+99]

Specifies the depth and direction of the effect of AMS.

13f: Low EQ

Frequency [049] Specifies the cutoff frequency of the Low EQ.

Gain [18+18] Specifies the gain of the Low EQ.

Low Boost [099] Specifies how the low frequency range will be emphasized. Raising this value will cause the low frequency range to be emphasized more strongly.

Bowed String Model This oscillator is a physical model which simulates the sound of a bowed string instrument such as a violin or cello. By controlling the bowing speed and the bowing pressure, you can create performance expressions that are very close to those of an actual bowed string instrument.

Parameters related to the string String Damp Dispersion

String vibration

String

Bow

Position

Bow Speed

Pressure

Bridge Reflection

Bridge Reflection

Bowed String Model

Bowed String Model Peaking EQ

13b

13a

13c

13d

13a: Bow Speed

EG [EG 1EG 4, AmpEG] Selects the EG which will control bowing speed (the speed at which the bow moves across the string).

Int (Speed Modulation EG Intensity) [99+99] Specifies the depth and direction of the effect of EG With negative () settings, the direction of the bow speed will be inverted.

AMS1 (Alternate Modulation Source 1) [OffMIDI:CC#83]

Selects a modulation source 1 (p.48 of this manual) that will control bowing speed. Instead of using an EG to modify the bowing speed, you can use the Ribbon Controller or Joy Stick to simulate bowing without using an EG.

Int (Speed AMS1 Intensity) [99+99] Specifies the depth and direction of the effect of AMS1.

AMS2 (Alternate Modulation Source 2) [OffMIDI:CC#83]

Selects a modulation source 2 (p.48 of this manual) that will control bowing speed.

32

Int (Speed AMS2 Intensity) [99+99] Specifies the depth and direction of the effect of AMS2.

Differential If this is not checked, the value produced by EG, AMS1 and AMS2 will be used as the bowing speed. If you wish to use EG to control the bowing speed, leave this item un-checked. If this is checked, the rate of change of EG, AMS1 and AMS2 will be used as the bowing speed. Using the ribbon controller to control bowing speed As an example, we will assume that you have set AMS1 to Ribbon (X). In order to control bowing speed using the ribbon controller alone, raise the Int. (Speed AMS1 Intensity) value, and set Int. (Speed Modulation EG Intensity) to 0. Check Differential. When you are pressing the ribbon controller, the bowing speed will be zero, so there will be no sound. As you slide your finger toward the right over the ribbon controller, the speed at which your finger moves will be the bowing speed, and sound will be produced. As you slide your finger to left and right, the bowing speed will change from positive zero

negative zeropositive, allowing you to produce performance expressions that are very similar to those of actually moving a bow back and forth.

Rosin [099] Specifies the coefficient of static friction between the bow and the string. (This corresponds to the amount of rosin on the bow.) Higher values will increase the friction between the bow and string. When this value is in the region of 0, it will be difficult for playing strength to be transmit- ted to the string.

13b: Bow Pressure

EG [EG 1EG 4, AmpEG] Selects the EG which will control the pressure of the bow on the string (bow pressure).

Int (Pressure EG Intensity) [99+99] Specifies the depth and direction of the effect that the EG will have on bow pressure. If this value is low, the bow will rest lightly on the string.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control bow pressure.

Int (Pressure AMS Intensity) [99+99] Specifies the depth of the effect produced by AMS.

13c: String

Bowing Point [099] Specifies the location at which the bow contacts the string. A setting of 0 is the end of the string, 50 is near the middle, and 99 is at the other end.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control Bowing Point. Changing the location at which the string is bowed will also change the overtone structure.

Intensity (Bowing Point AMS Intensity) [99+99]

Specifies the depth and direction of the effect of AMS.

Damp [099] Specifies how the high frequency components will be attenuated by the characteristics of the string and by the way in which the string is pressed onto the fingerboard of the violin or cello. As this value is increased, the high frequency components of the wave transmitted along the string will be attenuated more greatly, producing a darker sound. In general, you should use higher values to simulate instruments which have flexible strings or unfretted instruments, and lower values to simulate instruments with stiff strings or fretted instruments.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control Damp.

Intensity (Damp AMS Intensity) [99+99] Specifies the depth and direction of the effect of AMS.

Damp KTr Key (Damp Keyboard Track Key) [C1G9]

Specifies the key above and below which keyboard tracking will begin to apply to the Damp effect.

You can also input a value by playing a note on the keyboard while you hold down the [ENTER] key.

Ramp Low [99+99] Specifies the depth and direction in which the Damp amount will change for notes below the Damp KTr Key. Positive (+) settings will cause Damp to increase for notes below the Damp KTr Key. Negative () settings will cause Damp to decrease for notes below the Damp KTr Key.

33

Ramp High [99+99] Specifies the depth and direction in which the Damp amount will change for notes above the Damp KTr Key. Positive (+) settings will cause Damp to increase for notes above the Damp KTr Key. Negative () settings will cause Damping to decrease for notes above the Damping KTr Key.

Dispersion [099] Specifies the inharmonicity of the higher partials relative to the fundamental. With a value of 0, the partials will be located at integer (whole number)x multiples of the fundamental. As this value is in- creased, the partials will move further away from integer multiple locations. In general, thin and flexible strings can be simulated by a low Dispersion value, and thick and stiff strings can be simulated by a high Dispersion value.

If this value is raised excessively, the pitch may become unstable.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control Dispersion.

Intensity (Dispersion AMS Intensity) [99+99] Specifies the depth and direction of the effect of AMS.

Bridge Reflection [099] Specifies the amount of the wave that will be reflected at the end of the string. Higher values will make the notes sound more easily. With a setting of 0 there will be no reflection at all.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control Bridge Reflection.

Intensity (Bridge Reflection AMS Intensity) [99+99]

Specifies the depth and direction of the effect of AMS.

13d: Peaking EQ

Frequency [049] Specifies the center frequency at which the peaking EQ will boost (attenuate) the sound.

Q [029] Specifies the width of the region that will be boosted (attenuated) by the peaking EQ. With a setting of 0, a wide region will be affected. With a setting of 29, only a narrow region close to the center frequency will be boosted (attenuated).

Gain [18+18] Specifies the gain by which the peaking EQ will boost or attenuate.

14: OSC2 (Oscillator 2) OSC2 parameters have the same structure as OSC1 parameters. Refer to 13: OSC 1.

15: Noise Generator Make settings for the noise generator. The noise generator produces white noise. The noise signal is passed through a dedicated filter, and is then mixed with the oscillator 1, 2, and sub oscillator signals by the mixer section. (Refer to 16: OSC Mixer.)

Noise Generator

Cutoff Frequency Resonance

Low Pass

High Pass

Band Pass

Thru

Filter Type Input Trim

Noise Filter

15a

15b

15a: Noise Generator

Filter Type [Thru, Low Pass, High Pass, Band Pass] Selects the type of filter that will be applied to the output of the noise generator. If Thru is selected, the parameter settings described below will not be available.

Input Trim [099] Specifies the input level to the dedicated noise filter.

Frequency (Cutoff Frequency) [099] Specifies the cutoff frequency of the noise signal filter. For the characteristics of each filter type, refer to 31:Filter1 (page 38 of this manual).

Resonance [099] This boosts the frequency region specified by the Cutoff Frequency to add character to the sound.

34

Since the filter characteristics differ from the filter type of the 31: Filter 1 , 33: Filter 2 the resulting effect will be different even if Filter Type, Frequency and Resonance settings are identical.

15b: Frequency Modulation

AMS1 (Alternate Modulation Source 1) [OffMIDI:CC#83]

Selects a modulation source 1 ( p.48 of this manual) that will control the Frequency.

Intensity (Cutoff Frequency AMS1 Intensity) [99+99]

Specifies the depth and direction of the effect of AMS1.

AMS2 (Alternate Modulation Source 2) [OffMIDI:CC#83]

Selects a modulation source 2 (p.48 of this manual) that will control the Frequency.

Intensity (Cutoff Frequency AMS2 Intensity) [99+99]

Specifies the depth and direction of the effect of AMS2.

16: OSC Mixer The mixer allows you to set the levels at which the five signals (OSC 1, OSC 2, Sub OSC, Noise Genera- tor, Feedback) will be combined into the two mixer outputs. You can also select a modulation source to control each level, and specify its intensity.

16a

16b

16a: Mixer1 These parameters adjust the level at which the oscillator 1 signal is output from mixer output 1, and specify a modulation source that will control this level.

OSC1 (OSC1 Output Level) [00...99] Specifies the signal level that will be output to mixer output 1.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control output level.

Intensity (Level AMS Intensity) [99...+99] Specifies the depth and direction of the effect of AMS. With positive (+) settings, higher values of the modulation source will increase the output level. With negative () settings, lower values of the modulation source will increase the output level. If EG or LFO has been selected as the AMS, positive (+) settings will cause the original phase of the EG or LFO to be used, and negative () settings will invert the phase.

OSC2 (OSC2 Output Level) These parameters adjust the level at which the oscillator 2 signal is output from mixer output 1, and specify a modulation source that will control this level.

Sub OSC These parameters adjust the level at which the sub oscillator signal output is output from mixer output 1, and specify a modulation source that will control this level.

Noise These parameters adjust the level at which the output of the noise generator is output from mixer output 1, and specify a modulation source that will control this level.

Feedback These parameters adjust the level at which the feedback from the amp section is output from mixer output 1, and specify a modulation source that will control this level.

Raising the Feedback level excessively may cause the sound to distort.

16b: Mixer2 These parameters adjust the level at which the oscillator 1 signal is output from mixer output 2, and specify a modulation source that will control this level. Refer to the above explanation of 16a: Mixer 1.

35

17: Contoller Setup

17a

17b

1-7a: Panel Switch Assign Assign the function of the front panel [SW1] and [SW2] keys. Refer to TRITON Parameter Guide p.217 SW1, SW2 Assign List. Since the [SW1] and [SW2] settings of the program assigned to each timbre are not used by a combination, they must be set here again. Refer to TRITON Parameter Guide p.8 Panel Switch Assign (Program P1: 14a).

SW1 (SW1 Assign) [Off, ..., After Touch Lock]

SW1 Mode [Toggle, Momentary]

SW2 (SW2 Assign) [Off, ..., After Touch Lock]

SW2 Mode [Toggle, Momentary]

1-7b: Realtime Contol Knobs B-Assign Here you can assign the B-mode functions (mainly various types of control change) for the front panel REALTIME CONTROLS [1][4] knobs. The functions you select here will operate when you move the corresponding knob of the REALTIME CON- TROLS [1][4] knobs when B-mode is selected. Refer to TRITON Parameter Guide p.218 Realtime Control Knobs B-Assign List.

Knob 1-B [Off, ..., MIDI CC #00...CC #95]

Knob 2-B [Off, ..., MIDI CC #00...CC #95]

Knob 3-B [Off, ..., MIDI CC #00...CC #95]

Knob 4-B [Off, ..., MIDI CC #00...CC #95]

36

Program P2: Edit-Pitch

2-1: OSC1 P. Mod (Oscillator 1 Pitch Modulation)

21a

21b

21a: Pitch Slope Specifies how pitch will change in relation to the keyboard (key.)

Center Key [C1G9] Specifies the key at which Lower/Higher keyboard tracking will begin to apply.

You can also input a value by playing a note on the keyboard while you hold down the [ENTER] key.

Ramp Low [1.00+2.00] Specifies the depth and direction of the pitch change that will occur for notes below the Center Key.

Ramp High [1.00+2.00] Specifies the depth and direction of the pitch change that will occur for notes above the Center Key. When Low Slope and High Slope are set to +2.0, playing one octave upward from the Center Key will cause the pitch to rise two octaves. With a setting of 1.0, playing one octave upward will cause the pitch to fall one octave. With a setting of 0.0, the notes in the respective areas will produce the same pitch as the Center Key. To play pitches normally, set this parameter to +1.0.

C-1 C4 C9 C-1

C9

Pitch

Key

Center Key

1.0 +2.0 +1.0

0.0

21b: Pitch Modulation Specifies the pitch Modulation.

AMS1 (Alternate Modulation Source 1) [OffMIDI:CC#83]

Selects a modulation source 1 (p.48 of this manual) which will modify the pitch (e.g., apply vibrato).

Intensity (Pitch AMS1 Intensity) [99+99] Specifies the depth and direction of the pitch change that will be controlled by AMS1.

AMS(AMS1 Intensity Alternate Modulation Source) [OffMIDI:CC#83]

Specifies the controller (p.48 of this manual) that will control the Intensity (Pitch AMS1 Intensity).

Intensity (AMS1 Int AMS Intensity) [99+99]

Specifies the depth of the pitch modulation effect controlled by AMS1.

AMS2 (Alternate Modulation Source 2) [OffMIDI:CC#83]

Selects a modulation source 2 (p.48 of this manual) which will modify the pitch (e.g., apply vibrato).

Intensity (Pitch AMS2 Intensity) [99+99] Specifies the depth of the pitch modulation effect controlled by AMS2.

22: OSC2 P.Mod (Oscillator 2 Pitch Modulation)

23: SubOSC P.Mod (Sub Oscillator Pitch Modulation)

OSC2 P.Mod and SubOSC P.Mod, have the same parameter as OSC 1. Refer to 21: OSC1 P. Mod

24: Common P.Mod

24a

24b

24c

37

24a: Pitch Bend Specifies the width of pitch change that will occur when the joystick is moved to left and right.

JS(+X) (Joystick Intensity +X) [60+24] Specifies the amount and direction of pitch change (in semitone units) that will occur when the joystick is moved to the right. With positive (+) settings the pitch will rise, and with negative (-) settings the pitch will fall. A setting of 12 will produce one octave of change.

Step (Joystick Step +X) [Continuous, 1/8, 1/4, 1/2, 112]

Specifies how the pitch will change when the joystick is moved to the right. Continuous: Smooth change.

1/8: Change in 1/8 semitone steps. 1/4: Change in 1/4 semitone steps. 1/2: Change in 1/2 semitone steps. 1...12: Change in steps of the specified number of semitones (up to 1 octave).

JS(X) (Joystick Intensity X) [60+24] Specifies the amount and direction of pitch change (in semitone units) that will occur when the joystick is moved to the left.

Step (Joystick Step X) [Continuous, 1/8, 1/4, 1/2, 112]

Specifies how the pitch will change when the joystick is moved to the left. Refer to Step (Joystick Step +X).

If the Step (Joystick Step +X) or Step (Joy- stick Step X) settings are greater than the settings for JS (+X) and JS (X), the pitch will not change.

24b: Common Pitch Modulation Creates time-varying changes in the pitch of all oscillators (oscillators 1 and 2, and the sub oscillator).

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects the modulation source (p.48 of this manual) that will control the pitch of all oscillators (oscillators 1 and 2, and the sub oscillator).

Intensity (Common Pitch AMS Intensity) [99+99]

Specifies the depth and direction of the effect pro- duced by AMS.

24c: Portamento These settings specify how portamento will be applied. (Portamento creates a smooth change in pitch from one note to the next.)

Enable Check this when you wish to use portamento.

Fingered Check this when you want to apply portamento only when a note is pressed while continuing to hold the previous note.

Time [099] Specifies the portamento time. Higher values will cause the pitch to change more slowly.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control Time.

Intensity (Portamento Time AMS Intensity) [99+99]

Specifies the dipth and direction in which the portamento time will be controlled by the AMS .

38

Program P3: Edit-Filter Here, you can make settings for one of the two multi- mode filters.

31: Filter 1 Each multi-mode filter can be set to one of five filter types.

Multimode Filter

Low Pass High Pass Band Pass Band Reject Dual BPF

Filter TypeInput Trim Cutoff Frequency

Resonance

31d

31a

31c

31b

31a: Routing (Filter Routing)

Routing [Serial 1/Serial 2/Parallel] Use the radio buttons to select the way in which filters 1 and 2 will be combined.

Filter2: Link to Filter 1 If this is checked, Filter 2 will be linked to Filter 1, and the following settings will be the same as the settings of Filter 1. If this is not checked, the following parameters can be set for Filter 2.

31b: Filter Type

Filter Type [Low Pass(A), High Pass(A), Band Pass(A), Band Reject(A), Dual BPF(A/B)]

Selects the filter type. When Dual BPF(A/B) is selected, the 31d: Filter B parameters can also be set.

Filter Types and Cutoff Frequency Low Pass Filter (Low Pass)

Dual Band Pass Filter (Dual BPF)

Cutoff Frequency A

Cutoff Frequency B

A low pass filter is the most commonly-used type of filter, and passes the range of frequencies that lie below the cutoff frequency, and cuts the high range. Cutting the higher partials will cause a bright sound to become darker (more mellow).

A high pass filter passes the range of frequencies that lie above the cutoff frequency, and cuts the low range. This type of filter is used when you wish to make the sound thinner. However, raising the cutoff frequency excessively will drastically reduce the volume.

A band pass filter passes the range of frequencies in the vicinity of the cutoff frequency, and cuts the ranges above and below. This type of filter is used when you wish to emphasize a particular portion of the sound.

The dual band pass filter places two band pass filters in parallel. It allows you to simulate sounds such as human voice and the body resonances of a violin or guitar.

Band Pass Filter (Band Pass)

High Pass Filter (High Pass)

Cutoff Frequency

A band reject filter cuts only the range in the vicinity of the cutoff frequency, and passes the rest of the sound. This type of filter gives a unique character to the sound.

Band Reject Filter (Band Reject)

Cutoff Frequency

Cutoff Frequency

Cutoff Frequency

frequency

frequency

frequency

frequency

frequency

A Trim [099] Specifies the level of the input to filter A.

If this value is raised, the sound may become distorted if the resonance setting is high, etc.

B Trim [099] Specifies the level of the input to filter B.

If this value is raised, the sound may become distorted if the resonance setting is high, etc.

31c: Filter A

Frequency (Cutoff Frequency) [099] Specifies the cutoff frequency of filter 1. As this value is increased, the cutoff frequency will rise. Since the Band Pass(A) and Dual BPF(A/B) filter types use filters with differing characteristics, their actual cutoff frequency may differ even if their settings are identical.

EG (Cutoff Frequency Modulation EG) [EG1EG4, AmpEG]

Selects the EG that will create time-varying change in the cutoff frequency of filter 1.

39

Intensity (Cutoff Frequency Mod. EG Intensity) [99+99]

Specifies the depth and direction of the control that EG (Cutoff Frequency Modulation EG) will have on the cutoff frequency. With positive (+) settings of this parameter, the tone will become brighter when the various EG levels rise into the + area (the setting of the Frequency will be reached when the EG levels are at 0), and darker when the EG levels fall into the area. With negative () settings of this parameter, the tonal change will take place in the opposite direction.

Resonance [099] This setting emphasizes the overtones in the region of the Frequency to add character to the sound. Higher values will produce a stronger effect. With high settings of resonance, the output signal of the filter may distort. If this occurs, reduce the A Trim setting. With the Dual BPF(A/B) filter type, the overtones in the vicinity of each cutoff frequency will be affected in the same way as by a Band Pass(A).

Low resonance value High resonance value

The effect of resonance Low Pass

High Pass

Band Pass

Band Reject

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control the amount of resonance.

Intensity (Resonance AMS Intensity) [99+99] Specifies the depth and direction of the effect that AMS will have on the amount of resonance.

3-1d: Filter B These parameters will be available if Dual BPF (A/B) was selected as the Type in 31b: Filter Type. For details on each parameter, refer to 31c: Filter A. The EG and AMS are set in 31c: Filter A.

3-2: Filter1 Mod. (Filter 1 Modulation)

32a

32b

32a: FilterA/B Keyboard Track Keyboard tracking settings specify how the cutoff frequency of filter 1 will be varied according to keyboard position.

Filter A:

Key Low [C-1G9] Specifies the key at which Lower keyboard tracking will begin.

Key High [C-1G9] Specifies the key at which Higher keyboard tracking will begin.

You can also input a value by playing a note on the keyboard while you hold down the [ENTER] key.

Ramp Low [99+99] Specifies the depth and direction of cutoff frequency change that will occur below the Key Low. With a setting of 50, the change will match the change in pitch.

Ramp High [99+99] Specifies the depth and direction of cutoff frequency change that will occur above the Key High. With a setting of +50, the change will match the change in pitch.

C-1 C4 C9

-50

0

Ramp> 0

0

+50

+99

Ramp<0 -99

Cutoff frequency

40

Filter B: Here you can adjust the settings for Filter B. These parameters have the same structure as the Filter A parameters.

3-2b: Filter A/B Modulation

Filter A:

AMS1 (Alternate Modulation Source 1) [OffMIDI:CC#83]

Selects a modulation source 1 (p.48 of this manual) that will control Frequency.

Intensity (Cutoff Frequency AMS1 Intensity) [99+99]

Specifies the depth and direction of the effect that AMS1 will have on the cutoff frequency.

AMS2 (Alternate Modulation Source 2) [OffMIDI:CC#83]

Selects a modulation source 2 (p.48 of this manual) that will control Frequency.

Intensity (Cutoff Frequency AMS2 Intensity) [99+99]

Specifies the depth and direction of the effect that AMS2 will have on the cutoff frequency.

Filter B: Adjust the Intensity of AMS1 and AMS2 specified for Filter A.

33: Filter2 For details on the parameters, refer to 31: Filter.

34: Filter2 Mod. (Filter 2 Modulation) For details on the parameters, refer to 32: Filter 1 Mod.

Program P4: Edit-Amp Here, you can make volume-related settings. There are two independent amps, and the signals which are input to each amp are determined by the setting of 31a: Routing (p.47 of this manual).

41: Amp1 Level (Amplifier 1 Level)

41a

41b

41a: Amp Level

Amp Level [099] Specifies the volume level of amp 1. The input signal to amp 1 is determined by the 31a:Routing setting

EG (Amplitude Modulation EG) [EG1EG4, AmpEG]

Selects the EG that will create time-variant change in the volume level of amp 1. For the settings of each EG, refer to 43: Amp EG , Program P6.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control the volume level of amp 1.

Intensity (Amplitude AMS Intensity) [99+99] Specifies the depth and direction of the effect of AMS on the volume level.

41b: Keyboard Track

Key Low [C-1G9] Specifies the key at which Lower keyboard tracking will begin.

Key High [C-1G9] Specifies the key at which Higher keyboard tracking will begin.

41

You can also input a value by playing a note on the keyboard while you hold down the [ENTER] key.

Ramp Low [99+99] Specifies the way in which keyboard tracking will affect the volume of notes below the Key Low.

Ramp High [99+99] Specifies the way in which keyboard tracking will affect the volume of notes below the Key High.

C-1 C4 C9

-50

0

Ramp> 0

0

+50

+99

Ramp<0 -99

Volume level

If Ramp Low or Ramp High are set to positive(+) settings, you will need to lower the 41a: Amp Level Amplitude value.

42: Amp2 Level (Amplifier 2 Level) Here you can adjust the settings for Amp 2. These parameters have the same structure as the 41a: Amp 1 parameters.

43: Amp EG (Amplifier Envelope Generator)

43a 43b

43c 43d

Here, you can make settings for the Amp EG. The Amp EG lets you specify how the sound will change over time. Since the Amp EG can also be used as a general-purpose controller, it can create time-variant change in parameters other than volume.

Note-off Attack level Sustain level

Note-on

Attack time

Decay time

Slope time

Release time

Time Break level

Volume

Time-variant change in volume created by the amp EG

43a: Level (Amp EG Level)

Attack (Attack Level) [099] Specifies the volume that will be reached after the Attack Time has elapsed.

Break (Break Level) [099] Specifies the volume level that will be reached after the Decay Time has elapsed.

Sustain (Sustain Level) [099] Specifies the volume level that will be reached after the Slope Time has elapsed.

43b: Time (Amp EG Time)

Attack (Attack Time) [099] Specifies the time from note-on (when a note is played) until the volume reaches the attack level. With a value of 0, the volume will change instantly. With a value of 99, the volume will change slowly.

Decay (Decay Time) [099] Specifies the time from when the attack time ends until the break level is reached.

Slope (Slope Time) [099] Specifies the time from when the decay time ends until the sustain level is reached.

Release (Release Time) [099] Specifies the time from note-off (when a note is released) until the volume falls to zero.

43c: Level Modulation

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control the level of the Amp EG.

Intensity (EG Level AMS Intensity) [99+99] Specifies the depth and direction of the effect that AMS will have on the level of the Amp EG.

42

Velocity Control [99+99] Specifies the depth and direction of the effect that velocity will have on the level of the amp EG.

43d: Time Modulation

AMS1 (Alternate Modulation Source 1) [OffMIDI:CC#83]

Selects a modulation source 1 (p.48 of this manual) that will control the Amp EG times.

Intensity (EG Time AMS1 Intensity) [99+99] Specifies the depth and direction of the effect that AMS1 will have on the Amp EG times.

AMS2 (Alternate Modulation Source 2) [OffMIDI:CC#83]

Selects a modulation source 2 (p.48 of this manual) that will control the Amp EG times.

At (Attack Time AMS2 Intensity) [99+99] Dc (Decay Time AMS2 Intensity) [99+99] Sl (Slope Time AMS2 Intensity) [99+99] Rl (Release Time AMS2 Intensity) [99+99] Specifies the depth and direction of the effect that AMS2 will have on each EG time.

Amp EG changes (time) (AMS=Velocity, Intensity=+value)

Note-on Note-off

Note-on Note-off

Note-on Note-off

When keyboard is played softly with At, Dc, Sl, and Rl set to + The settings of 4-3d: AMS2

When keyboard is played strongly with At, Dc, Sl, and Rl set to +

When keyboard is played strongly with At, Dc, Sl, and Rl set to -

44: Output Level / Pan

44a

44b

44a: Output Level

Output Level [0127] Specifies the output level following the amp.

4-4b: Pan

Pan [L000C064R127] Set the pan (stereo location) of oscillator 1. L001 is far left, C064 is center, and R127 is far right.

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects the modulation source (p.36 of this manual) that will move the panning of amp 1 relative to the Pan setting.

Intensity (Panpot AMS Intensity) [99+99] Specifies the depth and direction of the effect of AMS on the panning.

43

Program P5: Edit-Common LFO This section provides four LFOs (Low Frequency Oscillators). These LFOs can be used as modulation sources for parameters of other sections, to create cyclic changes in the sound.

51: LFO 1

51a

51b

51c

51a: LFO1

Waveform [Triangle 0Exponential Saw Down] Settings for the general-purpose LFOs

Exponential Saw Up

Exponential Saw Down

Exponential Triangle

Step Triangle-4

Step Triangle-6

Step Saw-6

Triangle Random

Sine

Triangle 0

Saw Up 0

Saw Up 180

Saw Down 0

Saw Down 180

Square

1/2 cycle

Random-Vector

Random-S/H

Triangle 90

Step Saw-4

When Key Sync=ON, the starting phase will vary randomly.

Amplitude and the duration at which each level is held will both change randomly (sample & hold).

Random 2 changes in a straight line toward a value which is determined randomly every 1/2 cycle.

Frequency [0199] Specifies the frequency of the LFO.

Offset [50+50] Specifies the center value of the LFO waveform.

The parameter value being modulated

LFO movement determined by Modulation Intensity

The parameter value being modulated

LFO movement determined by Modulation Intensity

The parameter value being modulated

LFO movement determined by Modulation Intensity

Offset = 0

Offset = 50

Offset = -50

Amplitude AMS (Alternate Modulation Source 1) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control the amplitude of the LFO waveform.

Intensity (Amplitude AMS Intensity) [99+99] Specifies the depth and direction of the effect that AMS will have on the amplitude of the LFO waveform.

Key Sync [Off/by Timbre/by Voice] Use the radio buttons to select the key sync setting (i.e., whether or not the phase of the LFO waveform will be returned to its initial state when a note-on occurs). Off: The LFO will operate regardless of note-on. by Timbre: Key sync will occur for the LFOs of all voices at the time of the first note-on that occurs in a state when no keys are on. by Voice: Key sync will occur independently for the individual LFO of the voice for which note-on occurred.

Key Sync = Off

Key Sync = byTimbre / byVoice

Note-On Note-On

Note-OnNote-On

44

Fade [099] Specifies the time over which the amplitude of the LFO will increase from 0 until it reaches the maxi- mum value.

51b: Frequency Modulation You can use two alternate modulation sources to control the frequency of the LFO.

AMS1 (Alternate Modulation Source 1) [OffMIDI:CC#83]

Select a modulation source 1 (p.48 of this manual) that will control the LFO frequency.

Intensity (Frequency AMS1 Intensity) [99+99] Specifies the depth and direction of the effect that AMS1 will have on the Frequency value.

AMS2 (Alternate Modulation Source 2) [OffMIDI:CC#83]

Selects a modulation source 2 (p.48 of this manual) that will control the LFO frequency.

Intensity (Frequency AMS2 Intensity) [99+99] Specifies the depth and direction of the effect that AMS2 will have on the Frequency value.

51c: Frequency MIDI/Tempo Sync.

MIDI/Tempo Sync. Checked: The LFO frequency will synchronize to the tempo (MIDI Clock). In this case, the settings of 5 1a: Frequency and 51b: Frequency Modulation will have no effect.

Base Note [ ] Times [01...16] If MIDI/Tempo Sync. is checked, these parameters specify the Base Note note value and a multiple Times relative to the (tempo). These parameters will determine the frequency of the OSC1 LFO1. For example if Base Note is (quarter note) and Times is 04, the LFO will cycle once every four beats. Even if you change the (Tempo) of the arpeggiator or sequencer, the LFO will always cycle once every four beats.

If the Global mode parameter 11a: MIDI Clock ( Parameter Guide p.118) is set to Internal, the LFO will synchronize to the tempo specified by the program. If it is set to External MIDI or External PC I/F, the LFO will synchronize to the MIDI Clock messages received from an external MIDI device.

52: LFO 2 53: LFO 3 54: LFO 4 LFO 2, LFO 3, and LFO 4 have the same parameter as LFO 1. Refer to 51: LFO 1

45

Program P6: Edit-Common EG This section provides four general purpose EGs (envelope generators). The four EGs can be used as modulation sources for the parameters of other sections to create time-variant change in the sound.

Note-off Attack level

Start level

Sustain level Note-on

Attack time

Decay time

Slope time

Release time

Time

Break level

0

-99

+99

61: EG 1

61a

61d61c

61b

61a: Level (EG Level)

Start (Start Level) [99+99] Specifies the value at the time of note-on.

Attack (Attack Level) [99+99] Specifies the value that will be reached after the Attack Time has elapsed.

Break (Break Level) [99+99] Specifies the value that will be reached after the Decay Time has elapsed.

Sustain (Sustain Level) [99+99] Specifies the value that will be reached after the Slope Time has elapsed.

Release (Release Level) [99+99] Specifies the value that will be reached after the Release Time has elapsed.

61b: Time (EG Time)

Attack (Attack Time) [099] Specifies the time from note-on (when a note is played) until the value reaches the attack level. With a value of 0, the value will change instantly. With a value of 99, the value will change slowly.

Decay (Decay Time) [099] Specifies the time from when the attack time ends until the Break Level is reached.

Slope (Slope Time) [099] Specifies the time from when the decay time ends until the Sustain Level is reached.

Release (Slope Time) [099] Specifies the time from note-off (when a note is released) until the Release Level is reached.

61c: Level Modulation

AMS (Alternate Modulation Source) [OffMIDI:CC#83]

Selects a modulation source (p.48 of this manual) that will control the level of EG1.

Intensity (EG Level AMS Intensity) [99+99] Specifies the depth and direction of the effect that AMS will have on the EG levels.

Velocity Control [99+99] Specifies the depth and direction of the effect that velocity will have on the EG levels.

EG changes (level) (AMS=Velocity, Intensity=+value)

Note-on Note-off

Note-on Note-off

Note-on Note-off

When keyboard is played strongly with St, At and Br set to -

When keyboard is played softly with St, At, and Br set to + (the settings of 6-1a: Level)

When keyboard is played strongly with St, At and Br set to +

61d: Time Modulation

AMS1 (Alternate Modulation Source 1) [OffMIDI:CC#83]

Selects a modulation source 1 (p.48 of this manual) that will control the EG1 times.

Intensity (EG Time AMS1 Intensity) [99+99] Specifies the depth and direction of the effect that AMS1 will have on the EG times.

46

AMS2 (Alternate Modulation Source 2) [OffMIDI:CC#83]

Selects a modulation source 2 (p.48 of this manual) that will control the EG1 times.

At (Attack Time AMS2 Intensity) [99+99] Dc (Decay Time AMS2 Intensity) [99+99] Sl (Slope Time AMS2 Intensity) [99+99] Rl (Release Time AMS2 Intensity) [99+99] Specifies the depth and direction of the effect that AMS2 will have on each EG time.

EG changes (time) (AMS2=Velocity, Intensity=+value)

Note-on Note-off

Note-on Note-off

Note-on Note-off

When keyboard is played strongly with At, Dc, Sl, and Rl set to -

When keyboard is played softly with At, Dc, Sl, and Rl set to + (The settings of 6-1d: AMS2)

When keyboard is played strongly with At, Dc, Sl, and Rl set to +

62: EG 2 63: EG 3 64: EG 4 EG 2, EG 3 and EG 4 have the same parameters as EG 1. Refer to 61: EG 1.

Program P7: Edit-Arpeggiator Here you can make arpeggiator-related settings. For details on the parameters etc., refer to TRITON Parameter Guide p.22, Program P7.

Program P8: Edit-Insert Effect Here, you can make settings for the insertion effects. For details on the parameters etc., refer to TRITON Parameter Guide p.24, Program P8.

Program P9: Edit-Master Effect Here, you can make settings for the master effects. For details on the parameters etc., refer to TRITON Parameter Guide p.27 Program P9.

47

Combination mode

Combination P4: MOSS Setup Here you can specify how bank F programs will be sounded.

These settings have no effect on bank AE or G programs.

43: MOSS Setup Specify the number of voices that will be used by bank F programs, and how they will be routed through effects and the individual audio outputs.

Voice Allocation Reserve (Total Max:6voices) [0 ... 6]

For each timbre, specify the number of voices for when a bank F program is selected. Make settings so that the total for all timbres does not exceed six voices. If this is set to 0, a bank F program selected for that timbre will not sound. When using the EXB-MOSS multi-timbrally, refer to Multi-timbral settings.

When you change the bank/program of a timbre to change from a bank AE or G program to a bank F program, it will sound according to these settings. Timbres that are set to 0 will not sound if they are switched to a bank F program. Before you select a bank F program, set this parameter appropriately.

MOSS BUS Select Reference [Timbre1 ... Timbre8]

Specify the insertion/master effect routing and individual audio output routing for all timbres that use bank F programs. The settings of the timbre you select here will determine the insertion/master effect and individual audio output routing of these timbres. (They cannot be set independently.)

Insertion/master effect routing and individual audio output routing for a timbre is set in the Program P8: Routing tab. Refer to Multi-timbral settings in this manual.

The Timbre 18 you select here does not have to be using a bank F program.

The actual levels of send 1 and 2 for a timbre using a bank AE or G program is determined by multiplying the timbre setting by the send level of the program, but for timbres that use a bank F program, the send level setting of the timbre will be the actual level.

48

Appendices Cautions when using bank F

Sound production when changing programs If you change bank F programs while sound is being produced, the bank F program will stop sounding. The newly selected program will sound at the next note-on.

MIDI Program Change reception Depending on the oscillator type that is used by a program, a certain interval of time may be required from when a program change is received until the bank F program actually changes. When changing programs, please allow a sufficient time interval between the program change and the note-on.

About noise The inter-relation between effect settings etc. and the oscillator parameters of the program may cause noise to appear in the sound under some conditions. Also, playing the program immediately after selecting it (within one second) may cause noise to be mixed with the output sound. If you are using bank F programs in multiple timbres When playing multi-timbrally and a bank F program is being sounded, selecting a bank F program for the timbre number prior to that timbre number will cause noise to be heard in the currently-sounding bank F program.

Data dump compatibility Bank F programs are not compatible with the pro- grams of the Prophecy, Z1, TRINITY V3, or TRIN- ITY MOSS-TRI.

Affix the Sondius-XG label Affix the included label to the right side of the front panel. Refer to the following diagram

4mm

Modulation Source List Off EG 1 EG 2 EG 3 EG 4 Amp EG LFO 1 LFO 2 LFO 3 LFO 4 Portamento Note No. Linear Note No. Exp. Note Split High Note Split Low Velocity Soft Velocity Med. Velocity Hard After Touch JS X JS +Y: CC#01 JS -Y: CC#02 JS +Y & AT/2* JS -Y & AT/2* Pedal: CC#04 Ribbon: CC#16 Ribbon +X Ribbon -X Slider: CC#18 KnobMod1: #17 KnobMod2: #19 KnobMod3: #20 KnobMod4: #21 KnobMod1 [+] KnobMod2 [+] KnobMod3 [+] KnobMod4 [+] Damper: #64 SW 1: CC#80 SW 2: CC#81 Foot SW: #82 MIDI: CC#83

* AT/2 is an aftertouch effect that is one half of After Touch.

49

Voice Name List

Combination (MOSS.PCG) # Name Arp.SWPattern A Run Mod.SW1 Knob1 Knob3

Category Pattern B Run Mod.SW2 Knob2 Knob4 B000 Forest Piano Off P001: DOWN On Octave Down F/A Attack (CC#73) Knob Mod.3 (CC#20)

Keyboard P000: UP On Lock JS(-Y) & Ribbon F/A Decay (CC#75) Knob Mod.4 (CC#21) B001 !! MOSSPOWER !! On U153: Drum'n'Bass 1 On Mod.SW1 (CC#80) F/A Attack (CC#73) Knob Mod.3 (CC#20)

Rhythmic Pattern U043: Trance Bass Riff On Portamento SW (CC#65) F/A Decay (CC#75) Knob Mod.4 (CC#21) B002 Eternal Partners Off U013: BalladPicking GT On Mod.SW1 (CC#80) Volume (CC#07) Knob Mod.3 (CC#20)

Guitar/Plucked P000: UP Off Lock JS(-Y) & Ribbon Expression (CC#11) Knob Mod.4 (CC#21) B003 Dirty Moss Sax Off U165: Smooth Hop On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20)

LeadSplits P000: UP Off Lock Ribbon Knob Mod.2 (CC#19) Knob Mod.4 (CC#21) B004 Water Pad Off P000: UP On Mod.SW1 (CC#80) Volume (CC#07) Knob Mod.3 (CC#20)

MotionSynth P000: UP Off Lock JS(-Y) & Ribbon Knob Mod.2 (CC#19) Knob Mod.4 (CC#21) B005 Intimate Orch Off U029: Arco Arpeggio On Mod.SW1 (CC#80) F/A Attack (CC#73) Knob Mod.3 (CC#20)

Orchestral P001: DOWN On Lock JS(-Y) F/A Decay (CC#75) Knob Mod.4 (CC#21) B006 RETRO Rocket Spl On P004: RANDOM On Portamento SW (CC#65) F/A Decay (CC#75) Knob Mod.3 (CC#20)

LeadSplits U095: Retro Pattern On Lock JS(-Y) & Ribbon Knob Mod.2 (CC#19) Knob Mod.4 (CC#21) B007 MossTrumpets Cut Off U068: 7-tone Ostinato On Mod.SW1 (CC#80) F/A Attack (CC#73) Knob Mod.3 (CC#20)

BrassReed P000: UP Off Octave Down F/A Release (CC#72) Knob Mod.4 (CC#21) B008 4'5' Splitmoss Off U145: 8 Beat On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20)

BassSplits U151: Latin-drums On Mod.SW2 (CC#81) F/A Attack (CC#73) F/A Decay (CC#75) B009 Telegraph Unison On U147: Shuffle 2 On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20)

Rhythmic Pattern U162: House 2 On Octave Down Knob Mod.2 (CC#19) Knob Mod.4 (CC#21) B010 Pure Ac.Guitar Off U102: ONCE! On Mod.SW1 (CC#80) F/A Attack (CC#73) Knob Mod.3 (CC#20)

Guitar/Plucked P000: UP Off Lock JS(-Y) & Ribbon Volume (CC#07) Knob Mod.4 (CC#21) B011 Cyber Sly Heart On U150: Bossa Nova On Mod.SW1 (CC#80) Filter Resonance (CC#71) Knob Mod.3 (CC#20)

Complex & SE U155: Drum'n'Bass 3 On Lock JS(-Y) & Ribbon Knob Mod.2 (CC#19) Knob Mod.4 (CC#21) B012 Winter Bells Off P001: DOWN On Mod.SW1 (CC#80) F/A Attack (CC#73) Knob Mod.3 (CC#20)

Bell/Mallet/Perc P000: UP On Lock JS(-Y) F/A Decay (CC#75) Knob Mod.4 (CC#21) B013 Trance Leader Off U118: Techno Riff 7 On Mod.SW1 (CC#80) F/A Attack (CC#73) Knob Mod.3 (CC#20)

Synth P000: UP Off Portamento SW (CC#65) F/A Sustain (CC#70) Knob Mod.4 (CC#21) B014 Sweep & Cool Off U150: Bossa Nova On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20)

Keyboard U164: New Disco 2 On Mod.SW2 (CC#81) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21) B015 Moss Stencil Off U109: Up uP UP Up uP On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20)

Pads U107: 8th Chunk On Lock JS(-Y) & Ribbon Knob Mod.2 (CC#19) Knob Mod.4 (CC#21) B016 Gaterhythm On U158: Drum'n'Bass 6 On Mod.SW1 (CC#80) F/A Decay (CC#75) Filter EG Int. (CC#79)

Rhythmic Pattern U043: Trance Bass Riff On Mod.SW2 (CC#81) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21) B017 UnisonMoss SYNC Off U148: Jazz 1 On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20)

Synth U060: Crazy Bee On Octave Down Knob Mod.2 (CC#19) Knob Mod.4 (CC#21) B018 Metallic Clavi Off U125: Trance Riff 1 On Mod.SW1 (CC#80) F/A Attack (CC#73) F/A Sustain (CC#70)

Keyboard P000: UP Off Lock JS(-Y) & Ribbon F/A Decay (CC#75) Knob Mod.4 (CC#21) B019 Moss Soprano SP Off U164: New Disco 2 On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20)

LeadSplits U107: 8th Chunk On Lock Ribbon Knob Mod.2 (CC#19) Knob Mod.4 (CC#21) B020 Topper Split Off U051: Old Dance Bass 2 On Mod.SW1 (CC#80) F/A Attack (CC#73) Knob Mod.3 (CC#20)

BassSplits P000: UP Off Lock JS(-Y) F/A Decay (CC#75) Knob Mod.4 (CC#21) B021 Talkabout On U145: 8 Beat On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20)

Complex & SE U151: Latin-drums On Mod.SW2 (CC#81) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21) B022 Flute Moss Split Off U165: Smooth Hop On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20)

LeadSplits U034: TechnoBass Riff2 On Lock JS(-Y) & Ribbon Knob Mod.2 (CC#19) Knob Mod.4 (CC#21) B023 DigiStrat Guitar Off U016: Soul Strum GT On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20)

Guitar/Plucked P000: UP Off Lock JS(-Y) & Ribbon F/A Decay (CC#75) Knob Mod.4 (CC#21) B024 120 To Sync On U145: 8 Beat On Mod.SW1 (CC#80) F/A Attack (CC#73) Knob Mod.3 (CC#20)

Rhythmic Pattern P000: UP Off Mod.SW2 (CC#81) Filter Resonance (CC#71) Knob Mod.4 (CC#21) B025 BIG Synth Saws Off U125: Trance Riff 1 On Mod.SW1 (CC#80) F/A Attack (CC#73) F/A Sustain (CC#70)

Synth P000: UP Off Lock JS(-Y) & Ribbon F/A Decay (CC#75) Knob Mod.4 (CC#21) B026 Sleepy Bells Off U143: Penta-Fall On Mod.SW1 (CC#80) F/A Attack (CC#73) Knob Mod.3 (CC#20)

Bell/Mallet/Perc P000: UP Off Lock JS(-Y) & Ribbon F/A Decay (CC#75) Knob Mod.4 (CC#21) B027 Wurlysizer ArpSW On P000: UP On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20)

Keyboard P000: UP Off Mod.SW2 (CC#81) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21) B028 Moss Brass Split Off U175: BD/HH/SD 16ths On Mod.SW1 (CC#80) F/A Attack (CC#73) Knob Mod.3 (CC#20)

BrassReed U054: Walkin' Bass On Mod.SW2 (CC#81) F/A Release (CC#72) Knob Mod.4 (CC#21)

50

# Name Arp.SWPattern A Run Mod.SW1 Knob1 Knob3 Category Pattern B Run Mod.SW2 Knob2 Knob4

B029 Soul-DrumOnKnob1 Off U144: 1Note Repeat-Lo On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) LeadSplits U166: HipHop 1 On Lock JS(-Y) & Ribbon Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B030 Geronimoss On U145: 8 Beat On Lock JS(-Y) & Ribbon Mod.SW1 (CC#80) Knob Mod.3 (CC#20) Rhythmic Pattern P000: UP Off Mod.SW2 (CC#81) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B031 Moss Power Split Off U030: DanceBass Riff 1 On Mod.SW1 (CC#80) F/A Attack (CC#73) Knob Mod.3 (CC#20) BassSplits P000: UP Off Mod.SW2 (CC#81) F/A Release (CC#72) Knob Mod.4 (CC#21)

B032 Bright Moss Off U155: Drum'n'Bass 3 On Mod.SW1 (CC#80) Mod.SW2 (CC#81) Knob Mod.3 (CC#20) Keyboard U035: TechnoBass Riff3 On Lock JS(-Y) & Ribbon Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B033 Tell me Thelma On U146: Shuffle 1 On Lock JS(-Y) & Ribbon Knob Mod.1 (CC#17) Mod.SW2 (CC#81) Rhythmic Pattern U165: Smooth Hop On Mod.SW2 (CC#81) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B034 SquareTubeSea Off U109: Up uP UP Up uP On Mod.SW1 (CC#80) F/A Attack (CC#73) Knob Mod.3 (CC#20) Pads P002: ALTERNATE1 On Mod.SW2 (CC#81) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B035 Moss Sax Split On P000: UP On Mod.SW1 (CC#80) Filter Cutoff (CC#74) Knob Mod.3 (CC#20) LeadSplits U144: 1Note Repeat-Lo On Lock JS(-Y) & Ribbon Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B036 System Start-Up Off P000: UP Off Mod.SW1 (CC#80) F/A Attack (CC#73) F/A Sustain (CC#70) MotionSynth P000: UP Off Lock JS(-Y) & Ribbon F/A Decay (CC#75) Knob Mod.4 (CC#21)

B037 AwesomeStringPad Off U029: Arco Arpeggio On Mod.SW1 (CC#80) F/A Attack (CC#73) Knob Mod.3 (CC#20) Strings U022: Piano Arpeggio 1 Off Lock JS(-Y) & Ribbon F/A Decay (CC#75) Knob Mod.4 (CC#21)

B038 CyberSynthBass Off U123: Echo Riff On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) Synth P000: UP Off Portamento SW (CC#65) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B039 Moss BRASS Sect Off U149: Jazz 2 On Mod.SW1 (CC#80) Filter Cutoff (CC#74) Knob Mod.3 (CC#20) BrassReed U152: Heavy Rock On Mod.SW2 (CC#81) F/A Release (CC#72) Knob Mod.4 (CC#21)

B040 Z-Lead Moss Off U147: Shuffle 2 On Octave Down Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) Synth U162: House 2 On Mod.SW2 (CC#81) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B041 Moss Srave On U112: Techno Riff 1 On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) Rhythmic Pattern U175: BD/HH/SD 16ths On Lock JS(-Y) & Ribbon Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B042 NewTouchGuitar Off U093: Bossa Arpeggio On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) Guitar/Plucked U004: Guitar Strum 5 On Lock JS(-Y) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B043 *Water Exchange* On U109: Up uP UP Up uP On Mod.SW1 (CC#80) Filter Cutoff (CC#74) Filter Resonance(CC#71) MotionSynth U109: Up uP UP Up uP Off Lock JS(-Y) F/A Attack (CC#73) Knob Mod.4 (CC#21)

B044 Crystal Bells Off P000: UP On Mod.SW1 (CC#80) F/A Attack (CC#73) Knob Mod.3 (CC#20) Bell/Mallet/Perc P001: DOWN On Mod.SW2 (CC#81) F/A Decay (CC#75) Knob Mod.4 (CC#21)

B045 1+3 Splitmoss Off U145: 8 Beat On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) BassSplits U151: Latin-drums On Mod.SW2 (CC#81) F/A Attack (CC#73) F/A Decay (CC#75)

B046 Cutt Da Clav Off U046: Euro Bass On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) Keyboard P000: UP Off Lock JS(-Y) & Ribbon Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B047 Calm Move On P000: UP On Mod.SW1 (CC#80) Mod.SW2 (CC#81) Knob Mod.3 (CC#20) MotionSynth P002: ALTERNATE1 On Lock JS(-Y) & Ribbon Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B048 Moss Stamina Off U175: BD/HH/SD 16ths On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) Rhythmic Pattern P000: UP Off Mod.SW2 (CC#81) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B049 Palawaters On U144: 1Note Repeat-Lo On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) MotionSynth P000: UP Off Mod.SW2 (CC#81) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B050 Nu Gtr Pad ArpSw Off P000: UP On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) Guitar/Plucked P000: UP Off Mod.SW2 (CC#81) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B051 UnisonMoss ST On U071: 5-tone Trance 1 On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) Synth U062: Stepping Note On Octave Down Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B052 Session Split Off U146: Shuffle 1 On Mod.SW1 (CC#80) Mod.SW1 (CC#80) Knob Mod.3 (CC#20) BassSplits U150: Bossa Nova On Lock JS(-Y) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B053 MosStrings ArpSW On U144: 1Note Repeat-Lo On Lock Ribbon Filter Cutoff (CC#74) Knob Mod.3 (CC#20) Strings P000: UP Off Lock JS(-Y) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B054 FluteInAmbySauce On U144: 1Note Repeat-Lo On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) LeadSplits P000: UP Off Mod.SW2 (CC#81) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B055 Windy Guitar On P004: RANDOM On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) Guitar/Plucked U102: ONCE! On Lock JS(-Y) & Ribbon Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B056 3FingerGateGame On U150: Bossa Nova On Mod.SW1 (CC#80) F/A Attack (CC#73) F/A Decay (CC#75) Rhythmic Pattern U033: TechnoBass Riff1 On Mod.SW2 (CC#81) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B057 NakedClav->ArpOn Off P000: UP On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) Synth P000: UP Off Lock JS(-Y) & Ribbon Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

51

# Name Arp.SWPattern A Run Mod.SW1 Knob1 Knob3 Category Pattern B Run Mod.SW2 Knob2 Knob4

B058 Little Angels Off P004: RANDOM On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) Bell/Mallet/Perc P000: UP Off Lock JS(-Y) & Ribbon F/A Attack (CC#73) Knob Mod.4 (CC#21)

B059 Moss of the Tyne Off U150: Bossa Nova On Octave Down Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) Keyboard P000: UP Off Lock JS(-Y) & Ribbon Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B060 Violins & Reeds Off P002: ALTERNATE1 On Mod.SW1 (CC#80) F/A Attack (CC#73) Knob Mod.3 (CC#20) Orchestral U028: String Melody On Lock Ribbon F/A Decay (CC#75) Knob Mod.4 (CC#21)

B061 SynMoss 01 Off U155: Drum'n'Bass 3 On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) LeadSplits U170: Acid Drum On Lock JS(-Y) & Ribbon Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

B062 Moss Split Synth Off U169: Bigbeats 2 On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) Synth P000: UP Off Lock JS(-Y) & Ribbon F/A Attack (CC#73) Knob Mod.4 (CC#21)

B063 Superunison On U145: 8 Beat On Mod.SW1 (CC#80) Knob Mod.1 (CC#17) Knob Mod.3 (CC#20) Rhythmic Pattern U151: Latin-drums On Mod.SW2 (CC#81) Knob Mod.2 (CC#19) Knob Mod.4 (CC#21)

* Combination Bank A and B064B127 is same as the preloaded data of the TRITON.

52

# Name Category Arp.SW Arpeggio Pattern OSC1 Type OSC2 Type

F000 War Birds FastSynth Off U048: TEKNO stutter Standard OSC Standard OSC F001 Palawan MotionSynth Off U083: Echo Chords 3 Resonance OSC Organ Model F002 Whirly E.P. Keyboard Off U035: TechnoBass Riff3 Electric Piano Model Electric Piano Model F003 Death Lead LeadSynth Off U048: TEKNO stutter Standard OSC Standard OSC F004 Zoop 1 Drums On U045: Funky Tekno Bass Standard OSC VPM OSC F005 Neo Clav Keyboard Off U021: Funk Bass/Guitar Plucked String Model F006 Rich Strings Strings Off U130: Mallet Roller Comb Filter OSC Standard OSC F007 Speed Comp MotionSynth On U032: DanceBass Riff 3 Standard OSC Standard OSC F008 Phat Bass Bass/Synth Bass Off U042: Dance Bass+Comp Standard OSC Standard OSC F009 Square Hollow SlowSynth Off U039: Open Funk Bass 1 Standard OSC Standard OSC F010 Frequency Lead LeadSynth Off U124: Random Techno Standard OSC Standard OSC F011 Techno Sequence MotionSynth Off U014: BalladPicking2GT Sync OSC Standard OSC F012 Blue Guitar Guitar/Plucked Off U008: Guitar Picking Plucked String Model F013 Garage Choir Vocal/Airy Off U113: Techno Riff 2 Standard OSC Standard OSC F014 Bold Trumpet Brass Off U060: Crazy bee Brass Model F015 Forest SE Off U109: Up uP UP Up uP Reed Model F016 Sweepy Sawz FastSynth Off U134: CrazyComputer 3 Standard OSC Standard OSC F017 Night Lights MotionSynth On U048: TEKNO stutter Organ Model VPM OSC F018 Tine Piano Keyboard Off U081: Echo Chords 1 VPM OSC VPM OSC F019 Sync Comp LeadSynth Off U078: 5-tone Vel Trip Sync OSC Standard OSC F020 Dream Bell Bell/Mallet Off P001: DOWN VPM OSC Organ Model F021 SinglePerc Organ Organ Off U051: Old Dance Bass 2 Organ Model Organ Model F022 Blue Sax Woodwind/Reed Off U079: 5-tone Vel Trip Reed Model F023 Vowel Phase Mod FastSynth Off U031: DanceBass Riff 2 VPM OSC Comb Filter OSC F024 Dyna Slap Bass Bass/Synth Bass Off U055: Funk Bass Plucked String Model F025 Wave Drum Drums On U177: Percussion Plucked String Model F026 Sub Lead LeadSynth Off U124: Random Techno Standard OSC Standard OSC F027 Ocean Calm SlowSynth Off U073: 5-tone Trance 3 Organ Model Organ Model F028 Metallic Bell Bell/Mallet Off U132: CrazyComputer 1 VPM OSC VPM OSC F029 Male Ahhs Vocal/Airy Off U041: Gated Dance Bass Standard OSC Standard OSC F030 Hard Flute Woodwind/Reed Off U081: Echo Chords 1 Reed Model F031 Dimension SE Off U076: 2-tone Vel Trip VPM OSC Resonance OSC F032 Arena Monster FastSynth Off U071: 5-tone Trance 1 Standard OSC Standard OSC F033 Butterfly Pad MotionSynth On U079: 5-tone Vel Trip Sync OSC Standard OSC F034 Tremolo Synth FastSynth Off U085: Dance Comp 1 Standard OSC Standard OSC F035 Analog Lead LeadSynth Off U126: Trance Riff 2 Standard OSC Standard OSC F036 Zoop 2 Drums Off U033: TechnoBass Riff1 VPM OSC VPM OSC F037 Comb Clav Keyboard Off U071: 5-tone Trance 1 Comb Filter OSC Standard OSC F038 Dream Strings Strings Off U141: Cresc/Decresc Standard OSC Standard OSC F039 Zipperling LeadSynth Off U036: Tribal Bass VPM OSC Standard OSC F040 Dirty Old Man MotionSynth On U065: Gated Pattern 1 Standard OSC Standard OSC F041 BPF Sweep MotionSynth Off P004: RANDOM Standard OSC Standard OSC F042 Digi Morphious MotionSynth On U123: Echo Riff Standard OSC Standard OSC F043 Techno S&H Pad MotionSynth On U112: Techno Riff 1 Standard OSC Standard OSC F044 Psychedelic Gtr. Guitar/Plucked Off U012: CountryPickng2GT Plucked String Model F045 Stream Pad SlowSynth Off U140: Trickle Standard OSC Organ Model F046 Zee Solo Violin Strings Off U014: BalladPicking2GT Bowed String Model F047 Aliens Chitchat SE Off U042: Dance Bass+Comp Bowed String Model F048 Giant REZ Sweep MotionSynth Off U075: 2-tone Vel Trip Standard OSC Standard OSC F049 ** ACID Rain ** MotionSynth On U035: TechnoBass Riff3 Comb Filter OSC Standard OSC F050 Percussive Ring FastSynth Off U097: Staccato Tech Ring Modulation OSC VPM OSC F051 Light Brass Lead FastSynth Off U077: 4-tone Vel Trip Standard OSC Standard OSC F052 Bali Bells Bell/Mallet Off U130: Mallet Roller Plucked String Model F053 Digital Dulcimer Guitar/Plucked On P004: RANDOM Plucked String Model F054 Soprano Sax Woodwind/Reed Off U123: Echo Riff Reed Model F055 Moving Picture MotionSynth Off U052: Stagger Bass Standard OSC Standard OSC

Programs (MOSS.PCG) Bank F

53

# Name Category Arp.SW Arpeggio Pattern OSC1 Type OSC2 Type

F056 Touch FingerBass Bass/Synth Bass Off U050: Old Dance Bass 1 Plucked String Model F057 Rhythmic Seq MotionSynth On U042: Dance Bass+Comp Standard OSC Resonance OSC F058 mini Lead LeadSynth Off U062: Stepping Note Standard OSC Standard OSC F059 Osiris FastSynth Off U112: Techno Riff 1 Standard OSC Standard OSC F060 Reso Bell Bell/Mallet On U094: Kalimba groove Comb Filter OSC Resonance OSC F061 Portamento Pad MotionSynth Off U140: Trickle Standard OSC Standard OSC F062 Analog Brass FastSynth Off U096: Stab Rhythm Standard OSC Standard OSC F063 LFO gating MotionSynth Off U058: Syncopation Standard OSC Standard OSC F064 Full Synth FastSynth Off U073: 5-tone Trance 3 Standard OSC Standard OSC F065 Motion Comb MotionSynth Off U131: Comb & Pipe Ring Modulation OSC Comb Filter OSC F066 Direct E.P. Keyboard Off U062: Stepping Note VPM OSC Electric Piano Model F067 Morph 3003 Dist Bass/Synth Bass On U125: Trance Riff 1 Standard OSC Standard OSC F068 Zoop 3 Drums Off P004: RANDOM VPM OSC Ring Modulation OSC F069 Prophetic Pulse FastSynth Off U072: 5-tone Trance 2 Standard OSC Standard OSC F070 Huge Strings Strings Off P004: RANDOM Comb Filter OSC Standard OSC F071 Rubbery Comp FastSynth Off U066: Gated Pattern 2 Standard OSC Standard OSC F072 Dark Pop Bass Bass/Synth Bass Off U031: DanceBass Riff 2 VPM OSC VPM OSC F073 Soft Pad SlowSynth Off U130: Mallet Roller Standard OSC Standard OSC F074 Emmer's Sun Syn FastSynth Off U037: Acid Bass Riff Standard OSC Standard OSC F075 Victory Pad MotionSynth Off U111: Random Up Standard OSC Cross Modulation OSC F076 Nylon Acoustic Guitar/Plucked Off U008: Guitar Picking Plucked String Model F077 AEIOU Choir Vocal/Airy Off U078: 5-tone Vel Trip Standard OSC Organ Model F078 Bold Trombone Brass Off U091: House Organ Brass Model F079 TREXvsHELICOPTER SE Off U100: Exressive Triad Reed Model F080 Golden Synth FastSynth Off U030: DanceBass Riff 1 Standard OSC Standard OSC F081 Vision Makers MotionSynth Off U062: Stepping Note Standard OSC Sync OSC F082 Dyna Expressive Keyboard Off U025: Piano Comp 2 Electric Piano Model Electric Piano Model F083 Deep Sync Lead LeadSynth Off P000: UP Sync OSC Standard OSC F084 U.K. Synth Bell FastSynth Off U128: Quarks Standard OSC Standard OSC F085 Pipe Organ Full Organ Off U137: Step Saw Down Organ Model Organ Model F086 Dirty Sax Woodwind/Reed Off U042: Dance Bass+Comp Reed Model F087 Flute Moss SlowSynth Off P004: RANDOM Reed Model F088 Freaky Rez Bass Bass/Synth Bass Off U037: Acid Bass Riff Plucked String Model F089 Noise Virus SE On U059: Happy Dog Standard OSC Comb Filter OSC F090 Phunk Rez Lead LeadSynth Off U028: String Melody Standard OSC Standard OSC F091 Comb Flute Pad FastSynth Off U073: 5-tone Trance 3 Comb Filter OSC Standard OSC F092 Water Bell Bell/Mallet Off P004: RANDOM Resonance OSC Resonance OSC F093 'n'Bass Bass/Synth Bass Off U034: TechnoBass Riff2 Standard OSC VPM OSC F094 Cave Flute Woodwind/Reed Off U044: TB Bass Drone Reed Model F095 Cyber Zone SE Off U102: ONCE! VPM OSC Resonance OSC F096 HiPass Stuff FastSynth Off P003: ALTERNATE2 Standard OSC Standard OSC F097 Sunflower MotionSynth Off P001: DOWN Resonance OSC Comb Filter OSC F098 Brass Ensemble FastSynth Off U101: Vice Squad VPM OSC VPM OSC F099 Unison PWM LeadSynth Off P001: DOWN Standard OSC Standard OSC F100 This is Zee One! MotionSynth On U087: Flashin' Arp Resonance OSC Standard OSC F101 Analog Comb FastSynth Off U063: Trance Comp Comb Filter OSC Comb Filter OSC F102 Antique Strings Strings Off U137: Step Saw Down Standard OSC Standard OSC F103 1000 Knives LeadSynth Off U031: DanceBass Riff 2 Standard OSC Ring Modulation OSC F104 Deep Top Bass Bass/Synth Bass Off U134: CrazyComputer 3 Standard OSC Standard OSC F105 Pad Rize MotionSynth Off U141: Cresc/Decresc Comb Filter OSC Standard OSC F106 Light Res Synth FastSynth On U097: Staccato Tech Standard OSC Standard OSC F107 Resomotor MotionSynth Off P004: RANDOM Resonance OSC Comb Filter OSC F108 Dirty Strato Gtr Guitar/Plucked Off U013: BalladPicking GT Plucked String Model F109 Female Voice Vocal/Airy Off U059: Happy Dog Standard OSC Organ Model F110 Saw Horn FastSynth Off P003: ALTERNATE2 Standard OSC Standard OSC F111 Mad Scientist SE Off P000: UP VPM OSC Standard OSC

54

# Name Category Arp.SW Arpeggio Pattern OSC1 Type OSC2 Type

F112 Rezzit Oiid FastSynth Off U112: Techno Riff 1 Standard OSC Standard OSC F113 Harbinger MotionSynth Off U134: CrazyComputer 3 Resonance OSC Comb Filter OSC F114 Misty Synth FastSynth Off U091: House Organ Organ Model Organ Model F115 Soft Syn Brass FastSynth Off U126: Trance Riff 2 Standard OSC Standard OSC F116 Science Laws MotionSynth On P004: RANDOM Ring Modulation OSC Sync OSC F117 Rockin Bee! Organ Off U031: DanceBass Riff 2 Organ Model Organ Model F118 Hybrid Hardsyn FastSynth Off U129: Speed Sequence VPM OSC Standard OSC F119 Inner Space MotionSynth On U044: TB Bass Drone Standard OSC Organ Model F120 E.&Syn Bass Bass/Synth Bass Off U043: Trance Bass Riff Plucked String Model F121 Noise Burst Drums Off U164: New Disco 2 Standard OSC Standard OSC F122 Rezo Bass Bass/Synth Bass Off U038: Hip Hop Bass1 Standard OSC Standard OSC F123 Ground Synth FastSynth Off P004: RANDOM Standard OSC Standard OSC F124 Grand image Pad FastSynth Off U036: Tribal Bass Standard OSC Standard OSC F125 Big Bass Bass/Synth Bass Off U041: Gated Dance Bass Standard OSC Standard OSC F126 Laughter SE Off U125: Trance Riff 1 Reed Model F127 ANALOG INIT FastSynth Off U064: Trance Comp-Maj Standard OSC Standard OSC

This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Complies with Canadian ICES-003 Class B. Conforme au Reglement Canadian NMB-003 classe B.

THE FCC REGULATION WARNING (for U.S.A.) This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interfer- ence in a residential installation. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in ac- cordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harm- ful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: Reorient or relocate the receiving antenna. Increase the separation between the equipment and receiver. Connect the equipment into an outlet on a circuit different from that to

which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help.

Unauthorized changes or modification to this system can void the user's authority to operate this equipment.

Marque CE de conformit aux normes de scurit europennes La marque CE attache nos produits aliments par secteur indique que ces produits sont conformes la directive EMC (89/336/CEE) ainsi qu' la directive relative la marque CE (93/68/CEE). Cette marque est valable jusqu'au 31 dcembre 1996. La marque CE attache aprs le 1 janvier 1997 indique que ces produits sont conformes la directive EMC (89/336/CEE), la directive relative la marque CE (93/68/CEE) ainsi qu' la directive relative au courant de basse tension (73/23/CEE). Enfin, la marque CE attache nos produits aliments par batterie indique que ces produits sont conformes la directive EMC (89/336/CEE) ainsi qu' la directive relative la marque CE (93/68/EEC).

CE-Marke der EG-Norm Die CE-Marke auf unseren netzgespeisten Gerten deutet auf deren bereinstimmung mit den EMC- und CE-Richtilinien der EG (respektive 89/ 336/EWG und 93/68/EWG) hin. Diese Abzeichen ist bis zum 3. Dezember 1996 gltig. Die CE-Marke ab 1. Januar 1997 deutet auf bereinstimmung mit den EMC- , CE- und Niederspannungsstrom-Richtilinien der EG (respektive 89/336/ EWG, 93/68/EWG und 93/68/EWG) hin. Die CE-Marke auf unseren batteriegespeisten Gerten deutet auf deren bereinstimmung mit den EMC- und CE-Richtilinien der EG (respektive 89/ 336/EWG und 93/68/EWG) hin.

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KORG INC. 15 - 12, Shimotakaido 1 - chome, Suginami-ku, Tokyo, Japan.

1999 KORG INC. 1403 EH Printed in Japan

IMPORTANT NOTICE TO CONSUMERS This product has been manufactured according to strict specifications and voltage require- ments that are applicable in the country in which it is intended that this product should be used. If you have purchased this product via the internet, through mail order,

Manualsnet FAQs

If you want to find out how the EXB-MOSS KORG works, you can view and download the KORG EXB-MOSS Owner's Manual on the Manualsnet website.

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