Alesis Electronic Keyboard QSR 64 User Manual

ALESIS

QSR

Reference Manual

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Table of Contents

CONTENTS

1: Setting Up.....................................................................................7

Unpacking and Inspection ............................................................................................................ 7

AC Power ......................................................................................................................................... 7

Line Conditioners and Protectors................................................................................. 7

Basic Audio Hookup ...................................................................................................................... 8

About Audio Cables....................................................................................................................... 9

2: Your First Session .......................................................................11

Powering Up.................................................................................................................................... 11

Playing the Demo Sequences......................................................................................... 11

What’s a Program?.......................................................................................................................... 11

What’s a Mix? .................................................................................................................................. 12

What's a Bank?................................................................................................................................. 12

About Sound Groups ...................................................................................................... 13

Playing the QSR............................................................................................................................... 13

Program Mode and Mix Mode...................................................................................... 13

Auditioning Internal Programs..................................................................................... 14

Selecting Program Banks................................................................................................ 14

Selecting the MIDI Channel in Program Mode.......................................................... 14

Realtime Performance Functions .................................................................................. 15

Auditioning Mix Play Mode.......................................................................................... 16

Selecting Mix Banks......................................................................................................... 16

Choosing Programs in a Mix ......................................................................................... 17

Storing an Edited Mix ..................................................................................................... 18

Enabling General MIDI Mode ...................................................................................................... 18

Using the PCMCIA Expansion Card Slots................................................................................. 19

A Word About the QS CD-ROM.................................................................................................. 20

™

Sound Bridge ................................................................................................................. 20

3: Connections..................................................................................21

Basic MIDI Hookup........................................................................................................................ 21

Using an External Sequencer........................................................................................................ 22

Using a Computer........................................................................................................................... 23

IBM PCs and compatibles............................................................................................ 24

™

Macintosh ....................................................................................................................... 24

Digital Audio/Optical Hookup ................................................................................................... 25

Recording Digital Audio ................................................................................................ 25

48 KHz In.......................................................................................................................................... 26

4: Overview ......................................................................................27

Basic Architecture ........................................................................................................................... 27

QS Polyphony.................................................................................................................................. 27

Modes................................................................................................................................................ 28

Program Play Mode......................................................................................................... 28

Mix Play Mode ................................................................................................................. 28

Program Edit Mode ......................................................................................................... 28

Mix Edit Mode.................................................................................................................. 29

Effects Edit Mode............................................................................................................. 29

Global Edit Mode............................................................................................................. 29

Store Mode ........................................................................................................................ 29

Compare Mode................................................................................................................. 29

The User Interface: Display, Functions, Pages and Parameters............................................. 30

About the Display............................................................................................................ 30

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MIDI CH Buttons............................................................................................................. 32

Editing Values .................................................................................................................. 32

Parameter Editing Overview......................................................................................... 32

Comparing Edited and Stored Versions..................................................................................... 33

Preset Memory and User Memory .............................................................................................. 33

Storing............................................................................................................................................... 34

Store a Program or Mix................................................................................................... 34

To Audition Programs Before Storing ......................................................................... 35

Copying Sounds Between Programs............................................................................ 37

Copying Effects Between Programs ............................................................................. 37

Initializing the Program/Mix Buffers......................................................................................... 38

Initializing Sounds........................................................................................................... 38

5: Editing Mixes...............................................................................39

What is a Mix? ................................................................................................................................. 39

Program Assign for each MIDI Channel .................................................................................... 39

Mix Edit Mode................................................................................................................................. 39

Understanding the Edit Buffers ................................................................................................... 40

Level Setting for Each Program.................................................................................................... 41

Pitch................................................................................................................................................... 42

Effect.................................................................................................................................................. 42

Keyboard/MIDI.............................................................................................................................. 42

Controllers........................................................................................................................................ 43

Transmitting MIDI Volume and Panning................................................................... 43

Setting the Range and MIDI Switches......................................................................................... 44

Naming a Mix.................................................................................................................................. 44

Polyphony in Mix Play Mode....................................................................................................... 45

Playing a Group of Channels in a Mix........................................................................................ 45

6: Editing Programs........................................................................47

Overview .......................................................................................................................................... 47

The “Normalized” Synth Voice.................................................................................................... 47

How the QSR Generates Sound ................................................................................................... 48

Program Sound Layers .................................................................................................................. 48

QSR Signal Flow.............................................................................................................................. 49

The Four Sounds of a Program...................................................................................... 49

Voice................................................................................................................................... 50

Lowpass Filter .................................................................................................................. 50

Amp.................................................................................................................................... 51

About Modulation .......................................................................................................................... 51

LFO (Low Frequency Oscillator)................................................................................... 52

Envelopes .......................................................................................................................... 52

About Signal Processing................................................................................................................ 52

Drum Mode...................................................................................................................................... 53

Program Edit Functions................................................................................................................. 54

Voice................................................................................................................................... 54

Level ................................................................................................................................... 57

Pitch.................................................................................................................................... 58

Filter.................................................................................................................................... 60

Amp/Range...................................................................................................................... 62

Pitch Envelope.................................................................................................................. 65

Filter Envelope.................................................................................................................. 68

Amp Envelope.................................................................................................................. 70

Name .................................................................................................................................. 72

Mod 1 - Mod 6 .................................................................................................................. 73

Pitch LFO........................................................................................................................... 76

Filter LFO........................................................................................................................... 78

Amp LFO........................................................................................................................... 79

Tracking Generator.......................................................................................................... 80

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Programming Drum Sounds ........................................................................................................ 82

Voice................................................................................................................................... 82

Level ................................................................................................................................... 83

Pitch.................................................................................................................................... 83

Filter.................................................................................................................................... 83

Amp/Range...................................................................................................................... 84

Amp Envelope.................................................................................................................. 84

Copying Sounds.............................................................................................................................. 85

Copying Effects ............................................................................................................................... 85

7: Editing Effects .............................................................................87

About Signal Processing................................................................................................................ 87

Selecting an Effects Patch in Mix Mode...................................................................................... 88

Setting Effects Send Levels............................................................................................................ 88

Clip .................................................................................................................................................... 89

Editing Effects.................................................................................................................................. 89

Navigating......................................................................................................................... 89

Storing Effect Patches In Program Mode.................................................................................... 90

Storing Effect Patches in Mix Mode ............................................................................................ 90

Copying Effect Patches .................................................................................................................. 90

Configurations................................................................................................................................. 91

EQ....................................................................................................................................................... 98

Mod.................................................................................................................................................... 98

Lezlie ................................................................................................................................................. 100

Mod.................................................................................................................................................... 101

Delay.................................................................................................................................................. 105

Reverb ............................................................................................................................................... 106

Overdrive.......................................................................................................................................... 110

Mix..................................................................................................................................................... 111

8: Global Settings............................................................................113

Editing Global Parameters ............................................................................................................ 113

Master Pitch ..................................................................................................................................... 113

Master Tune ..................................................................................................................................... 113

General MIDI................................................................................................................................... 113

Enabling General MIDI Mode via MIDI...................................................................... 114

Controllers A – D Assignment ..................................................................................................... 114

Pedals 1 and 2 Assignment ........................................................................................................... 114

Using a Pedal to Control Volume or Modulation...................................................... 114

MIDI Program Select...................................................................................................................... 115

Receiving/Transmitting Bank Change Messages...................................................... 115

Input/Output Mode....................................................................................................................... 116

MIDI Out .......................................................................................................................................... 117

MIDI Group Channel ..................................................................................................................... 117

Clock.................................................................................................................................................. 118

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9: MIDI Transfer And Storage Operations....................................119

Using PCMCIA Expansion Cards................................................................................................ 119

Saving the User Bank to a PCMCIA Card.................................................................................. 119

Loading a Bank from an External Card...................................................................................... 120

Storing an Individual Program or Mix ....................................................................................... 120

Loading an Individual Program or Mix ..................................................................................... 121

Card Storage RAMifications .......................................................................................... 121

Saving Programs via MIDI Sys Ex............................................................................................... 122

Appendix A: Trouble-Shooting ......................................................125

Trouble-Shooting Index................................................................................................................. 125

Re-initializing................................................................................................................................... 125

Checking Software Version........................................................................................................... 126

Maintenance/Service ..................................................................................................................... 126

Cleaning............................................................................................................................. 126

Obtaining Repair Service................................................................................................ 126

Appendix B: MIDI Supplement.......................................................129

MIDI Basics ...................................................................................................................................... 129

MIDI Hardware............................................................................................................................... 129

MIDI Message Basics...................................................................................................................... 130

Channel Messages: Mode Messages............................................................................. 130

Channel Messages: Voice Messages............................................................................. 130

System Common Messages............................................................................................ 132

General MIDI................................................................................................................................... 132

Appendix C: MIDI IMPLEMENTATION CHART .............................134

Appendix D: Parameters Index......................................................135

Program Edit Parameters .............................................................................................................. 135

Mix Edit Parameters....................................................................................................................... 137

INDEX................................................................................................138

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Setting Up: Chapter 1

CHAPTER 1

SETTING UP

NPACKING AND NSPECTION

Your QSR synthesizer module was packed carefully at the factory. The shipping

carton was designed to protect the unit during shipping. Please retain this container

in the highly unlikely event that you need to return the QSR for servicing.

The shipping carton should contain the following items:

•

QSR with the same serial number as shown on shipping carton

AC Power Supply

Computer CD-ROM containing software

This instruction manual, plus lists of Mixes and Programs, and Quick Start guide

Alesis warranty card

It is important to register your purchase; if you have not already filled out your warranty

card and mailed it back to Alesis, please take the time to do so now.

✪

OWER OOKUP

AC P

The QSR works with the voltage of the country it is shipped to (either 110 or 220V, 50

or 60 Hz), and comes with a line cord or power supply suitable for the destination to

which the keyboard is shipped. With the QSR off, plug the small end of the power

adapter cordinto the QSR’s [POWER] socket and the male (plug) end into a source of

AC power. It’s good practice to not turn the QSR on until all other cables are hooked

up.

Alesis cannot be responsible for problems caused by using the QSR or any associated

equipment with improper AC wiring.

✪

LINE CONDITIONERS AND PROTECTORS

Although the QSR is designed to tolerate typical voltage variations, in today’s world

the voltage coming from the AC line may contain spikes or transients that can

possibly stress your gear and, over time, cause a failure. There are three main ways

to protect against this, listed in ascending order of cost and complexity:

•

Line spike/surge protectors. Relatively inexpensive, these are designed to

protect against strong surges and spikes, acting somewhat like fuses in that they

need to be replaced if they’ve been hit by an extremely strong spike.

•

Line filters. These generally combine spike/surge protection with filters that

remove some line noise (dimmer hash, transients from other appliances, etc.).

Uninterruptible power supply (UPS). This is the most sophisticated option. A

UPS provides power even if the AC power line fails completely. Intended for

computer applications, a UPS allows you to complete an orderly shutdown of a

computer system in the event of a power outage, and the isolation it provides

from the power line minimizes all forms of interference—spikes, noise, etc.

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Setting Up: Chapter 1

ASIC UDIO OOKUP

B A

When connecting audio cables and/or turning power on and off, make sure that all devices in

your system are turned off and the volume controls are turned down.

✪

Because the QSR includes extensive signal processing as well as a full complement of

sounds, you can make great sounds with nothing more than an amplifier or a set of

headphones. The QSR has two Main outputs, two Aux outputs, plus a stereo

headphones output. These can provide an amplification system or mixer with several

hookup options:

•

Mono. Connect a mono cord from either MAIN output jack to a mono

amplification system or individual mixer input.

Stereo. Connect two mono cords from the [L] and [R] MAIN output jacks to a

stereo amplification system or two mixer inputs.

Dual Stereo/Four Individual Outs. Connect two mono cords from the [L] and

[R] MAIN output jacks and two mono cords from the [L] and [R] AUX output

jacks to a dual stereo amplification system, or four mixer inputs.

•

Stereo Headphones. Plug a set of high-quality stereo headphones into the

headphones [PHONES] jack on the front panel.

MIDI Keyboard

Computer

Serial Cable

MIDI Cable

SERIAL PORT

POWER

9 VAC~

THRU

OUT

MIDI

48 KHZ IN

DIGITAL OUT

AUX

MAIN

Insert into

PHONES

connector on

front panel

Power Supply

1/4" Audio Cables

AC Receptacle

Stereo Headphones

Stereo Amp

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Setting Up: Chapter 1

BOUT UDIO ABLES

The connections between the QSR and your studio are your music’s lifeline, so use

only high quality cables. These should be low-capacitance shielded cables with a

stranded (not solid) internal conductor and a low-resistance shield. Although quality

cables cost more, they do make a difference. Route cables to the QSR correctly by

observing the following precautions:

•

Do not bundle audio cables with AC power cords.

Avoid running audio cables near sources of electromagnetic interference such as

transformers (such as the QSR’s Power Supply), monitors, computers, etc.

•

Do not place cables where they can be stepped on. Stepping on a cable may not

cause immediate damage, but it can compress the insulation between the center

conductor and shield (degrading performance) or reduce the cable’s reliability.

•

Avoid twisting the cable or having it make sharp, right angle turns.

Never unplug a cable by pulling on the wire itself. Always unplug by firmly

grasping the body of the plug and pulling directly outward.

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Your First Session: Chapter 2

CHAPTER 2

YOUR FIRST

SESSION

POWERING UP

After making your connections, turn on the system’s power using this procedure:

➀ Before turning on the QSR’s power, check the following items:

•

Have all connections been made correctly?

Are the volume controls of the amplifier or mixer turned down?

Is the volume of the QSR turned down?

➁ Turn on the [POWER] switch on the QSR front panel.

Upon power-up, the QSR will display the last selected Program or Mix. If this

Program/Mix has been edited, the display will indicate this by showing an “ ” to the left

of the name of the Program or Mix.

➂ Press [PROG] to select Program Play Mode.

The display should look something like this:

➃ Raise the QSR’s master [VOLUME] knob to maximum.

The best signal-to-noise ratio is achieved when [VOLUME] is set to maximum.

➄ Turn on the power of the amplifier/mixer, and adjust the volume.

PLAYING THE DEMO SEQUENCES

The QSR has built-in demo sequences which demonstrate the wide variety of sounds

this amazing instrument is capable of generating. To get the full effect, connect both

the [LEFT] and [RIGHT] outputs to your sound system, or listen on headphones.

To play the demo sequence:

➀ Hold the [MIX] button, and press BANK SELECT [UP].

The display will read: Play Autodemo 1 <STORE>

➁ Turn the [VALUE] knob to select one of the built-in demo songs.

➂ Press [STORE] to start the demo.

➃ Press [MIX] to stop the demo.

There will be no MIDI out messages during the demo.

WHAT’S A PROGRAM?

A Program is a stored configuration of parameters which emulates the sound of an

instrument or sound effect, such as a piano or synthesizer or drum set. A QSR

Program is made up of hundreds of parameters which, when set to specific values,

create a specific type of sound. This setup of parameters can be stored so that you can

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Your First Session: Chapter 2

get back to it instantly at the touch of a button. When you select a Program, all of its

parameter settings are recalled to recreate the original sound.

The QSR provides 640 internal Programs, divided into 5 Banks of 128 Programs each.

More Programs can be added by inserting a Sound Card into the Sound Card slot on

the front panel of the QSR. Each Bank is broken down into 12 Sound Groups of 10

Programs each, plus a 13th Sound Group with 8 Programs. These group together

similar sounding Programs, such as pianos, guitars, bass and drums.

A Program may have from 1 to 4 different sounds which can be combined in a

variety of ways to create the overall sound of the instrument the Program is intended

to emulate. These four sounds can be layered on top of one another, or split up into

different sections of the keyboard. You can even have different sounds played

depending on how hard you play the keyboard (this is known as velocity).

WHAT’S A MIX?

A Mix is a combination of 1 to 16 Programs. These Programs can be combined in

many ways. The most common is multi-timbral when connected to a MIDI sequencer,

which means that for each MIDI channel the QSR receives (up to 16), a different

Program may be selected, thus creating anything from a small pop/rock ensemble to

a complete orchestra. Another way of using a Mix is by layering two or more

Programs together, so that they play simultaneously from your MIDI controller. You

can also create a split, where one Program is in the lower half of your keyboard,

while another is at the top half; and these programs can even overlap in the middle.

WHAT'S A BANK?

A Bank is a collection of 128 Programs and 100 Mixes. There are five internal banks

available at any time, with more if a card is in the Sound Card slot. The current bank

is shown on the top line of the display, and will cycle in the following order:

USER

PRESET1

PRESET3

CARD A-1

PRESET2

CARD A-2, etc.

GenMIDI

…and optionally …

Each bank contains its own unique Programs and Mixes. Program 10 in Preset Bank

1 is different from Program 10 in Preset Bank 3, although they can be (and are

usually) related sounds. A Mix may contain Programs from any bank.

The BANK SELECT [UP] and [DOWN] buttons change the current bank from the

front panel, and MIDI Bank Select commands may also be used to select any of the

640 Programs on board, or additional card programs.

Preset and General MIDI banks are permanently “burned in” at the factory. User

banks, and Card banks from an SRAM card, may be changed by the user. If you edit

a Preset Program or Mix, it can be saved to a User or SRAM card bank only.

ABOUT SOUND GROUPS

Preset Banks 1-3 and the User bank are organized into 13 Groups of 10 Sounds each

(Programs 00-09 are pianos, 50-59 are basses, and so on). The GenMIDI bank,

however, does not follow this arrangement; it follows the Program list of the General

MIDI standard. Programs on some sound cards may not follow that arrangement

either, depending on the card type.

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Your First Session: Chapter 2

PLAYING THE QSR

The QSR is shipped from the factory with 5 Banks of 128 Preset Programs (sounds)

each. Additionally, there are 100 Mixes in each of the 5 Banks.

PROGRAM MODE AND MIX MODE

The QSR is always in one of two modes: Program Mode or Mix Mode. When you are

auditioning Programs, you will be in Program Play Mode. When you are auditioning

Mixes, you will be in Mix Play Mode.

If you ever get lost, press either [PROG] or [MIX] to get back to their respective Play Mode.

✪

•

Press the [PROG] button to select Program Play Mode.

In Program Play Mode, the QSR plays a single Program. The display looks like this:

Program Number

Bank Name

Program Name

MIDI Input Indicator

Play Mode

MIDI Channel

The current mode (PROG) is displayed in the bottom-left corner. The current

Program number (00) is directly above. To its right can be found the Program’s name

(TrueStereo) and the currently selected Bank name (PRESET1). The current

MIDI channel appears below the Bank name.

•

Press the [MIX] button to select Mix Play Mode.

In Mix Play Mode, the QSR can combine up to 16 Programs for stacking sounds

together, splitting the keyboard into different regions, or working with a MIDI sequencer.

The display will look something like this:

Mix Number

Mix Name

Active MIDI Channels

The current mode (MIX) is displayed in the bottom-left corner. The current Mix

number (01) is directly above. To its right can be found the Mix’s name

(Grandesign) and the currently selected Bank name (PRESET1). The Active

MIDI Channels (1, 2 and 3) are shown at the bottom. In a Mix that uses all 16 MIDI

channels (such as the Mixes found in the General MIDI Bank), the display would

light up all 16 MIDI channel indicators.

AUDITIONING INTERNAL PROGRAMS

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Your First Session: Chapter 2

➀ Press the [PROG] button to select Program Play Mode.

The [PROG] button and the PROG indicator in the display will light. You can now play

the QSR from an external MIDI keyboard; the Program will be whatever was selected

when last in Program mode (Program number 00 –127).

➁ Select a Program using the [VALUE] knob.

The large number in the upper-left section of the display will indicate the currently

selected Program number. When you scroll past 127, the counter will “roll-over” to

Program 00 of the following Bank. Likewise, if you scroll back before 00, it will roll back

to Program 127 of the preceeding Bank.

SELECTING PROGRAM BANKS

The QSR provides five internal Banks containing 128 Programs in each (and 100

Mixes each, but we’ll get to Mixes in a moment). The currently selected Bank will be

shown in the upper line of the display, just above the currently selected Program’s

name.

•

Use the BANK SELECT [DOWN] and [UP] buttons to select a Bank (User, Preset 1

– 3, GenMIDI or any Card Banks, if present).

User and Preset Banks are described in detail in Chapter 4.

SELECTING THE MIDI CHANNEL IN PROGRAM MODE

While in Program Play Mode (press [PROG]), the QSR can receive information on

any single MIDI channel of the 16 available channels. The currently selected channel

appears in the bottom-right section of the display (take a look at the first display

example on the previous page).

➀ Use the [

MIDI CH

] buttons to select a MIDI channel from 1 – 16.

The display will change to indicate the currently selected MIDI channel.

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Your First Session: Chapter 2

REALTIME PERFORMANCE FUNCTIONS

The QSR provides various ways to control the sound as you are playing. Try out

some of these functions while playing your MIDI keyboard. The sound of the effects

can also change by using these controllers. The effect of these realtime controllers

varies from Program to Program; in some they may not be active, and in others they

may have a dramatic effect.

•

Velocity. The volume and tonal quality of the sound will change according to

how hard you play the keyboard.

•

Aftertouch. The action of pressing a key down after playing it is called

“aftertouch” (it is also sometimes referred to as “Pressure” since it corresponds

to the amount of pressure being applied to the keyboard). Pitch, tone and volume

(among other things) can be changed using aftertouch.

•

Pitch Bend Wheel. While playing a note, you can move the PITCH BEND

WHEEL of your keyboard up to raise the pitch, or down to lower the pitch. The

amount of pitch bend available can be different for each Program.

Modulation Wheel. By raising the MODULATION WHEEL of your keyboard,

you can add expressive modulation effects (such as vibrato or tremolo) while

you play. The type of modulation effect can be different for each Program.

Controllers A–D. The QSR provides four global controllers, called Controllers A

through D, which allow control over various parameters of a Program. These

Controllers are defined in Global Edit Mode (Pages 4 through 7) to respond to

specific MIDI controller messages. Many of the QSR’s internal Programs use

Controllers A–D to provide control over their tonal aspects. When auditioning

Programs, move the CONTROLLER [A]–[D] sliders up and down to find out

what effect each has; they will be different from Program to Program.

Further expressive control is available with a pedal switch or expression pedal. By

using a sustain pedal connected to your master MIDI keyboard, you can have the

sound sustain even after you release the keys. By connecting an expression pedal to

your master MIDI keyboard,, you can use the pedal to change the volume or tone (or

some other quality such as reverb depth or vibrato speed) of the sound, if the

Program is edited to use the pedal(s).

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Your First Session: Chapter 2

AUDITIONING MIX PLAY MODE

Mix Play Mode allows you to assign a Program to each of the 16 MIDI channels. This

makes it easy to create multitimbral setups for use with an external MIDI sequencer.

Additionally, a MIX can be used to “layer” sounds together, or “split” your keyboard

in a number of ways, or any combination of these. There are many different ways to

program a Mix. For more about Mix Play Mode, refer to Chapter 5. For more about

connecting the QSR to a MIDI sequencer, see Chapter 3.

➀ Press the [MIX] button.

The [MIX] button and the MIX indicator in the display will light. The Mix will be

whatever was selected when last in Mix mode (Mix number 00 – 99).

➁ Select a Mix using the [VALUE] knob.

The large number in the upper-left section of the display will indicate the currently

selected Mix number. When you scroll past 99, the counter will “roll-over” to Mix 00 of

the following Bank. Likewise, if you scroll back before 00, it will roll back to Mix 99 of the

preceeding Bank.

SELECTING MIX BANKS

The QSR provides five internal Banks containing 100 Mixes in each. The currently

selected Bank will be shown in the display just below the name of the currently

selected Mix’s name.

•

Use the BANK SELECT [DOWN] and [UP] buttons to select a Bank (User, Preset 1

– 3, GenMIDI or any Card Banks, if present).

User and Preset Banks are described in detail in Chapter 4.

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Your First Session: Chapter 2

CHOOSING PROGRAMS IN A MIX

In this section, we will choose Programs for the 16 channels in a Mix, for playing

back tracks from a MIDI sequencer. There are many other aspects of a Mix we may

wish to edit, however. Refer to Chapter 5 for more information about Mix editing.

You do not have to access Mix Edit Mode to select Programs for a Mix (i.e. you don’t

have to press the [EDIT SELECT] button). Instead, you simply use a two step process:

A) Use the [

MIDI

] buttons to select one of the 16 channels in the Mix.

B ) Use the [VALUE] knob to choose a Program for the selected channel.

Here’s the process broken down into simpler steps:

➀ Press [MIX] and select Mix 01 from the Preset 1 Bank using the method

described on page 16.

➁ Press [

MIDI

The display will look like this:

Mix Number

Program Bank Name

Program Name and Number

Play Mode

Active MIDI Channels

Selected MIDI Channel (flashing)

The [

MIDI

] buttons are used to select one of the 16 channels in the Mix.

The actual channel number will be whatever channel was last selected. In the illustration

above, channel 1 is shown flashing. If the channel 1 number in your display is not

flashing, Use the [

MIDI

] buttons to select channel 1.

➂ Use the BANK SELECT [UP] and [DOWN] buttons to select a Program Bank.

➃ Use the [VALUE] knob to select a Program.

➄ Press [MIDI

] to select to the next channel up.

If channel 1 had been selected, pressing [MIDI

number will flash in the display.

] will select channel 2. The channel 2

➅ Repeat steps ➂ – ➄ as needed to select Programs for the remaining channels.

Changes you make to a Mix are temporary and will be lost if another Mix is selected. To make

changes permanent, you must store the Mix into the User bank (see next page).

✪

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Your First Session: Chapter 2

STORING AN EDITED MIX

Once you have made changes to a Mix, you will need to store the Mix into the User

Bank; that is, if you want to keep the changes you have made. The User Bank is

designed to hold up to 100 (00 – 99) of your custom-made Mixes. Whenever you store

an edited Mix, the User Bank is automatically selected. All you have to do is select a

Program location (00 – 127) within the User Bank to store the edited Mix into.

However, if an SRAM Sound Card is inserted into the Sound Card Slot on the rear

panel of the QSR, you may select any of the available Banks on the Sound Card to

save the edited Mix into.

➀ Press [STORE].

This selects Store Mode. The [STORE] button will flash, and the display will look like

this:

Save Mix to

USER

↑

(Mix Bank) (Mix Number)

The Mix Number will be identical to the last Mix number selected.

➁ Optional: If a Sound Card is inserted, Use the BANK SELECT [UP] button to select

a Bank on the Sound Card.

➂ Use the [VALUE] knob to select a Mix location (00 – 99) within the selected Bank.

➃ Press [STORE] to save the Mix into the selected location.

The Mix has now been stored, and the display will revert back to whatever was shown

before [STORE] was pressed the first time.

NOTE: Pressing [MIX] before pressing [STORE] the second time (step ➃ ) will cause

the QSR to exit Store mode without saving changes to the edited Mix.

ENABLING GENERAL MIDI MODE

If you are using a General MIDI sequencer, and/or playing a sequence that is

programmed to take advantage of General MIDI, turn the “General MIDI” function

in the QSR on.

➀ Press [EDIT], then press BANK SELECT [UP] (also labeled as [GLOBAL]).

The display will now be in Global Edit Mode.

➁ Turn the [VALUE] knob to select page 3 (the page number appears in the upper-

right corner of the display).

➂ Press the [CURSOR

] button.

This selects the General MIDI parameter in the display.

➃ Turn the [VALUE] knob clockwise.

This turns on General MIDI mode, and automatically puts you into Mix Play Mode with

Mix 00 of Preset Bank 4 selected.

For more information about General MIDI, refer to the MIDI Supplement in

Appendix B.

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Your First Session: Chapter 2

USING THE PCMCIA EXPANSION CARD SLOTS

Your QSR is an expandable system using the two PCMCIA EXPANSION CARD slots

on the front panel. There are three different kinds of Sound Cards available through

your Alesis dealer or directly from Alesis:

•

SRAM cards: The Alesis Virtual Composer card provides an additional four

banks of Program/Mix memory. All banks can be stored to by the user, and it

comes with additional Programs and Mixes pre-stored.

•

QCards: These read-only memory cards provide actual samples, plus the

Programs and Mixes that use them in a single card bank. Available QCards

include a Stereo Grand Piano card, a Sanctuary card that includes high-quality

voice, bell, and organ sounds, a World/Ethnic card, Rap/Techno/Dance cards,

Vintage Keyboards, and many more.

•

Flash RAM cards: If you want to burn your own custom sample cards, Flash

RAM cards are available in 2 MB, 4 MB, and 8MB sizes. Alesis Sound Bridge

software (see next section) will translate from Sample Cell, AIFF, WAV and other

formats to Alesis QSR Composite Synthesis format, and then you can write your

own custom Programs and Mixes that use these samples.

To use a sound card with the QSR:

➀ Hold the card with the front label facing up and insert the exposed contact end

gently into either of the QSR’s PCMCIA EXPANSION CARD slots, [A] or [B].

➁ Push the card in until you the slot’s eject button extends outward, and the card

will not go any further.

➂ To remove the card, press the eject button adjacent to the card slot and gently

slide the card out of the slot.

The QSR’s two PCMCIA EXPANSION CARD slots can accommodate any combination

of these three card types. You can combine QCards and Flash RAM cards that store

up to 8 MB of samples each, giving you a total of 16 Mb of sound ROM expansion

and effectively doubling the internal 16 MB of sound ROM for a total of 32MB!!

When storing Mix and Program Banks to external cards, the maximum number of

accessible card banks is 11. This is because the QSR’s grand total of banks possible is

16, and 5 of them are already built into the QSR. The 11 card banks can be split

among the two PCMCIA EXPANSION CARD slots. Under normal situations, this will

not be a limitation (remember, each bank has 128 Programs and 100 Mixes; 11 banks

gives you 1408 additional Programs and 1100 additional Mixes).

In other words, if you have two SRAM cards (256k each, capable of storing up to 4

banks), you will have 4 banks available on each card for a total of 8 banks; well below

the maximum. However, since it is possible to purchase third-party 512k PCMCIA

cards and burn these yourself using Sound Bridge software, it is possible to

physically insert two 8 bank cards which combine for a total of 16 banks. In this

situation, only the first 11 banks will be accessible beginning with slot [A]; i.e. you’ll

be able to access all 8 banks from the card in slot [A] and the first 3 banks from the

card in slot [B].

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Your First Session: Chapter 2

If an internal Program uses one or more Sounds that reside on a sound card, the sound card

must be inserted into the same PCMCIA EXPANSION CARD slot, [A] or [B], as when the

Program was stored. In other words, if a Program uses a Sound found on the card currently

inserted in slot [A], then the same card must be inserted into slot [A] for that sound to be

used when this Program is recalled. Although the card can physically be used in either slot,

once a Program is stored using a Sound on a card it expects to find that card in the identical

slot it was in when the Program was stored. The same is true when a Program residing on the

card in slot [A] uses a Sound stored on card [B], or vice-versa.

✪

If an internal Mix uses one or more Programs that reside on a sound card, the sound card

must be inserted into the same PCMCIA EXPANSION CARD slot, [A] or [B], as when the

Mix was stored. The same is true when a Mix residing on the card in slot [A]uses a Program

stored on card [B], or vice-versa.

A WORD ABOUT THE QSR CD-ROM

Included with the QSR is a CD-ROM containing various useful software programs to

use with your QSR. These include various Alesis and third-party programs, QSR

sounds and samples, sequences stored in the MIDI Song File (SMF) format, plus

demonstration software we thought you would find interesting. Most of these

™

programs are provided in both Macintosh and IBM PC formats.

SOUND BRIDGE™

Among the files contained on the CD-ROM is a software program called Sound

Bridge™. Sound Bridge is a sound development utility which compiles custom

samples from a variety of sources into the QS Synthesis Voice format, and downloads

the compiled data to an Alesis PCMCIA Flash RAM Sound Card via MIDI Sysex to a

QSR, QS8, QS7 or QS6. Sound Bridge allows individuals and sound developers to

make their own Sound Cards, using whatever samples they want. Sound Bridge

makes this possible without having a PCMCIA card burner attached to your

computer. All you need is at least one QS-series synth (such as the QSR, QS7 or QS8).

Sound Bridge creates a QS Voice (multi-sample) by loading Digidesign Sample Cell I

or Sample Cell™ II format Instrument files. Using this format, Sound Bridge is able

to determine key group and velocity group split points, root notes, sample playback

rates, tunings, start points, loop points, and loop tunings. Sound Bridge can also

create QS Voices without Sample Cell Instruments by loading single AIFF, Sound

Designer™ and Sound Designer II files, MacOS™ System Sounds and PC WAV files.

Sound Bridge does NOT require Sample Cell hardware. The Sample Cell Instrument

file, or sample file, may be loaded directly into Sound Bridge from any disk (i.e. CD-

ROM, floppy disk, hard disk, etc.). For example, a user may load data from a Sample

Cell CD-ROM, and send this data to the QuadraSynth PCMCIA Card, without ever

using Sample Cell!

The Sound Bridge folder on the CD-ROM contains the Sound Bridge application, and

an electronic manual which will give you all the information you need to know to

run Sound Bridge.

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Connections: Chapter 3

CHAPTER 3

CONNECTIONS

B_ASICMIDI H_OOKUP

MIDI is an internationally-accepted protocol that allows musical-related data to be

conveyed from one device to another. See the MIDI Supplement in Appendix B if

you are not familiar with how MIDI works.

The QSR has three MIDI connectors which provide the following functions:

•

MIDI IN

This port is for receiving MIDI information (notes, program

changes, etc.) from a source such as another QSR or MIDI

keyboard, controller, or computer.

•

MIDI OUT

This port is for transmitting MIDI SYSEX information to another

MIDI keyboard, sound module, or computer.

MIDI THRU

This port is for passing on (echoing) MIDI information received

by the MIDI IN port. In simple MIDI setups, the THRU port is

used to connect additional devices that will all be “listening” to

the same source.

To play the QSR from a MIDI control device (keyboard, drum pad, guitar or bass

controller, sequencer, etc.), connect the control device’s MIDI OUT to the QSR’s

[MIDI IN]. The illustration below depicts a master QS8 connected to a slave QSR.

When both are set to a common MIDI channel (see page 14), you can hear both when

playing the master keyboard.

MIDI Out

MIDI In

If you are using the QSR in the middle of the MIDI chain (example: as the second

unit of a three device chain), connect the QSR’s [MIDI THRU] to the third device’s

MIDI IN connector in order to route the first device’s MIDI out information to the

third device.

MIDI Out

MIDI In

MIDI Thru

MIDI In

The QSR’s [MIDI OUT] connector sends System Exclusive data (see the MIDI

supplement) to a storage device for later recall, or to another QSR. When the [MIDI

OUT] connector’s mode is switched to “Thru” (Global Edit mode, page 12), it can

function as a second [MIDI THRU] connector and resend MIDI data received on the

[MIDI IN] from the controller to other MIDI devices.

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Chapter 3: Connections

U_{SING AN XTERNAL EQUENCER}

The MIDI keyboard or controller (such as the QS7 or QS8) can generate MIDI signals

that are recorded by a sequencer. On playback, the sequencer sends this data to the

QSR, which then serves as a multitimbral sound module (in Mix Mode). The

sequencer can generate data over several channels; in Mix Mode, the QSR can be

programmed so that individual Programs play sequenced data on specific channels.

Example: If the sequencer transmits a piano part over channel 1, a bass part over

channel 2, and a drum part over channel 10, you could set up a QSR Mix so that a

piano sound plays only the MIDI data assigned to channel 1, a bass sound plays only

the MIDI data assigned to channel 2, and drums play only the MIDI data assigned to

channel 10. The QSR can store up to 100 User Mixes.

Connect your master keyboard’s MIDI Out to the sequencer’s MIDI In (if using a

computer-based sequencer, connect to the computer’s MIDI interface’s MIDI In).

Connect the sequencer’s MIDI Out to your keyboard’s MIDI In. Finally, connect your

keyboard’s MIDI Thru to the QSR’s [MIDI IN] (the Thru signal carries a replica of

what appears at the keyboard’s MIDI In, which is the same as the sequencer’s MIDI

Out). Note that the I/O parameter (Global, page 11) must be set to MIDI.

MIDI Out

MIDI In

MIDIThru

MIDI In

MIDI Out

MIDI In

If you are driving other MIDI gear (such as an expander module or MIDI-responsive

signal processor), you’ll usually drive these from the sequencer if it has additional

MIDI outputs. However, you can also use the QSR’s [MIDI THRU] connector to drive

other modules since the Thru carries a replica of what appears at the QSR’s [MIDI

IN], which is the same as the sequencer’s MIDI OUT.

Note: For most sequencer applications, the QSR’s “Mix Group Channel” parameter

(on page 13 in Global Edit mode) should be set to OFF. See page 112 for more

information.

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Connections: Chapter 3

U_{SING A OMPUTER}

The QSR can communicate directly with a computer via its [SERIAL PORT]

connector. This eliminates the need for an additional computer-MIDI interface, as

well as the MIDI cables to connect to it. The [SERIAL PORT] can be set to one of three

modes, depending on the computer you are using. The mode is selected from Global

Edit mode, page 11 (I/O Mode).

Serial Port

Serial Port(s)

Serial Port

To set to QSR’s I/O Mode:

➀ Press [EDIT], then press BANK SELECT [UP] (also labeled as [GLOBAL]).

The display will now be in Global Edit Mode.

➁ Turn the [VALUE] knob to select page 11 (the page number appears in the upper-

right corner of the display).

➂ Press the [CURSOR

] button.

This selects the I/O Mode parameter in the display.

➃ Turn the [VALUE] knob to set the I/O Mode.

Set the I/O Mode to...

MIDI

If using...

…the QSR’s MIDI Input and Output

…the QSR’s Serial Port connected to

PC 38.4Kbd

an IBM PC or compatible computer

with a 38.4 kbaud serial interface

…the QSR’s Serial Port connected to

PC31.25Kbd

MAC 1MHz

an IBM PC or compatible computer

with a 31.25 kbaud serial interface

…the QSR’s Serial Port connected to

™

a Macintosh computer with a

1 MHz serial interface

If you already have a MIDI interface for your computer, then you can use the QSR’s

MIDI connectors to connect the QSR to your computer interface’s MIDI IN and OUT

connectors using the method described in the previous section. Note: If you are

already using the QSR’s [SERIAL PORT] to connect to your computer, it is not

necessary to connect the MIDI ports to the computer as well.

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Chapter 3: Connections

IBM PCS AND COMPATIBLES

This connection will require a special cable with a DIN8 connector on one end and

either a DB9 or DB25 connector on the other end, depending on the type of connector

you are using on the PC. You can purchase this cable in most computer retailers or

through Alesis Product Support (DIN8-to-DB9 cable: part number 15-00-0009; DIN8-

to-DB25 cable: part number 15-00-0025). Some PCs will have both connectors

available, so you’ll have to identify which connector is currently not in use.

Connect the DIN8 end of the cable to the QSR’s [SERIAL PORT] connector and the

other end to the serial port of your computer. If your computer has more than one

serial port, refer to the setup of your MIDI software to determine which port it is

using.

Alesis provides a MIDI serial driver that works with Windows 3.1, Windows NT and

Windows 95. This can be found on the QSR CD-ROM disk that came with your QSR

package (located in the \ALESIS\ASDWIN\ directory). If you don’t have a CD-

ROM drive connected to your computer, you can call Alesis Product Support and

order the Windows MIDI driver on a 3-1/2 inch floppy disk. This driver is used to

send and receive MIDI data from your QSR and the computer via a serial port

connection. Once the MIDI driver has been successfully installed, you need to

indicate to the driver which connector port the QSR is using.

WINDOWS 3.1: From your Windows 3.1 Control Panel, open the “Drivers” applet.

Add an Unlisted or Updated driver and select or browse to the appropriate path for

Windows to find the “ASDWIN” OEM setup info. Follow the instructions given by

windows to install the driver.

SETUP FOR WINDOWS 95: Open Control Panels. Select “Add New Hardware”.

Select “NO” to NOT have windows auto-detect hardware. Select “Sound, Video,

Game controllers” as hardware type. When prompted for device, select “Have Disk”.

Navigate to the OEM setup in the “ASDWIN” directory. Follow the Win95

instructions from there.

Please refer to the “READ_ME” file which accompanies the Alesis MIDI driver.

™

MACINTOSH

Connect one end of a DIN-8 cable to the QSR’s [SERIAL PORT] connector and the

other end to either the MODEM serial port or the PRINTER serial port, depending on

which one you are using for sequencing.

MIDI sequencing software for the Macintosh typically defaults to using the MODEM

port, but in actuality can be set to use either the MODEM or the PRINTER port, or

both. If you have a printer connected, you will want to use the MODEM port;

conversely, if you have a modem connected but do not have a printer, you will want

to connect to the PRINTER port. If, however, both a printer and modem are

connected, you will need to either temporarily disconnect one of them (preferably the

modem; especially if the printer uses AppleTalk, since AppleTalk must be disabled to

use the PRINTER port for MIDI) or purchase a multiple serial port box that will

allow you to switch between the modem and the QSR.

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Connections: Chapter 3

D_{IGITAL UDIO PTICAL OOKUP}

A /O

The QSR can output digital audio directly into an Alesis ADAT or ADAT-compatible

multitrack digital recorder via fiber optic cable.

The digital connector follows a proprietary Alesis format that carries all four audio

outputs of the QSR (Main and Aux, Left and Right) on a single fiber optic cable.

Either pair of outputs can be converted into standard AES/EBU or S/PDIF stereo

digital audio format by using the Alesis AI-1 interface. Fiber optic cables of various

lengths are available from your Alesis dealer. However, the shorter the cable, the

better. The model OC cable is 5 meters long and is the maximum length

recommended.

To hook up the optical cable between the QSR and an ADAT or AI-1:

➀ Remove the two pieces of clear plastic, tubular sleeving (if present) that protect

the tips of the optical cable plug.

➁ Insert one cable end into the QSR [DIGITAL OUT] and the other end into the

ADAT or AI-1 DIGITAL IN.

To test the cable and QSR digital output, plug one cable end into the QSR. The other

end should emit a soft red light (it is not dangerous to look directly at this light).

RECORDING DIGITAL AUDIO

Once the fiber optic connection is made between the QSR and ADAT or an AI-1, the

QSR will output audio on the first four channels of the digital bus (the bus is capable

of handling eight channels of digital audio). The MAIN [L] and [R] outputs are routed

to channels 1 and 2, while the AUX [L] and [R] outputs are routed to channels 3 and

4. Note that the [VOLUME] knob controls the level of all analog output channels

only, and does not control digital output levels. If your digital output is overloading,

try reducing the sound level in Program Edit Mode or the Program volume in Mix

Edit Mode.

When recording to ADAT (or some other digital audio recorder), it will be slaving to

the digital clock accompanying the digital audio emanating from the QSR. This clock

can be set to either 48kHz or 44.1kHz, as determined by the Clock function (found in

Global Edit Mode). The Clock function has four settings: Int48kHz, Int44.1k,

Ext48kHzand Ext44.1k. The default setting is Int48kHz. which is suitable

when the digital recorder is using the 48kHz sample rate. However, if the recorder is

using the 44.1kHz sample rate, the Clock function should be set to Int44.1k. This

ensures that the QSR will be in tune with previously recorded material. See page 118

in Chapter 8 for more information on the Clock parameter.

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Chapter 3: Connections

48 KH_ZI_N

If your ADAT system has an Alesis BRC Remote Controller, the QSR’s digital clock

must be synchronized to the clock coming from the BRC. This requires that a

connection be made providing the clock signal to the QSR and that the QSR’s Clock

function be set to either one of its two external settings (Ext48kHzor

Ext44.1k).

Connect a BNC-to-BNC cable (such as the Alesis BN cable) between the BRC’s 48

kHz CLOCK OUT and the QSR’s [48 KHZ IN]. Set the Clock function to either

Ext48kHz if the BRC is set to 48kHz, or Ext44.1kif the BRC is set to 44.1kHz.

For more information about the Clock function, see page 118 in Chapter 8.

Tip: With this type of connection, the ADAT tracks will remain in tune with the QSR

even when the BRC’s pitch value is adjusted.

Note: When using only one or more ADATs without the BRC, it is not necessary to

connect the 48 kHz Clock.

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Overview: Chapter 4

CHAPTER 4

OVERVIEW

BASIC ARCHITECTURE

The QSR contains 16 megabytes of Sound ROM which provide digitized acoustic and

electronic samples. These samples are organized into 17 sample groups of different

types. The groups are:

Piano

String

Noise

Sound FX

Rhythm

Chromatic

Organ

Guitar

Bass

Brass

Voice

Woodwind

Synth

Wave

Ethnic

Drums

Percussion

Several functions (filter, amplitude envelope, pitch envelope, LFO, multiple

modulation sources, signal processors, etc.) can be used to process a sample. A

Sound is the combination of a sample with its associated processing.

A Program consists of up to four sounds. These sounds can be layered, split over

specific keyboard ranges, or selectively overlapped. The QSR has a User Bank of 128

Programs that you can modify, plus 4 Preset Banks of 512 Preset Programs that are

permanently installed in the QSR at the factory (although the Preset Programs can be

edited, they must be stored into the User bank to permanently retain your changes).

Each Program is linked to its own Effects Patch.

Preset Banks 1-3 and the User bank are organized into 13 Sound Groups of 10

Sounds each, and are spread out among the top-right row of buttons on the front

panel (programs 00-09 are pianos, 50-59 are basses, and so on). The GenMIDI bank,

however, does not follow this arrangement; it follows the program list of the General

MIDI standard.

A Mix consists of up to 16 Programs, each assigned to a specific MIDI channel and

one Effect Patch. The QSR has 100 Mixes in the User Bank, plus 4 Preset Banks of 400

Preset Mixes. This is extremely useful for multitimbral setups where the QSR plays

back different sounds on different MIDI channels. Because of its 64 voices and built-

in effects, the QSR is often the only sound generator needed.

QSR POLYPHONY

The QSR provides 64-voice polyphony (i.e., how many notes can play at once). If a

program uses one sound, up to 64 notes can play at once. Layering two sounds

allows for 32-note polyphony and layering four sounds, 16-note polyphony.

Layering is a powerful technique that allows you to build up complex timbres. This

is crucial because acoustic instruments have extremely complex, evolving sounds

and by comparison, many synths sound static. Being able to layer up to four sounds

allows for creating large ensembles (e.g., brass section consisting of alto & tenor sax,

trumpet, and trombone) or extremely realistic versions of single instruments. When

creating layered Programs, keep polyphony in mind. If all Programs in a Mix use all

four available sounds, the QSR will quickly run out of voices.

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Overview: Chapter 4

MODES

The QSR is always in one of two main modes: Program Play Mode or Mix Play Mode.

Pressing [PROG] selects Program Play Mode, while pressing [MIX] selects Mix Play

Mode. While in Program Play Mode, you can press [EDIT] to access Program Edit

Mode and Effects Edit Mode. While in Mix Play Mode, pressing [EDIT] alternates

between Mix Edit Mode, Program Edit Mode and Effects Edit Mode. Once [EDIT] has

been pressed (the lower-left corner of the display reads “EDIT”), pressing BANK

SELECT [DOWN] accesses Compare Mode (if the Program/Mix has been edited, and

pressing BANK SELECT [UP] accesses Global Edit Mode. Pressing [STORE] accesses

Store Mode. Here are descriptions of these modes:

PROGRAM PLAY MODE

Program Play Mode lets you play the QSR’s various Programs one at a time. The

QSR contains 512 Preset and 128 User Programs (i.e., the sounds of various

instruments, effects, ensembles, etc.) that show off just how cool this instrument

really is. Initially, the 4 Preset Banks and the User Bank contain data loaded in at the

factory. The User Programs can be edited or replaced with your own Programs.

However, you cannot replace the Preset Programs, because these are stored in ROM

(permanent memory). In Program Play Mode, the QSR responds to or generates

messages on a single MIDI channel.

MIX PLAY MODE

Mix Play Mode lets you audition the QSR’s various Mixes. The QSR contains 400

Preset Mixes and 100 User Mixes. A Mix can combine up to 16 different Programs,

controlled by 16 channels of MIDI data at once. Therefore, much thicker and richly

textured sounds can be created. In Mix Play Mode, the QSR can be used in a wide

range of applications. It can be used for live performance, where sounds are layered

or assigned to sections of the controller keyboard. It can also be used as a

multitimbral sound source for desktop music and home studio applications. A Mix

uses the Effects Patch associated with one of its Programs. Although there may be 16

Programs in a Mix, there can only be one Effects Patch per Mix. In Mix Mode, the

QSR can respond to messages on up to 16 MIDI channels simultaneously; different

channels are available depending on which Mix is selected.

PROGRAM EDIT MODE

In Program Edit Mode, you can change the various settings which determine the

sound of an individual Program, or create an entirely new Program from scratch.

Each Program is made up of four Sound layers, which you can edit individually, or

simultaneously. In Program Edit mode you can:

•

select which sample waveform from the 16 megabytes of onboard sample ROM

will be used, in each of the 4 sounds;

change the tone, level, attack and decay characteristics, modulation inputs, and

pitch of each layer;

•

set modulation routings whereby any parameter can be controlled via MIDI;

set the effect level for each Sound layer, and set which of the four effect sends

each Sound layer will use for signal processing (such as reverb, delay, and

chorus—or any combination of these).

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Overview: Chapter 4

MIX EDIT MODE

Mix Edit Mode lets you change the parameters of an existing Mix. Up to 16 Programs

can be active in each Mix, and Mix Edit mode sets up how each will be played. Mix

Edit Mode allows you to:

•

set the output level, effects level, and pan of each Program in the Mix;

select which Program’s Effects Patch will be used by the Mix.

Note that you can select which Programs will be played by the different MIDI

channels and by the keyboard in multiple layers or splits without entering Mix

mode.

EFFECTS EDIT MODE

Effects Edit Mode is used for setting up the Digital Signal Processing effects. Each

Effect Patch has 4 effect bus inputs, and an internal configuration of multiple effects

such as reverb, delay, and pitch-related effects (chorus, flange, etc.). You can

determine what kinds of effects are used on each bus (called a “Configuration”),

change each effect’s parameters (such as reverb decay time or chorus speed), set

modulation routings (such as having the modulation wheel change the decay time),

and set the effects mix (how much reverb, delay and chorus on the output of each

effect bus).

GLOBAL EDIT MODE

Use Global Edit Mode to set various parameters which effect the entire instrument,

such as overall master tuning, display contrast, MIDI controller settings, and how the

unit will respond to messages in Mix Mode.

STORE MODE

Store Mode is used for storing changes of Programs and/or Mixes into the User

Bank or onto a QCard PCMCIA memory card accessory. It is also used for

transmitting the QSR’s parameters over MIDI for data storage purposes, copying

sounds or effects from one Program to another, and for transferring entire Banks to

or from a Sound Card.

COMPARE MODE

Once a Program has been edited in Program Edit Mode, or a Mix has been edited in

Mix Edit Mode, the symbol “*” will appear in the display to the left of the

Mix’s/Program’s name while in either Mix Play Mode or Program Play Mode. If

BANK SELECT [DOWN] (also labeled [COMPARE]) is pressed while in an Edit Mode,

both the [EDIT] button and the word “EDIT” in the lower-right part of the display

will begin to flash on and off, and you will temporarily be hearing (and seeing) the

original version of the Mix/Program. If you are editing a Mix and press [COMPARE],

the original unedited Mix is temporarily recalled. Likewise, if you are editing a

Program or its Effects Patch and press [COMPARE], the original Program will be

temporarily recalled. Pressing [COMPARE] again switches back to the edited version,

and the both [EDIT] button and the word “EDIT” in the the display stop flashing.

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Overview: Chapter 4

THE USER INTERFACE: DISPLAY, FUNCTIONS,

PAGES AND PARAMETERS

The key to the QSR user interface is the combination of the Display, the [VALUE]

knob and the [

QSR’s status. The [

CURSOR

] buttons. The Display constantly informs you of the

] buttons let you select a value in the display

CURSOR

(such as a parameter, a Sound, a page, etc.), and the [VALUE] knob lets you adjust

the selection.

ABOUT THE DISPLAY

The display has two modes: Play Mode and Edit Mode. When either [MIX] or

[PROG] is pressed, their respective Play Mode is selected and the display will look

something like this:

Program Number

Bank Name

Program Name

MIDI Input Indicator

Play Mode

MIDI Channel

•

Mode. The lower-left corner of the display will indicate whether you are in

Program Play Mode (PROG) or Mix Play Mode (MIX). In the example above,

Program Play Mode is selected. If the selected Program or Mix has been edited,

the word EDIT will appear to the right of the displayed Mode. In the example

above, the Program has not been edited

•

Number. The upper-left section of the display will indicate which Program or

Mix number is currently selected (00-127 in Program Mode, 00-99 in Mix Mode).

In the example above, Program 00 is selected.

Name. The upper-right section of the display will indicate the name of the

Program or Mix which is currently selected. In the example above, TrueStereo is

selected.

Bank. The middle-right section of the display, directly below the Program’s or

Mix’s name, will indicate which Bank is currently selected (PRESET1–

PRESET3, GenMIDI, or USER; if a card is inserted, CARD1- CARD8). In the

example above, Preset 1 Bank is selected.

•

Channel (1–16). In Program Play Mode, the QSR will transmit and receive on a

single MIDI channel, which will be indicated in the lower-right section of the

display. The MIDI channel is selected by using the [

MIDI CH

] buttons.

In Mix Play Mode, the QSR can transmit and receive on up to 16 MIDI channels.

The “active” channels will be shown in the display. When a channel is played

(from messages received via MIDI), a circle will appear around the channel

number in the display. In the example above, MIDI channel 1 is selected, and

MIDI information is being received.

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When [EDIT] is pressed, the display enters Edit Mode (which Edit Mode you are in

depends on whether you were already in Program Mode or Mix Mode). When in an

Edit Mode, the display will look something like this:

SND1:VOICE

πå

Snd Enable:ON

•

Edit Mode. The bottom-left section of the display will indicate the Edit Mode

which is currently selected (MIX EDIT = Mix Edit Mode, PROG EDIT = Program

Edit Mode). The Edit Mode is selected using the [EDIT] button. In the example

above, Program Edit Mode is selected.

Function. The upper-middle section of the display indicates what you are

editing. This information will change depending on the Edit Mode you have

selected. In Mix Mode you can simply scroll through the available Functions

using the [VALUE] knob (while the underline cursor appears in the upper section

of the display). While in Program Mode, you also have the Sound (1 through 4)

to choose from, in addition to the Function you wish to edit. Example: If you are

in Program Edit Mode, you can choose which of the Program’s 4 sounds you

wish to edit by turning the [VALUE] knob while the Sound parameter is selected;

the display will indicate the selected Sound like this: SND1. The Sound is then

followed by a colon and the selected Function. In the example above, Sound 1 is

selected for editing, and the Voice function is selected.

•

Parameter/Page. In many cases when a Function is selected for editing, there will

be more than one parameter associated with it. Each parameter is divided into

“pages”. The upper-right corner of the display will indicate the currently selected

page number (πå– π∫). The number of pages available depends on the Function

you have selected to edit. When the parameter is selected (underline cursor

appears in the lower-left line) you can turn the [VALUE] knob to scroll through

the selected Function’s parameters/pages. In the example above, the Sound

Enable parameter on page 1 of the Voice function is currently selected.

Setting. The lower-right section will display thesetting of the parameter which is

currently selected. You can adjust the parameter’s setting by using the

[

CURSOR

] buttons to move the underline cursor in the display to the

parameter’s value and turning the [VALUE] knob. In the example above, the

Sound Enable parameter is turned on.

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MIDI CH BUTTONS

The [

MIDI CH

] buttons serve two purposes. In Program Play Mode and Mix

Play Mode, they are used to select a MIDI channel from 1 to 16. In Program Play

Mode, they are used to select the basic MIDI channel the QSR will receive and

transmit MIDI messages on. In Mix Play Mode, they are used to select one of the 16

possible Channels for viewing and editing. For more information on MIDI and its

uses, see Chapters 8 and 9, and Appendix B.

EDITING VALUES

Once an Edit Mode is selected, a parameter is displayed and that parameter’s value is

selected by using the [

adjusted by turning the [VALUE] knob. Whenever either the [

CURSOR

] buttons, that parameter’s setting can be

CURSOR

]

button is pressed, the cursor (an underline) will move to either the next or previous

parameter in the display.

PARAMETER EDITING OVERVIEW

All parameter editing involves the same general procedure, with minor variations:

➀ Select an Edit Mode with the [EDIT] button.

Example: If [PROG] was lit, the [EDIT] button switches between two Edit Modes—one

for editing the Program’s Sound layers(Program Edit Mode), and the other for editing

the Effects (Effects Edit Mode). If [MIX] was lit, the [EDIT] button switches between

three Edit Modes—one for editing the Mix’s parameters (Mix Edit Mode), one for editing

the Programs themselves (Program Edit Mode), and the last for editing the Effects

(Effects Edit Mode).

➁ If in Program Edit mode, select a sound (1 through 4) by turning the [VALUE

knob. If in Effects Edit mode, select a send (1 through 4) by turning the [VALUE

knob. If in Mix Edit mode, use the [

MIDI CH

] buttons to select a

channel (1 through 16); the selected channel will flash on and off in the lower

section of the display.

➂ Select a function (voice, level, pitch, etc.), by first pressing the [CURSOR

]

button to advance the cursor in the display to the function field (if in Program

Edit or Effects Edit mode; in Mix Edit mode, the function field is automatically

selected upon pressing [EDIT]), and then turning the [VALUE] knob to select the

function.

➃ Select the appropriate page for the parameter you want to edit by first pressing

the [CURSOR

] button to advance the cursor in the display to the parameter

field (in the middle of the display), and then turning the [VALUE] knob to select

the parameter.

The upper-right section of the display will indicate the currently selected page number.

Each page provides a different parameter. The parameter’s name will appear in the middle

section of the display.

➄ Change the parameter value by first pressing the [CURSOR

] button to

advance the cursor in the display to the value field (in the middle-right section of

the display), and then turning the [VALUE] knob to select the value.

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COMPARING EDITED AND STORED VERSIONS

When you edit a Program or Mix, you are actually editing a copy which is in a

temporary edit buffer. Therefore, to retain the results of your edit, you must save it to

a particular memory location (see the next section on Storing). If you change memory

locations before saving, the buffer will be replaced and your edits lost.

Because the original Program/Mix remains undisturbed, you can compare the edited

version to the original by using the Compare function. You can only select Compare

mode when either Mix Edit, Program Edit or Effects Edit is selected, and the word

“EDITED” appears in the lower-left section of the display (next to the Mix or

Program Mode indicator).

➀ While in an Edit Mode (the word “EDITED” should appear in the lower-left

section of the display), press [COMPARE].

Both the [EDIT] button and the word “EDIT” in the display will flash.

➁ Press [COMPARE] again to exit Compare mode and return to the edited version.

Both the [EDIT] button and the word “EDIT” in the display will stop flashing. Pressing

[MIX], [PROG], [GLOBAL], or [STORE] will also exit Compare mode. However, to

return to Compare mode after pressing one of these buttons, you must first press [EDIT]

and then press [COMPARE].

While Compare mode is selected, you can move around to view the various functions and

parameters, but you will not be able to edit anything. This is because you are seeing what is in

memory, not what is in the edit buffer.

✪

PRESET MEMORY AND USER MEMORY

The QSR has three types of memory banks for Mixes and Programs: Preset, User and

Card. The Preset banks, of which there are four, are stored in ROM (Read Only

Memory), and therefore cannot be altered. However, the User bank, of which there is

1, is stored in RAM (Random Access Memory). Card banks can be either ROM or

RAM. Anytime you want to keep an edited version of a Mix or Program, you will

store it into the User bank or onto a RAM Card. If you want to permanently change a

Mix or Program that is in the Preset bank, you can store the edited version into the

User bank (in either the same number location or a different number location).

However, this requires that you “store over” an existing Program or Mix, losing

whatever was previously in that location. If you don’t want to lose any of the sounds

in the User bank, you should back-up the entire bank to either an external SRAM or

FlashRAM PCMCIA card, or (via MIDI System Exclusive) into a data storage device

or a MIDI sequencer. See Chapter 9 for more information on external storage

operations.

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STORING

The [STORE] button selects Store mode. Store mode has several pages which you can

scroll through by using the [ CURSOR ] buttons. Each page in Store mode

provides a different type of storage, copy or data transfer function. When storing

edited Mixes or Programs into the User Bank or a RAM Card Bank, you will use the

first page of Store mode (for more information about the other pages of Store mode,

see Chapter 9). If you press [STORE], the display will look something like this:

Save Program to

USER

000

Each edit mode type requires its own store operation. For example, if while making a

new Mix you also make changes within one of the Programs (such as lowering the

filter level), you must use the Store command separately (from Mix Edit, and

Program Edit or Effect Edit) in order to save your work. Note: When using the Store

command from Effect Edit Mode, the associated Program is stored. This is because

Effects are stored within their respective Programs.

If you select a different Mix while in Mix Edit mode, or a different Program in

Program Edit mode, you will lose all changes you have made, unless you perform a

store first.

You can only store Mixes and Programs into their respective User banks. The Preset banks

are permanently stored in ROM and cannot be saved over.

✪

STORE A PROGRAM OR MIX

➀ While in either Program Mode or Mix mode, after making your edits press the

[STORE] button.

The [STORE] button will begin to flash.

➁ Optional: Select the memory Bank in which you want to store the Program or Mix

into by first pressing the [

CURSOR] button, and then using the [VALUE]

knob to select a Bank. Once a Bank has been selected, press [CURSOR

] to

move the cursor back to the Program/Mix Number field.

If no RAM Card is inserted, you will only be able to select the User Bank.

➂ Use the [VALUE] knob to select the Program/Mix location (00 – 127) in which

you want to store the Program or Mix into.

➃ Press [STORE] again to complete the operation.

Or, Press any other button to cancel out of the Store operation without storing.

Storing a Mix only stores the Mix parameters, not the individual Programs or Effect Patch

used in the Mix. If you have edited any of the Programs in the Mix or the Effects Patch, you

must store them separately.

✪

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TO AUDITION PROGRAMS BEFORE STORING

To look for available memory locations to permanently store your Program into, you

can move between Program Mode and Mix Mode without losing your changes. This

is because Program Mode uses a Program edit buffer, and Mix Mode uses its own

Mix edit buffer along with 16 additional Program edit buffers. These buffers are

retained when moving between Program Mode and Mix Mode, making it easy to

search for a suitable location to store your newly created Program. Example: While in

Program Edit mode, go to Mix Mode and scroll through the Program list on one of

the Channels; while editing a Program from Mix Mode, go to Program Mode to scroll

through the Program list.

The way to tell the difference between a program edited in Program Mode and one

edited from Mix Mode is by looking at the lower-left corner of the display: in

Program Edit Mode, the words “PROG EDITED” appear, while in Mix Edit Mode,

the words “MIX PROG EDITED” appear.

You will lose your changes if you remain in the same mode and recall a different

Mix/Program by turning the [VALUE] knob.

✪

To audition Programs before overwriting them with STORE

…when editing a Program in Program Mode:

➀ While in Program Edit mode, press [MIX].

This selects Mix Play Mode, retaining your edits to the Program in an edit buffer.

➁ Use the BANK SELECT [DOWN] and [UP] buttons select Preset Bank 1; then use

the [VALUE] knob to select Mix 99.

➂ Press both [

MIDI CH

] buttons simultaneously to select Channel 1.

➃ Use the BANK SELECT [DOWN] and [UP] buttons select the User Bank.

➄ Use the [VALUE] knob to go through the Programs in the User Bank until you

find one you wish to overwrite with the new edited Program. Take a note of the

number.

➅ Press [PROG] to enter Program Play Mode.

This recalls the edit buffer in Program Mode, which is your edited Program.

➆ Press [STORE].

The upper section of the display will read “Save Program to USER xxx”

where XXX is a User Program number from 000 – 127.

➇ Use the [VALUE] knob to select the Program Number you noted in step 5.

➈ Press [STORE] again.

The Program is now stored.

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To audition Programs before overwriting them with STORE

…when editing a Program in Mix Play Mode:

➀ While in Mix Program Edit mode, press [PROG].

This selects Program Play Mode, retaining your edits to the Program in Mix Edit.

➁ Use the BANK SELECT [DOWN] and [UP] buttons to select the User Bank. If a

RAM card is inserted, use the BANK SELECT [DOWN] and [UP] buttons to select

a Card Bank.

➂ Use the [VALUE] knob to scroll through the Programs until you find one you wish

to overwrite with the new edited Program. Take note of the number.

➃ Press [MIX].

This recalls the edit buffer in Mix Mode, which contains your edited Program.

➄ Press [EDIT] twice, until “PROG EDIT” appears under the MIX number in the

display.

➅ Press [STORE].

The top line of the display will read “Save Program to USER xxx” where

XXX is a User Program number from 000—127. Optional: If the location you noted was

on a RAM card, use BANK SELECT [UP] to select the Card Bank.

➆ Use the [VALUE] knob to select the Program Number you noted in step 5.

➇ Press [STORE] again.

The Program is now stored.

At this point your edited Program is stored, however the Mix your were auditioning

before storing the Program still has the old Program number assigned (if the edited

Program was saved to a different Program number location). Therefore, you need to

store the Mix as well.

➈ Press [MIX].

This selects Mix Play Mode.

➉ Press [STORE] twice.

The Mix is now stored.

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COPYING SOUNDS BETWEEN PROGRAMS

Follow the steps below to copy one of the four Sound layers from one Program to

another Program in the User Bank. When copying Sounds between Programs, the

“new” Sound will replace the same numbered Sound in the destination Program, i.e.,

Sound 3 will replace Sound 3.

➀ Press [PROG] to select Program Play Mode, then use the [VALUE] knob to select

the Program Number that uses the Sound you want to copy. If necessary, use the

BANK SELECT [DOWN] and [UP] buttons to select a different Bank.

➁ Press [STORE].

The [STORE] button will begin to flash.

➂ Press [CURSOR

] once to advance to Page 2.

The upper section of the display will read:

COPY SOUND 1 TO

SOUND 2 (STR)

➃ Use the [VALUE] knob to select which of the four Sounds (1–4) you wish to copy

from the currently select Program, or to select the Program Number in the User

Bank you wish to copy the Sound from (000–127).

➄ Press [CURSOR

] once to advance the cursor to the Program number value in

the lower section of the display.

➅ Use the [VALUE] knob to select which of the four Sounds (1–4) you wish to copy

to in the currently select Program, or to select the Program Number in the User

Bank you wish to copy the Sound to (000–127). ).

➆ Press [STORE] to complete the copy function.

COPYING EFFECTS BETWEEN PROGRAMS

Follow the steps below to copy the Effects Patch from one Program to another

Program in the User Bank.

➀ Press [PROG] to select Program Play Mode, then use the [VALUE] knob to select

the Program Number that uses the Effects you want to copy. If necessary, use the

BANK SELECT [DOWN] and [UP] buttons to select a different Bank.

➁ Press [STORE].

The [STORE] button will begin to flash.

➂ Press [CURSOR

] three times to advance to Page 3.

The upper section of the display will read:

COPY EFFECT

PROG 000 (STR)

➃ Use the [VALUE] knob to select the Effects Patch of the currently selected

Program, or any Program (000 - 127) in the User Bank to copy from.

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➄ Press [CURSOR

] once to advance the cursor to the Program number value in

the lower section of the display.

➅ Turn the [VALUE] knob to select the Program Number in the User Bank you

wish to copy the Effects to (000–127), or the EFFECTof the currently selected

Program.

➆ Press [STORE] to complete the copy function.

INITIALIZING THE PROGRAM/MIX BUFFERS

If you want to start programming from “scratch”, you can easily reset all parameters

to their default settings by re-initializing the Program/Mix Buffers. Make sure your

mod wheel is all the way down before re-initializing, otherwise the “zero” position of

the mod wheel will be incorrect.

To re-initialize the Program/Mix Buffers:

➀ Turn the power off.

➁ While holding down both [

CURSOR

] buttons, turn on the power.

Depending on the last selected Play mode, the QSR will power up showing either

Mix 00 or Program 00 of Preset Bank 1, with the word “EDITED” appearing in the

lower-left corner of the display. All edit buffers have all now been initialized (i.e., all

Mix and Program parameters are reset to the default settings).

Re-initializing will also reset all Global parameters to their default settings. However,

none of the Programs or Mixes are changed when re-initializing the unit. You can

proceed to edit, then [STORE] at any Program location you like.

INITIALIZING SOUNDS

You can also initiailize the individual Sounds of a Program on a per Sound basis.

This resets the parameters of only one Sound at a time for the selected Program,

without changing the remaining Sounds.

To re-initialize the an individual Sound in the currently selected Program:

➀ Press [STORE].

The [STORE] button will begin to flash.

➂ Press [CURSOR

] five times to advance to Page 4.

The upper section of the display will read:

INITIALIZE

SOUND 1 (STR)

➃ Use the [VALUE] knob to select which of the four Sounds (1–4) you wish to

initialize.

➄ Press [STORE] to complete the initializing function.

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Editing Mixes: Chapter 5

CHAPTER 5

EDITING MIXES

WHAT IS A MIX?

Mix Mode is one of the most powerful features of the QSR. Although in Program

Mode you can play only one Program at a time, in Mix Mode you can play up to 16

Programs at once, either from the keyboard (as layers or splits) or from an external

sequencer (via 16 MIDI channels) or a combination of both.

With Mix Mode, you can do the following:

•

Combine (“stack” or “layer”) different Programs so they can be played

simultaneously from your keyboard. For example, stack a piano on top of a

brass sound and a string sound, adjusting the volume of each for a desirable mix.

(Note that the stacking of Programs in Mix Play Mode is in addition to any

sounds that may be stacked in the four sound layers of each Program.)

•

Split your controller into different zones--for example, the classic bass guitar on

the left-hand side of the keyboard, and synth or piano on the right. You can split

the QSR into as many as 16 zones, which may overlap.

Receive up to 16 MIDI channels from an external sequencer, with each channel

representing a different instrument--piano on Ch. 1, bass on Ch. 2, drums on Ch.

10, trumpet on Ch. 16. Mix Play Mode is the multitimbral mode of the QSR.

Set the level, panning, transpositions and effect send of each MIDI channel.

PROGRAM ASSIGN FOR EACH MIDI CHANNEL

Once a Mix is recalled, you may want to choose different Programs than the ones the

Mix has stored with it. This does not require that you be in Mix Edit Mode. Assigning

Programs to the 16 channels of a Mix is done by first using the

[

MIDI CH

] buttons to select a channel and then using the [VALUE] knob to

select a Program. If desired, you can use the BANK SELECT [DOWN] and [UP]

buttons to select a Program from any of the internal or card banks.

MIX EDIT MODE

Editing a Mix begins with using the [

MIDI CH

] buttons to select the MIDI

channel you want, and selecting a Program number for each of the channels you

want to use (as described above). Beyond Program selection, you may control many

other aspects of a Mix by accessing Mix Edit Mode. This is done by pressing the

[EDIT] button while Mix Play Mode; “MIX EDIT” should appear in the bottom left

section of the display:

Mix Number

Mix Name

Active MIDI Channels

Once in Mix Edit Mode, use the [

MIDI CH

] buttons to select a MIDI channel

to edit (1 – 16). Use the [VALUE] knob to select a Function Group (Level, Pitch,

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Editing Mixes: Chapter 5

Effect, etc.) If a Function Group has more than one parameter, press the

[CURSOR ] button to advance the cursor in the display, and then turn the

[VALUE] knob to locate a specific parameter.

Each channel of a Mix may be enabled or disabled, without changing any of its

parameter settings. When a channel is disabled, its number (1 - 16) will not appear in

the bottom right section of the display. You can set levels, effect levels and bus

assignments, pitch transposition, keyboard ranges (if making a split or layer), and

MIDI parameters for each individual channel. A Mix also uses the Effect Patch

associated with one of its 16 Programs.

Here is a simplified diagram of the signal path in Mix mode.

MIDI

Outp ut

MIDI

Out

Pe d a ls

MIDI In

MIDI

Inp ut

Pro g ra m

Ma in L

Ma in R

So und

Aux L

Aux R

Ra ng e

Pa n

Outp ut

So und

Ke yb o a rd

Se nd s

1—4

Mo d e

Effe c ts

NORMAL

Effe c ts

Le ve l

Effe c ts

Buss

Pro c e sso r

(re ve rb , d e la y,

c ho rus, e tc .)

Pitc h

Cha nne l 1

Cha nne l 2

Pe d a ls

Cha nne l 3

Cha nne l 16

UNDERSTANDING THE EDIT BUFFERS

In Mix mode, there are 16 edit buffers (one for each channel), plus another buffer for

the Mix parameters (Level, Pitch, Range, etc.), and yet another buffer for the Effects

Processor. When you select a Mix from memory, it is copied into the Mix Edit buffer,

the 16 Programs of that Mix are copied into the 16 edit buffers, and the Effect from

one of the 16 Programs is copied into the Effects buffer. If you make changes to the

Mix, they are only temporarily kept in the edit buffer until a new Mix is selected

from memory. Therefore, you MUST store your edited Mix if you want to keep it.

If in the course of making a Mix, you enter Program Edit mode (by pressing [EDIT])

and edit one or more Programs in the Mix, the edits you make are entered into a

separate buffer for each Program in the Mix. Note, however, that you DO have to

store each edited Program into the User bank (in the same or different Program

number location) before selecting a different Mix, or your changes will be lost. The

same goes for editing the Effects, which will be stored along with its associated

Program into the User Bank. If you select another Mix before storing, your changes

will be lost.

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Editing Mixes: Chapter 5

LEVEL SETTING FOR EACH PROGRAM

The Level function of Mix Edit is used to control several parameters that deal with

the audio output of the selected channel. Parameters in the Level Function’s group

include: Volume, Pan, Output, Effects Send Level, Effects Bus and Program Enable.

Program Enable (On or Off)

Page 1

This determines whether the selected channel is enabled or disabled. When disabled,

no sound will be heard. The Channel indicator in the display for a disabled channel

will not appear.

Even if a channel is enabled, it will not play unless the proper settings in the RANGE

(LOW/HIGH) and MIDI/KEYBOARD functions are made (see pages 42 & 44).

✪

Program Volume (00 to 99)

Page 2

This sets the overall volume for a channel. Higher numbers give higher levels.

Program Pan (<3 to 3>, or PROG )

Page 3

This determines the pan position of the selected channel. When set to PROG, the Pan

setting will be that stored with the Program assigned to the selected channel.

However, you can override this setting by selecting a different value, thereby

assigning the channel’s panning between the left and right outputs.

Output (Main, Aux, Off, or PROG)

Page 4

This determines the audio output assignment for the selected channel. When set to

PROG, the channel will use the Output assignment of the Program. However, you

can override this assignment by setting this parameter to something different. To

send the sound’s output to the Main outputs, select Main. To send the sound’s

output to the Aux outputs, select Aux. When set to OFF, the channel will not be sent

to the outputs (but can still feed an effect bus).

To send a sound to an individual output, use Output in conjunction with Pan.

Example: Panning a sound full left and selecting the Aux outputs means that the

sound will appear at only the left Aux output.

TIP:

Effect Level (00 to 99, or PROG)

Page 5

This determines the amount of signal from the selected channel that will be sent to

the effects, using one of the four effects buses as determined by the Effect Bus

parameter (see below). When set to PROG, the effect level will be that stored by the

channel’s Program.

Effect Bus (1, 2, 3, 4, or PROG)

Page 6

This determines which effect bus the selected channel will be routed to. When set to

PROG, the effect bus assignment will be that stored by the channel’s Program. 1, 2, 3

or 4 overrides the Program’s bus assignment, sending all sound layers of the

Program to the chosen bus.

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Editing Mixes: Chapter 5

PITCH

The Pitch function lets you transpose a channel’s Program in either semitone or

octave increments.

Tune Octave (-2 to +2 octaves)

Page 1

This transposes the Program’s pitch in octave (12 semitones) steps from -2

(transposed down 2 octaves) to +2 (transposed up two octaves).

Semitone (-12 to +12 semitones)

Page 2

This transposes the Program’s pitch in semitone steps, from -12 (transposed down

one octave) to +12 (transposed up one octave).

EFFECT

The Effect function is where you select what Effect Patch will be used by the Mix. In

Mix Mode, you can have only one Effect Patch per Mix, which will be the Effects

Patch associated with one of the Programs used in the Mix.

FX Program Change (On or Off)

Page 1

This determines whether the Effects settings will change along with its Program, if a

MIDI program change is received on the Effect Channel (see next section). If ON, and

a MIDI program change is received, a new Program will be recalled along with its

associated Effect Patch. This, however, can change the way the other Programs in the

Mix sound, since they all share the same Effects Patch. If you want to recall Programs

via MIDI program changes, but also want to continue using the same Effects Patch,

leave this parameter turned OFF.

FX MIDI Channel (1 to 16)

Page 2

The Effect Channel determines which channel’s Program’s Effect Patch will be used

for the entire Mix. In other words, when the Effect Channel is set to 3, the Mix will

use the Effect Patch used by the Program assigned to channel 3.

KEYBOARD/MIDI

The Keyboard/MIDI Function allows you to turn on and off the MIDI and Keyboard

switches for the selected MIDI channel.

MIDI In (On or Off)

Page 1

This determines whether the selected channel will respond to MIDI messages.

MIDI Out (On or Off)

Page 2

In the QS7 and QS8, this determines whether or not the selected channel will

transmit MIDI messages. However, in the QSR, this parameter has no effect (it will

be shown in lowercase letters in the display).

MIDI Group Channel (On or Off)

Page 3

This determines whether or not the selected channel will respond to MIDI

information that is received on the Group Mix Channel. The Group Mix Channel is

set globally for all Mixes, and can be found in Global Edit Mode, Page 13. For more

information, see page 117.

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Editing Mixes: Chapter 5

CONTROLLERS

The Controllers function lets you turn on and off the various MIDI controllers that

can effect the selected MIDI channel. The following four parameters determine

whether or not specific types of MIDI information will be received or transmitted,

and are set separately for each Channel in the Mix. These, however, are dependent

on how each Channel has its MIDI parameters set (see page 38).

Pitch-bend and Modulation Wheels (On or Off)

Page 1

This determines whether or not the selected channel will receive pitch-bend and

modulation (controller 1) MIDI information.

Aftertouch (On or Off)

Page 2

This determines whether or not the selected channel will receive aftertouch MIDI

information.

Sustain Pedals (On or Off)

Page 3

This determines whether or not the selected channel will receive sustain pedal

(controller 64) MIDI information.

Controllers (On or Off)

Page 4

This determines whether or not the selected channel will receive MIDI controller

information which the Controllers A–D and Pedals 1 & 2 are assigned to (these are

assigned to MIDI controllers in Global Mode, Page 3 and 5).

TRANSMITTING MIDI VOLUME AND PANNING

Each Channel in a Mix can transmit its volume and panning settings via MIDI, if the

“MIDI Program Select” parameter is set to ON (Global Edit Mode, Page 10). Volume

level is sent as MIDI controller #7, and panning is sent as controller #10. If the “MIDI

Program Select” Global parameter is set to ON:

•

whenever a Mix is recalled (via the front panel or via MIDI), volume and

panning information will be transmitted;

whenever a Channel’s “Level” parameter is edited, volume information will be

transmitted as controller #7 on that Channel;

whenever a Channel’s “Pan” parameter is edited, panning information will be

transmitted as controller #10 on that Channel (except when set to “PROG”).

Note: Panning information will not be transmitted if the Channel’s “Pan“ parameter

is set to PROG (using the selected Program’s stored Pan setting).

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Editing Mixes: Chapter 5

SETTING THE RANGE AND MIDI SWITCHES

The Range function allows you to restrict each MIDI channel to a specific range of the

keyboard. This is ideal for creating splits (e.g., bass in the lower octave and a half,

piano in the middle three octaves, and strings in the upper octave). In order to hear

anything on a particular channel, turn the MIDI In parameter on (KBD/MIDI

function) set the Range so that the low note and high note values are set beyond

where you want to play. Look at the bottom section of the display. A circle will

appear around any active MIDI channels as you play notes or send notes to the QSR

from a sequencer on those channels.

Lower Limit (MIDI note 000 to 127/ C-2 to G8)

Page 1

Specifies the lowest note of the sound’s keyboard range. While the Lower Limit

parameter’s value is selected in the display (the cursor appears beneath it), you can

set the lower limit by tapping the key on the keyboard you want to set as the lowest

note in the range.

High Limit (MIDI note 000 to 127/ C-2 to G8)

Page 2

Specifies the highest note of the sound’s keyboard range. While the High Limit

parameter’s value is selected in the display (the cursor appears beneath it), you can

set the lower limit by tapping the key on the keyboard you want to set as the highest

note in the range.

If the low limit is set above the high limit, you will be able to play this program layer at the

lower and upper ends of the keyboard, but not in the middle between the two limit settings.

✪

QS8 Keyboard Range

A-1

108

C-2

C-1

108

C8 G8

120 127

Program Sound Range

NAMING A MIX

The Name function allows you to change the name of the Mix. The Mix name can be

up to 10 characters long. Use the [ CURSOR ] buttons to position the cursor

and the [VALUE] knob to select the character. Here is a chart of available characters:

% &

’

(

)

{

[

;

@ A

W X

]

}

→ ←

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Editing Mixes: Chapter 5

POLYPHONY IN MIX PLAY MODE

The QSR has 64-note polyphony. In Mix Play Mode, if you have all 16 MIDI channels

assigned to the same keyboard range, and each channel’s Program has only one

active Program Sound, you’ll have 4-note polyphony as you play the keyboard (but a

really thick layer...). This is extreme, of course, but should tell you what you can

expect when you really pile on the layers from the keyboard.

PLAYING A GROUP OF CHANNELS IN A MIX

In Program Play Mode, you can use the [

MIDI CH

] buttons to set the MIDI

IN channel for the whole instrument. But when using the QSR in Mix Play Mode,

you may need to be able to transmit on several MIDI channels from your MIDI

keyboard, in order to play the different channels within a Mix. However, there is a

way to “group” any number of channels in a Mix to all play simultaneously from a

single MIDI channel (in addition to responding to MIDI information on their

individual channels). This can be done by combining the Group parameter (found in

Mix Edit Mode, Keyboard/MIDI Function, Page 3) and the Mix Group Channel

function (found in Global Edit Mode, Page 13).

➀ From Mix Play Mode, press [EDIT] followed by BANK SELECT [UP] (also labeled

[GLOBAL]).

➁ Turn the [VALUE] knob to get to Page 13.

You will see "MixGroupCH:" in the middle of the display.

➂ Press the [CURSOR

] button once to advance the cursor in the display, and

turn the [VALUE] knob to set the Mix Group Channel between 1 and 16, or Off.

1–16. When the Group Mix Channel parameter is set between 1 and 16, the number it

is set to determines the single MIDI channel which, when MIDI information is

received on it, will play the channels in the selected Mix which have their Group

parameter turned on.

OFF. In this mode, the individual channels used by the selected Mix will only be

triggered by MIDI information received on its designated MIDI channel (Example: the

sound on channel 1 will only respond to information received on MIDI channel 1, the

sound on channel 2 will only respond to information received on MIDI channel 2,

etc.), regardless of whether each channel’s Group parameter has been turned on or

off. However, the MIDI In parameter for each channel must be turned on in order for

that channel to respond to incoming MIDI information on its own channel.

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Editing Mixes: Chapter 5

To turn on the Group function for a channel in a Mix:

➀ From Mix Play Mode, press [EDIT].

➁ If necessary, use the [

MIDI CH

] buttons to move the cursor to the upper

line of the display. Then turn the [VALUE] knob until the Keyboard/MIDI

function is displayed.

➂ Press the [CURSOR

] button to advance the cursor to the lower line and turn

the [VALUE] knob until Page 3 is selected.

You will see "MIDI Group:" in the middle of the display.

➃ Use the [

MIDI CH

] buttons to select a channel in the Mix.

➄ Press the [CURSOR

] button to advance the cursor and turn the [VALUE]

knob clockwise to turn on the Group parameter.

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Editing Programs: Chapter 6

CHAPTER 6

EDITING PROGRAMS

OVERVIEW

Synthesizer programming is the art and science of shaping sounds in a particular

way by altering the parameters of various modules. Like music itself, learning synth

programming is an ongoing process. Although this manual presents information

about synthesizer programming, no manual can offer a complete course in

programming (at least for a price that customers would be willing to pay!).

If you’re new to synthesizer programming, the best way to learn is to adjust different

parameters as you play to discover how different parameter values affect the sound.

Also, become familiar with the signal and modulation flow within the QSR (as

shown in the various block diagrams included in this manual) so that you can

understand the many ways in which you can process a signal as it works its way

from oscillator to output.

THE “NORMALIZED” SYNTH VOICE

The first synthesizers were comprised of various hardware modules, some of which

generated signals, and some of which processed those signals. These were designed

to be general-purpose devices since nobody was quite sure how they would be

applied; some engineers used them as signal processors, while keyboard players

treated them as musical instruments. Therefore, patch cords connected the inputs and

outputs of the various signal generating and processing modules (which is why

particular synth sounds were called patches). Changing a patch involved manually

repositioning patch cords and adjusting knobs and switches; recreating a patch

required writing down all the patch settings on paper so they could be duplicated

later. Even then, due to the imprecision of analog electronics, the patch might not

sound exactly the same.

Over the years, certain combinations of modules seemed to work better than others,

and since patch cords were troublesome to deal with, eventually these modules were

wired together in a “normalized” configuration. Synthesizers such as the

MiniMoog™, Prophet-5™, and others eliminated the need for patch cords by

containing a normalized collection of sound modules (including oscillators, filter,

envelopes, LFOs, etc.).

The QSR offers the best of both worlds. The most commonly-used, normalized

configurations are built-in to every program for ease of programming. In addition,

the QSR Modulation Matrix gives back much of the flexibility of a modular

synthesizer, allowing you to map various modulation sources to multiple

destinations for special needs. If you’re a beginner, all of the normalized pathways

are easy to find; as you gain experience you can explore more advanced features.

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Editing Programs: Chapter 6

HOW THE QSR GENERATES SOUND

The QSR uses custom integrated circuits, developed by the Alesis engineering team

specifically for the QSR. These resemble the types of chips used in computers and

other digital devices. In fact, you can think of the QSR as a special-purpose computer

designed to generate and process audio. Although the user interface maintains the

metaphor of “modules,” in fact all sounds are simply a set of numbers reflecting how

you’ve programmed the various sound parameters. For example, when you change

the filter cutoff frequency, you’re not actually messing with a filter; you’re telling the

computer to simulate the effect of messing with a filter.

Each “module” is represented by parameters that appear on one or more display

pages. The [VALUE] knob lets you change these parameters. All “patching” is done

via software, so the only patch cords you need are those that go to your mixer or

amplifier.

You can take a “snapshot” of the QSR’s parameters and save this in memory as a

program. The QSR comes with 512 factory preset programs, and 128 user-editable

programs.

PROGRAM SOUND LAYERS

The simplest method of programming is to take one voice, process it through the

filter and amp sections, and (if desired) add some effect to it. However, more

elaborate Programs usually consist of 2 to 4 layers, with each layer making its own

distinct contribution to the sound, for example:

•

An organ program with Program Sound 1 set to a sustained organ waveform,

and Program Sound 2 set to a percussion waveform with a fast decay.

A piano program with one layer tuned normally, and a second layer tuned an

octave higher.

A synthesizer program with one layer set to a sharp attack waveform, a second

layer set to an acoustic waveform, and a third layer with a slow-attack string

waveform.

This may remind you of Mix Play Mode, where playing the keyboard can sound up

to 16 different Programs at once. There are many similarities. In Mix Play Mode,

you can make the same kind of layered Mix as you can with the four sounds of a

Program. But there are differences:

Use Program Layers:

•

If you want multiple sounds to respond to a single MIDI channel. For example,

if you need to play a layered synthesizer sound that was assembled in Mix Play

Mode instead of Program Play Mode, you must send 3 Note On messages from

your sequencer (one for each channel) for every note; a layered program would

need only one Note On message.

•

When layers of a Program are designed to be used together, and the individual

layers by themselves wouldn't be used alone (for example, the percussion layer

of the organ sound).

Use Mix Play Mode:

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Editing Programs: Chapter 6

•

When you want to layer more than four voices. In Mix Play Mode, it is possible

(though not advisable) to stack all 64 voices onto a single key.

When each sound is likely to be used by itself by other setups. For example, if

you are programming three different keyboard splits, each of which uses the

same left-hand bass patch, it makes sense to use Mix Play Mode.

•

When you want different sounds to respond to different MIDI channels.

QSR SIGNAL FLOW

THE FOUR SOUNDS OF A PROGRAM

Each Program is made up of at least one to four sounds. A sound is made up of

several components including a voice (the original sound material) which passes

through a low-pass filter and an amplifier. The voice, filter and amp modules each

have direct modifiers (Pitch LFO, Filter LFO, Amp Envelope) which affect how each

will function in the Program. You can layer these sounds together, or divide them

into regions of the keyboard, or a combination of these things.

The following diagram illustrates the signal flow within each QSR Program.

MIDI

Inp ut

Sound 1

Pitc h

LFO

Filte r

LFO

Am p

LFO

Ma in L

Ma in R

Aux L

Aux R

Ra ng e

Vo ic e

Filte r

Am p

Pa n

Outp ut

Pitc h

Enve lo p e

Filte r

Enve lo p e

Am p

Enve lo p e

Se nd s

1—4

Effe c ts

Le ve l

Effe c ts

Buss

Pro c e sso r

(re ve rb , d e la y,

c ho rus, e tc .)

Assig na b le Mo d ula tio n So urc e s

(ve lo c ity, a fte rto uc h, m o d ula tio n whe e l, p itc h b e nd , e tc .)

Sound 2

Sound 3

Sound 4

When editing a Program, check the upper-middle section of the display (SND) to

determine which sound layer you are editing.

Let’s look at each module’s function in detail.

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Editing Programs: Chapter 6

VOICE

This digitally-based oscillator provides the actual raw sounds from the 16 megabyte

library of on-board samples. The oscillator’s pitch can be tuned to a fixed frequency

or modulated. Modulation is the process of varying a parameter dynamically over

time; the oscillator pitch can be modulated by envelope, keyboard, pressure, pedal,

LFO, and other control sources (described later).

Note that the waveforms in the QSR are different from those found in samplers or

many sample-playback units. Because the QSR has its own filter module and

amplitude module for each voice, the pure waveforms are relatively bright--as bright

as the original instrument can be--and have a constant sustaining amplitude, like an

organ. So if you listen to a piano voice without setting the filter or amp to the correct

settings, it won't decay after it is hit, as you might expect. This gives you the

freedom to create the timbre and dynamics you want, instead of being chained to the

parameters of the original sample.

LOWPASS FILTER

A lowpass filter varies a signal’s harmonic content by progressively increasing

attenuation above a specified cutoff frequency. The higher frequencies are filtered,

while the lower frequencies are allowed to “pass-thru.” When the cutoff frequency is

set high, the sound becomes brighter; when set low, the sound becomes bassier since

fewer harmonics are present.

Cuto ff

Fre q ue nc y

Fre q ue nc y Re sp o nse Curve

Filte r

Am p litud e

Fre q ue nc y

The cutoff parameter changes the frequency at which the high-

frequency response starts to roll off. Lower values give a lower

cutoff frequency. A value of 00 will cut all sound off.

Static (non-changing) filter settings can be useful, but varying the filter cutoff

dynamically over time often produces more interesting effects. Modulating with

velocity produces brighter sounds with louder dynamics, which produces a more

accurate acoustic instrument simulation. Modulating with an envelope can create a

pre-defined change in harmonic structure, such as having a brighter attack and

bassier decay.

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Editing Programs: Chapter 6

AMP

Each voice/filter combination is followed by an amplifier whose level can be

controlled by a variety of modulation sources. This allows for creating sounds with

percussive or slow attacks, particular types of decays, tremolo, etc.

Filter and amp settings can interact. If the filter cutoff is extremely low, then no

signal will get through, no matter how the amp is set. Similarly, setting the amp for a

short decay won’t let you hear any filtering set for a longer decay. This is because the

volume will reach zero before the filter decay finishes.

ABOUT MODULATION

Modulation modifies some aspect of a sound over time. Since oscillators make static

sounds (unlike acoustic instruments, whose timbre and dynamics change—often

radically—over the duration of a note), modulation is the key to making rich and

expressive sounds. The vibrato of a flute, the expression pedal of an organ, a wah-

wah pedal on a guitar--all of these are examples of modulation. You're probably

familiar with the mod wheel of a synthesizer, which typically adds vibrato to a

Program as it is raised. But in synthesizer programming, modulation is used to

control even the basic characteristics of a voice: its attack, decay, and release times,

for example. Every box in the signal diagram on page 49 pointing towards the Voice,

Filter, or Amp boxes is a modulation source. The amount of modulation, the time it

takes place, and what controls (such as key velocity, footpedals, aftertouch, mod

wheel etc.) affect it are important parameters in every Program. The QSR provides

the modulation flexibility of patch cord-based instruments, but with the convenience

and ease of use of digital technology.

With some parameters, the modulation amount can be positive or negative. A

positive control signal increases the value of the parameter being controlled. A

negative control signal decreases the value of the parameter being controlled. Setting

modulation to 00 turns off the modulation source. Example: Keyboard velocity can

either make a sound brighter the harder you play, or make it less bright, or have no

effect on the Filter at all. You have the freedom to set modulation any way you want,

even in ways that are the opposite of what they would be on an acoustic instrument.

If a “baseline” setting exists for a parameter, modulation amounts add or subtract

values from the existing setting. However, modulation cannot force a value beyond

its maximum range. For example, if the Amp is already at its minimum value (lowest

level), you could apply positive modulation to raise the level. But applying negative

modulation will not affect the Amp level, since it's already at its lowest value and

cannot go any lower.

The QSR lets you assign several modulation sources to one modulation “target”

parameter, which allows for interaction between two modulation signals. Example: If

the Amp parameter responds to both the envelope generator and a pedal, the

parameter will follow the general envelope shape but will also be influenced by the

pedal.

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Editing Programs: Chapter 6

LFO (LOW FREQUENCY OSCILLATOR)

The pitch, filter, and amp modules each have a dedicated LFO module for

modulation. The term LFO stands for low frequency oscillator, and comes from how

modulation was created in the early synth days (an oscillator set to a low frequency

could modulate some aspect of the sound; routing the LFO to the pitch, for example,

would create vibrato). The LFO creates a cyclic (periodic) modulation; this amount

can be constant and/or varied with a variety of modulation sources (mod wheel is

one of the most popular). Each LFO has a waveform shape and speed, along with

other controls.

ENVELOPES

Envelope generators provide a modulation signal that varies over time, from the time

you strike the key until after you let go. There are three independent envelope

generators (for pitch, filter, and amp) in each Program Sound. An envelope generator

has different effects on different modules. Example: The Amp Envelope creates level

changes. Amplitude that decays over time creates percussive effects (plucked strings,

drums, etc.). Amplitude that increases over time gives the effect of brass, woodwind,

and some bowed instruments.

Each envelope generator has the standard attack, decay, sustain, and release

parameters found on most synthesizers, along with delay, sustain decay, and

different triggering options.

DECAY

SUSTAIN LEVEL

RELEASE

DELAY

ATTACK

SUSTAIN DECAY

NOTE OFF

TIME

NOTE ON

ABOUT SIGNAL PROCESSING

The QSR features a signal processing section based on the Alesis QuadraVerb 2. It is

a complete digital signal processing unit with four input buses, simultaneous

multiple effects, and flexible signal routing.

Sound

Ma in L

Aux L

Ma in R

Aux R

Se nd s 1—4

Effe c ts

Pro c e sso r

(re ve rb , d e la y,

c ho rus, e tc .)

Effects parameters are edited separately from either the Program or the Mix, using

Effects Edit Mode (more in Chapter 6). In Program Edit Mode, each of the four

sounds in the Program has its own Effect Level control and can be assigned to any

one of the four effect buses. Effects settings, Effect Level and Bus information are

saved with the Program when you store it back into memory.

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Editing Programs: Chapter 6

DRUM MODE

Any one or all of the four sounds in a Program can be put into Drum Mode. The

Drum Mode parameter is found in the Voice Function. Note that Drum Mode isn’t

the only way to hear drums or percussion from a Program. In Keyboard mode, if you

select a kit (such as “Rock Kit 1”) as the voice of a Program sound, an entire

arrangement of preset, pre-mapped drum sounds will be assigned across the

keyboard. If you select a single drum (such as “Timpani”) as the voice, that single

drum sound will sound across the keyboard range, with a different pitch on each

note (the original sample pitch will appear on C3).

However, Drum Mode changes the nature of the VOICE function, allowing you to

make up your own drum kit from a selection of over 340 different samples: 21 kicks,

26 snares, 33 toms, 43 cymbals, 75 percussion, 83 percussion effects and 63 synth

waves. Plus, there are 90 rhythm beats to choose from (pre-sequenced drum

grooves). You can map any of these samples to any note on the keyboard that does

not already have a drum assigned to it in that sound. When a sound is in Drum

Mode, you can assign 10 different drum sounds to 10 different keys in that layer. If

all four sounds in a Program are placed in Drum Mode, you could assemble 40 drum

sounds. In Drum mode, individual drums cannot be “stretched” across the entire

range of the keyboard -- each occupies a maximum of four keys.

Each of the 10 drum sounds has its own set of parameters in each of the functions in

the display (Pitch, Filter, Range, Effects Level, etc.). When editing a Sound in Drum

Mode, check the upper-middle section of the display (S1Då) to determine which

Drum Sound layer you are editing.

Here is a block diagram of a sound in Drum Mode.

Ra ng e

Vo ic e

Filte r

Am p

Pa n

Outp ut

Am p

Enve lo p e

Effe c ts

Le ve l

Effe c ts

Buss

Drum 1

Drum 2

Drum 3

Drum 10

Sound 1

Sound 2

Sound 3

Sound 4

When Drum Mode is enabled, the sound will have fewer parameters for editing.

Consequently, not all Function buttons will respond when pressed as when Drum

Mode is turned off. Specifically, the LFOs and all Envelopes (with the exception of

the Amp Envelope) are unavailable. In addition, the parameters in most other

functions will differ. See page 82 for more information about Drum Mode.

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Editing Programs: Chapter 6

PROGRAM EDIT FUNCTIONS

To edit a Program you must select Program Edit mode. This is done by pressing the

[EDIT] once from Program Play Mode (each time you press [EDIT] in Program Mode,

the display cycles between Program Edit and Effects Edit Modes). When editing a

Program in Program Mode, the letters “PROG EDIT” will appear in the display’s edit

status section (bottom-left corner).

A Program may also be edited from within a Mix. This requires that you press the

[EDIT SELECT] button twice from Mix Play Mode (each time you press [EDIT

SELECT] in Mix Mode, the display cycles between Mix Edit, Program Edit and

Effects Edit Modes). When editing a Program in Mix Mode, the letters “MIX PROG

EDIT” will appear in the display’s edit status section (upper-left corner), with the

channel number that is being edited immediately following.

VOICE

The Voice function is the most fundamental part of Program editing. It is where you

choose the particular sample that forms the basis of a sound. To avoid scrolling

through long lists of samples (remember, there are 8 megabytes of sounds in here!),

sounds are divided into groups. After selecting the group, you then select the sound

within the group.

Sound Enable

Page 1

This is the master on/off switch for the selected sound (1–4) of the current Program.

To avoid using up polyphony unnecessarily, set Sound Enable to OFF for any

sounds that will not be used in a Program. Turning sounds off is also a convenient

way to isolate a particular sound you are editing. When the sound being edited is

disabled, the upper display will show the word “snd” in lowercase letters. When

the sound being edited is enabled, the word “SND” will appear in uppercase letters.

When editing a Program’s Sound that is in Drum Mode, a single letter will appear as

“S” when a sound is enabled, and “s” when disabled.

Sound Type

Page 2

This determines whether a Sound layer is going to be in Keyboard Mode or Drum

Mode. Drum Mode allows you to assign individual drum sounds to individual keys.

To Program a sound in Drum Mode, refer to the next section “Programming Drum

Sounds” on page 78.

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Editing Programs: Chapter 6

Sound Group (17 options)

Page 3

Choose from among 16 different sample groups (see chart below).

Sound

Page 4

Selects one of the available samples by name from the selected group, or OFF (no

sample selected). Each group has a variety of samples from which you can choose,

although some groups (such as waves) have more samples than others.

Below and on the following page, you’ll find a chart listing the various samples in

their respective groups.

Group

Voice

GrndPianoL, GrndPianoR, DarkPno1 L, DarkPno1 R, DarkPno2 L, DarkPno2 R, DarkPno3 L,

DarkPno3 R, BritePno1L, BritePno1R, BritePno2L, BritePno2R, BritePno3L, BritePno3R,

4::VibesWave, NoHammer R, SoftPianoL, SoftPianoR, VeloPianoL, VeloPianoR, TapPiano L,

TapPiano R, E Spinet 1, E Spinet 2, Toy Pno L, Toy Pno R, KeyTrack1, KeyTrack2, Stretch L,

Stretch R, PianoWaveL, PianoWaveR, BriteRoads, Dark Roads, Soft Roads, VeloRoads1,

VeloRoads2, VeloRoads3, Wurly, VeloWurly1, VeloWurly2, FM Piano, FM Tines, Soft Tines,

VelAtkTine, Vel FM Pno, BrtRdsWave, DrkRdsWave, SftRdsWave, Wurly Wave

Clavinet, VelAtkClav, ClavntWave, Harpsicord, VAtkHarpsi, HarpsiWave, Glock,

Xylophone, Marimba Hd, Marimba Sf, MarimbaVel, Vibraphone, VibesWave, Ice Block, Brake

Drum, TubulrWave, TubWv/Null, FMTblrBell, FMTublrSft, FMTublrVel, FMTub/Null

Rock Organ, Perc Organ, FullDrwbr1, FullDrwbr2, 3 Drawbars, 4 Drawbars, UpprDrwbrs,

16'Drawbar, 5 1/3' bar, 8' Drawbar, 4' Drawbar, 2 2/3' bar, 2' Drawbar, 1 3/5' bar, 1 1/3' bar,

1' Drawbar, Percus 2nd, Percus 3rd, Percus Wav, HollowWave, 60's Combo, RotarySpkr,

ChurchOrgn, Principale, Positive

Piano

Chromatic

Organ

SteelStrng, NylonGuitr, Nylon/Harm, Nylon/Harp, JazzGuitar, SingleCoil, Sngle/Mute,

DoubleCoil, DCoil/Harm, DCoil/Jazz, D/S Coil, MicroGuitr, PwrH/MGtr1, PwrH/MGtr2,

MuteGuitar, Mute Velo, Metal Mute, MGtr/MtlMt, MtlMut/Hrm, Fuzz Wave, ClsHarmncs,

ElecHarmnc, Pwr Harm 1, Pwr Harm 2, Pwr Harm 3, PwrHrmVel1, PwrHrmVel2,

PwrHrmVel3

StudioBass, Studio&Hrm, Studio/Hrm, Slp/Studio, Slap Bass, Slap&Harm, Slap/Harm,

Slap/Pop, Pop/Slap, Bass Pop, Pop/Harm, Harm/Pop, JazzFingrd, Fingr&Harm, JazzPicked,

Pickd&Harm, Jazz Velo, Muted Bass, Stik Bass, Stik&Harm, Stik/Harm, Harm/Stik, Fretless,

Frtls&Harm, AcousBass1, AcoBs1&Hrm, AcousBass2, AcoBs2&Hrm, VelAcoBass, 3-VelBass1,

3-VelBass2, 3-VelBass3, 3-VelBass4, BassHarmnc

Guitar

Bass

StringEnsm, TapeStrngs, SoloString, SoloViolin, Solo Viola, Solo Cello, Contrabass, Pizz Sectn,

Pizz Split, Pizz/Strng, Strng/Pizz, StringAttk, Harp, Hi Bow, Low Bow

String

Pop Brass, ClasclBras, AttakBrass, Trumpet, HarmonMute, Trombone, FrenchHorn, Bari

Horn, Tuba

Brass

Bassoon, Oboe, EnglishHrn, Clarinet, Bari Sax, BrthyTenor, Alto Sax, SopranoSax, Velo Sax,

Flute, Flute Wave, Shakuhachi, PanPipe Hd, PanPipe Md, PanPipe Sf, PanPipeVel, Pan Wave,

BottleBlow, BottleWave

Wdwind

J Pad, M Pad, X Pad, Velo Pad 1, Velo Pad 2, Velo Pad 3, AcidSweep1, AcidSweep2,

AcidSweep3, AcidSweep4, AcidSweep5, VeloAcid 1, VeloAcid 2, VeloAcid 3, VeloAcid 4,

Chirp Rez1, Chirp Rez2, Chirp RezV, Quack Rez1, Quack Rez2, Quack Rez3, Quack Rez4,

QuackRezV1, QuackRezV2, QuackRezV3, Uni Rez 1, Uni Rez 2, Uni Rez 3, Uni Rez V,

AnalogSqr1, AnalogSqr2, AnalogSqrV, SyncLead 1, SyncLead 2, SyncLead V, Seq Bass, Seq

BassV1, Seq BassV2, FatSynBass, TranceBas1, TranceBas2, VeloTrance, FunkSynBs1,

FunkSynBs2, FunkSynBs3, FunkSynBsV, FilterBass, FM Bass, FM/FiltVel, Soft Chirp, Soft Rez

Pure Sine, 10% Pulse, 20% Pulse, 50% Pulse, Velo Pulse, Mini Saw, Saw Fltr 1, Saw Fltr 2, Saw

Fltr 3, Saw Fltr 4, Saw Fltr 5, Saw Fltr 6, Saw Fltr 7, RezSaw UK, RezSaw USA, Acid Saw, Velo

Saw 1, Velo Saw 2, Velo Saw 3, Velo Saw 4, Velo Saw 5, Velo Saw 6, AcidRezSqr,

VelAcidWav, MiniSquare, Sqr Fltr 1, Sqr Fltr 2, VeloSquare, Mini Tri, Tri Filter, Velo Tri,

Rectanglar, Hard Sync, HSync/Rect, BrightSync, Rez Sync, Ring Mod, RingMod V1, RingMod

V2, OctaveLock, Diet Saw, Band Saw, Notch Saw, HiPassSaw1, HiPassSaw2, HiPassSaw3,

HiPassSaw4, HiPassVel1, HiPassVel2, HiPassVel3, HiPassVel4, HiPassVel5, HiPassVel6,

Cognitive, Additive 1, Additive 2, VeloAdditv, Digital 1, Digital 2, Digital 3, Digital 4, Science

1, Science 2, Science 3, Science 4, VelScience, Metal Wave, Inharmonc1, Inharmonc2

Synth

Wave

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Editing Programs: Chapter 6

WhiteNoise, Spectral, Crickets, Rain Noise, FiltrNoise, ShapeNoise, VeloNoise1, VeloNoise2,

VeloNoise3, NoiseLoop1, NoiseLoop2, NoiseLoop3, NoiseLoop4, NoiseLoop5

VocalAhhs, Soft Ahhs, Ahhs Wave, VocalOohs, Soft Oohs, Oohs/Ahhs, Ahhs/Oohs, Whistle,

Phonic

Noise

Voice

Sitar, Sitar Wave, Shamisen, Koto, DulcimerHd, DulcimerMd, DulcimerSf, DulcimrVel,

DulcmrWave, MandlnTrem, Accordian, Harmonica, Banjo, Kalimba, Steel Drum, Tuned Pipe

Stndrd Kit, Rock Kit 1, Rock Kit 2, Dance Kit, Brush Kit, ElctricKit, Tek Kit, Rap Kit, Street Kit,

MetalliKit, HvyMtliKit, VeloMtlKit, Trip Kit 1, Trip Kit 2, Trip Kit 3, Wild Kit, Octave Kit,

OrchstraKt, Raga Kit, FloppyKick, PillowKick, MasterKick, Metal Kick, Smoke Kick,

GrooveKik1, GrooveKik2, Sharp Kick, Tek Kick, AnalogKick, Rap Kick, FatWoodSnr, HR

Snare, Master Snr, PiccoloSnr, Electrnic1, Electrnic2, Rap Snare1, Rap Snare2, Tek Snare,

Brush Snr, Crosstick, Hi Tom, Mid Tom, Low Tom, Cannon Tom, Hex Tom, Rap Tom, Closed

Hat, HalfOpnHat, Open Hat, Foot Hat, TekHatClsd, TekHatOpen, RapHatClsd,

RapHatOpen, CricketCHH, CricketTIK, CricktsOHH, FltrNoisCH, FltrNoisOH, Ride Cym,

Ride Bell, Crash Cym, Null/Crash, Splash Cym, China Cym, Rap Cymbal, RapCymWave,

StndrdKtDM, RockKit1DM, RockKit2DM, DanceKitDM, BrushKitDM, ElctrcKtDM, Tek Kit

DM, Rap Kit DM, StreetKtDM, TripKit1DM, TripKit2DM, TripKit3DM, OctavKitDM,

OrchstraDM

Ethnic

Drums

Agogo, Bongo, Cabasa, Castanet, Chimes 1, Chimes 2, Chimes 3, Clap Rap, Clap Tek, Clave 1,

Clave 2, Conga Hit1, Conga Hit2, CongaSlap1, CongaSlap2, Rap Conga, Rap Rim, Cowbell,

RapCowbell, Cuica, Djembe Hi, Djembe Low, Drumstix, FingerSnap, GuiroLong1,

GuiroLong2, GuiroShort, Maracas, SmbaWhstl1, SmbaWhstl2, ShortWhstl, Shaker Hi, Shaker

Low, Sleighbel1, Sleighbel2, Tabla Ga, Tabla Ka, Tabla Ka 2, Tabla Na, Tabla Te, Tabla Te 2,

Tabla Tin, Taiko Drum, Taiko Rim, Talk Down, Talk Up, Tambourine, Timbale, Timpani,

Null/Timp, Triangle 1, Triangle 2, TrianglSf1, TrianglSf2, Udu Hi, Udu Mid, Udu Low, Udu

Slap, Vibrasmak1, Vibrasmak2, Wood Block

Rain 1, Rain 2, Bird Tweet, Bird Loop, Telephone, Jungle 1, Jungle 2, Jungle 3, Jungle 4,

GoatsNails, ScrtchPul1, ScrtchPul2, ScrtchPsh1, ScrtchPsh2, ScratchLp1, ScratchLp2,

ScrtchPLp1, ScrtchPLp2, ScrtchPLp3, ScrtchPLp4, Orch Hit, Null/Orch, Dance Hit,

Null/Dance, Rez Zip, RezAttack1, RezAttack2, RezAttkVel, Zap Attk 1, Zap Attk 2, Zap Attk

3, Fret Noise, Sci Loop 1, Sci Loop 2, Sci Loop 3, Bit Field1, Bit Field2, Bit Field3, Bit Field4, Bit

Field5, Bit Field6, WavLoop1.0, WavLoop1.1, WavLoop1.2, WavLoop1.3, WavLoop1.4,

WavLoop1.5, WavLoop1.6, WavLoop1.7, WavLoop1.8, WavLoop2.0, WavLoop2.1,

WavLoop2.2, WavLoop2.3, WavLoop2.4, WavLoop2.5, WavLoop2.6, WavLoop2.7,

WavLoop2.8, WavLoop3.0, WavLoop3.1, WavLoop3.2, WavLoop3.3, WavLoop3.4,

WavLoop3.5, WavLoop4.0, WavLoop4.1, WavLoop4.2, WavLoop4.3, WavLoop4.4,

WavLoop4.5, D-Scrape, D-ScrapeLp

Percus

SndFX

Psi Beat 1, Psi Beat 2, Psi Beat 3, Psi Beat 4, Psi Beat 5, Psi Beat 6, Psi Beat 7, Psi Beat 8, Psi Beat

9, Psi Beat10, Psi Beat11, Psi Beat12, Kick Loop1, Kick Loop2, Kick Loop3, Kick Loop4, Kick

Loop5, Kick Loop6, Kick Loop7, Kick Loop8, Kick Loop9, KickLoop10, KickLoop11, Snare Lp

1, Snare Lp 2, Snare Lp 3, Snare Lp 4, Snare Lp 5, Snare Lp 6, Snare Lp 7, Snare Lp 8, Snare Lp

9, SnareBeat1, SnareBeat2, SnareBeat3, SnareBeat4, SnareBeat5, Back Beat1, Back Beat2, Back

Beat3, Back Beat4, Hat1 Clsd1, Hat1 Clsd2, Hat1 Foot, Hat1 Open1, Hat1 Open2, Hat2 Clsd1,

Hat2 Clsd2, Hat2 Foot, Hat2 Open1, Hat2 Open2, Hat3 Clsd1, Hat3 Clsd2, Hat3 Open1, Hat3

Open2, Hat Beat 1, Hat Beat 2, Hat Beat 3, Hat Beat 4, Hat Beat 5, Hat Beat 6, Hat Beat 7, Hat

Beat 8, Hat Beat 9, Hat Beat10, Agogo Loop, Bongo Loop, CabasaLoop, CastanetLp,

CongaLoop1, Shaker Lp1, Shaker Lp2, SleighLoop, Tabla Ga Lp, Tabla Ka Lp, Tabla Na Lp,

Tabla Te Lp, TablaTin Lp, Taiko Loop, PercBeat1, PercBeat2, PercBeat3, PercBeat4,

VoiceLoop1, VoiceLoop2, PhonicLoop, SpinalLoop, Tr Loop 1, Tri Loop 2, Orch Loop

Rhythm

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Editing Programs: Chapter 6

LEVEL

The Level function allows you to control the volume, pan position, output

assignment and effects send level for each sound layer. With up to four sounds per

program, this allows for a wide variety of stereo effects and level balances between

the sounds.

Sound Volume (00 to 99)

Page 1

This sets the overall volume for a sound. Higher numbers give higher levels.

Sound Pan (<3 to 3>)

Page 2

There are 7 available pan locations in the stereo (two-channel) field: Far left (-3), mid

left, near left, center (0), near right, mid right, and far right (+3). The pan value is

maintained, even if the Output value is changed (see below).

Sound Output (Main, Aux, or Off)

Page 3

The Output parameter has three settings: Main, Aux, or Off. To send the sound’s

output to the Main outputs, select Main. To send the sound’s output to the Aux

outputs, select Aux. To turn off the sound’s output, set this parameter to Off.

(Note, however, that the sound may still feed an Effect Send).

TIP: ^{To send a sound to an individual output, use Output in conjunction with Pan.}

Example: Panning a sound full left and selecting the Aux outputs means that the

sound will appear at only the left Aux output.

Effect Level (00 to 99)

Page 4

The QSR isn’t just a synthesizer; it also has a built-in effects system and mixer, with

four effect buses and sends. This section lets you feed the sound to one of the effect

buses for processing (see Chapter 7 for more information on editing Effects). The

Effect Level parameter determines how much of the sound feeds the chosen effect

bus (see below). Higher values mean that the sound will be more effected.

Effect Bus (1 to 4)

Page 5

Selects which of the four buses the sound will feed, thereby determining which

effect(s) will process the sound. Each Program has its own unique arrangement of

effects. Example: In Program #12, bus 1 may be a Chorus/Delay/Reverb, while in

Program #27, bus 1 may just be a Flanger.

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Editing Programs: Chapter 6

PITCH

The Pitch function lets you control the pitch aspects of each sound layer.

Semitone (-24 to +24 semitones)

Page 1

Sets the oscillator pitch in semitone steps, from -24 (transposed down two octaves) to

+24 (transposed up two octaves).

Detune (-99 to +99 cents)

Page 2

Sets the oscillator pitch in cents, from -99 (transposed down 99/100 of a semitone) to

+99 (transposed up 99/100 of a semitone).

Detune Type (Normal or Equal)

Page 3

With Normal selected, the percentage of detuning remains the same over the entire

range of the keyboard, so the effects of detuning sound the same no matter which

key you play. With Equal selected, the absolute amount of detuning remains the same

over the entire keyboard, so any detuning seems less pronounced as you play higher

up on the keyboard.

Pitch Wheel Range (0 to 12 semitones)

Page 4

Determines the maximum amount of pitch bend when your MIDI keyboard’s pitch

bend wheel is full forward. Example: When set to 12, the pitch wheel will bend 1

octave (12 semitones).

Aftertouch Depth (-99 to +99)

Page 5

At +00, aftertouch has no effect on pitch. Applying aftertouch (by pressing harder on

the keyboard, or via MIDI messages) with this parameter set to a positive value

raises the pitch; conversely, applying aftertouch through a negative value lowers the

pitch. The higher the number (either positive or negative), the greater the amount of

pitch change for a given amount of aftertouch.

Pitch LFO Depth (-99 to +99)

Page 6

At +00, the pitch LFO has no effect. Higher positive values increase the amount of

Pitch LFO modulation. Negative values give the same apparent effect, but with

reversed LFO phase (i.e., if the pitch would normally be increasing with depth set to

a positive number, the pitch would instead be decreasing at that same moment had

the depth been set to a negative number). Pitch LFO parameters (such as speed and

wave shape) are programmed within the Pitch LFO Function (see page 72).

Pitch Envelope Depth (-99 to +99)

Page 7

At +00, the Pitch Envelope has no effect. Positive values raise the pitch from the

baseline according to the envelope shape, while negative values similarly lower the

pitch (see illustration below). The higher the number (negative or positive), the

greater the effect. Pitch Envelope parameters (such as attack and decay time) are

programmed within the Pitch Envelope Function (see page 61).

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Editing Programs: Chapter 6

Portamento (Exponential, Linear, 1 Speed)

Page 8

This provides the sweep’s “curve.”

•

With an exponential curve, the pitch change seems to happen more rapidly at

first, then slows down as it approaches the ending pitch.

•

A linear curve produces a constant pitch change throughout the glide.

Normally, the greater the interval (the pitch difference between the two notes),

the longer the glide. For example, a glide between two notes a whole step apart

would take much less time than a glide between two notes an octave apart. The 1

Speed curve maintains a constant glide rate regardless of the pitch difference

between notes.

About portamento: When you play a key and then a second key, normally the sound

jumps instantly from one pitch to another. Portamento provides a sweeping glide

from one note to another over a variable amount of time. A good example of this

type of sound is a steel guitar, where a note slides from one pitch to another.

Portamento Rate (0 to 99)

Page 9

Sets the glide duration. Higher numbers give longer glide times. The Rate value is

affected by the Portamento value (see above).

Keyboard Mode (Mono, Poly, 1-Pitch or 1-PMono)

Page 10

In Mono mode, you can play only one note at a time—just like vintage monophonic

synthesizers or wind instruments. Poly mode allows you to play polyphonically.

Note that portamento behavior is more predictable in mono mode.

TIP: ^{With a feedback guitar patch that uses one sound for the guitar and one sound for}

the feedback, setting the feedback sound to Mono Keyboard Mode insures that your

feedback “whistle” will be monophonic, which more accurately mimics what

happens when you play lead guitar.

Use 1-PITCH mode when you want a program sound layer to play a single pitch

polyphonically throughout the entire keyboard range. In 1-PITCH mode, the QSR

will play the sample used for note C3 for all notes in the range. 1-PITCH mode is

often used for layering a noise or drum sound behind another sound that is pitched,

for example, to fatten up a bass guitar sound with a hint of kick drum, or to have the

same cymbal hit every time any note is played. Alternatively, 1-PMONO mode is a

monophonic version of 1-PITCH.

Sometimes when playing a monophonic instrument, you will not want the envelopes

to retrigger when playing legato, as this would sound realistic. Imagine a flute-player

beginning each note in a phrase with a sharp, breathy attack. In reality, the player

would only attack the first note in the phrase this way. Therefore, if the Keyboard

Mode is set to “Mono”, the three envelopes (Pitch Envelope, Filter Envelope and

Amp Envelope) will only retrigger when playing legato if the envelope’s Trigger

Mode is set to either “Reset” or “Reset-Freerun”.

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Editing Programs: Chapter 6

FILTER

The Filter function lets you control the tone of each sound layer.

Filter Frequency (00 to 99)

Page 1

This sets the filter's initial cutoff frequency. Lower values give a duller sound since

this removes more harmonics; higher values let through more harmonics, which

gives a brighter sound.

Signals with complex harmonic structures are most affected by the filter. Examples: A

sine wave has virtually no harmonics so you will not hear any significant changes as

long as the filter cutoff is higher than the note pitch. If the filter cutoff is lower than

the note pitch, you will either not hear the note, or it will be very soft. A

harmonically-rich sample (such as brass or white noise) will be greatly affected by

the filter.

TIP:

If the Filter Frequency is set to maximum, in most cases all other variables in the

Filter function will have no effect. Most other filter functions raise the filter

frequency, and it can't be greater than 99. So if you want to use filter effects, proper

setting of this initial cutoff frequency is crucial. This is the “baseline” from which all

other filter parameters will raise or lower (open or close) the filter.

If the Filter Frequency is set to 00, and no other parameters are set to raise it

dynamically, no sound will pass through the filter at all--there will be silence. If the

Amp settings are wide open and you can't hear anything, check the Filter Frequency

setting.

Since the waveforms in ROM are recorded at the brightest possible setting, in many

cases dynamic filtering is crucial to making a program sound natural.

Keyboad Track (On or Off)

Page 2

When off, the filter cutoff remains constant across the keyboard. Higher notes will be

more affected than lower notes, since the filter cutoff is comparatively lower for

higher notes than lower ones.

When on, the filter frequency tracks the keyboard pitch. Therefore, if using the filter

creates a particular harmonic structure when you play one key, playing a different

key will shift the filter frequency to maintain the same harmonic structure.

Velocity (-99 to +99)

Page 3

At +00, velocity has no effect on the filter cutoff. With positive values, playing harder

increases the filter cutoff. More positive values drive the cutoff frequency higher for a

given amount of velocity. More negative values drive the cutoff frequency lower for

a given amount of velocity.

TIP: ^{Many acoustic instruments, such as acoustic guitars, sound brighter when you play}

them more forcefully. Adding a little positive velocity control over the filter can

simulate more realistic acoustic sounds.

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Editing Programs: Chapter 6

Modulation Wheel Depth (-99 to +99)

Page 4

Determines how moving your controller's modulation wheel affects the filter cutoff

frequency. Example: With positive settings, moving a modulation wheel up raises the

filter cutoff frequency and moving it down lowers the filter cutoff frequency. With

negative settings, moving the modulation wheel up lowers the filter cutoff frequency

and moving it down raises the filter cutoff frequency .

Aftertouch Depth (-99 to +99)

Page 5

At +00, aftertouch has no effect on the filter cutoff frequency. Applying aftertouch

with this parameter set to a positive value raises the filter cutoff frequency;

conversely, applying aftertouch with a negative value lowers the filter cutoff

frequency. The higher the number (either positive or negative), the greater the effect

for a given amount of aftertouch.

Many acoustic instruments sound brighter as you play them more forcefully; in

particular, brass gets brighter as you blow harder. Using aftertouch to increase a

sound’s brightness can give more control and realism with acoustic instruments.

TIP:

Filter LFO Depth (-99 to +99)

Page 6

At +00, the filter LFO has no effect. Higher positive values increase the amount of

filter LFO modulation. Negative values give the same apparent effect, but with

reversed LFO phase (i.e., if the filter cutoff frequency would normally be increasing

with depth set to a positive number, the cutoff would instead be decreasing at that

same moment had the depth been set to a negative number). Filter LFO parameters

(such as speed and wave shape) are programmed from within the FLFO Function

(see page 74).

TIP: ^{Filter LFO is good for giving wah-wah effects at slower LFO speeds, and for adding}

“shimmering” with higher LFO speeds.

Filter Envelope Depth (-99 to +99)

Page 7

The Filter Envelope is one of the most important settings in making a program.

Many programs will use the Filter Envelope to determine the tonal character of the

sound over time (attack, decay, sustain, and release). At +00, the filter envelope has

no effect. Positive values raise the filter from the baseline cutoff frequency according

to the envelope shape, and negative values similarly lower the cutoff frequency. The

higher the number (negative or positive), the greater the effect. Filter Envelope

parameters (such as attack and decay time) are programmed within the Filter

Envelope Function (see page 64).

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Editing Programs: Chapter 6

AMP/RANGE

The Amp/Range function lets you control the velocity and keyboard range of each

sound layer.

Velocity Curve (13 choices)

Page 1

This selects how the sound will respond to the dynamics of your playing the

keyboard. A LINEAR curve is the norm, whereby the increase in level is equal to the

increase in velocity; the velocity values increase as you play harder. Many of the

Velocity Curves make up sets to be used by 2, 3 or 4 sounds in order to facilitate

velocity crossfading, whereby a different sound is played depending on how hard or

soft the keyboard is played.

As explained earlier, many of the samples to choose from when assigning voices are

already velocity switching. These samples usually have the word “Velo” or the letter

“V” in their names, indicating that there is actually more than one sample per note

which can be selected by how hard or soft each note is played. However, the velocity

point at which these sounds change is fixed and cannot be altered. If you want to

create your own velocity crossfading Program, assign the single-sample versions of

the same samples (“MarimbaVel” is made up of “Marimba Hd” and “Marimba Sf”)

to two or more sounds, then use the appropriate velocity curves for each sound (in a

three-way velocity split, sound 1 would use curve “1 of 3,” sound 2 would use curve

“2 of 3” while sound 3 would use “3 of 3”).

LINEAR

INVERTED

MAXIMUM

MINIMUM

VELOCITY

1 OF 2

127

VELOCITY

2 OF 2

127

VELOCITY

1 OF 3

127

VELOCITY

2 OF 3

127

3 OF 3

VELOCITY

1 OF 4

VELOCITY

2 OF 4

VELOCITY

3 OF 4

VELOCITY

4 OF 4

VELOCITY

127

VELOCITY

Aftertouch Depth (-99 to +99)

Page 2

At +00, aftertouch has no effect on the amplitude. Applying aftertouch with this

parameter set to a positive value raises the amplitude; conversely, applying

aftertouch with a negative value will make the sound softer the harder you press.

The higher the number (either positive or negative), the greater the effect for a given

amount of aftertouch.

Use aftertouch to “swell” the amplitude of brass and horn parts.

TIP:

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Editing Programs: Chapter 6

Amp LFO Depth (-99 to +99)

Page 3

At +00, the Amp LFO has no effect. Higher positive values increase the amount of

LFO modulation. Negative values give the same apparent effect, but with reversed

LFO phase (i.e., if the amplitude would normally be increasing with depth set to a

positive number, the amplitude would instead be decreasing at that same moment

had the depth been set to a negative number). Amp LFO parameters (such as speed

and wave shape) are programmed within the Amp LFO Function (see page 75).

TIP: ^{Amp LFO set to a triangle wave gives tremolo effects.}

Lower Limit (MIDI note 000 to 127/ C-2 to G8)

Page

Each sound can be restricted to a specific range of the keyboard. This is ideal for

creating splits (e.g., bass in the lower octave and a half, piano in the middle three

octaves, and strings in the upper octave).

The Lower Limit specifies the lowest note of the sound’s keyboard range. You can set

the lower limit by holding [80] and tapping the key on the keyboard you want to set

as the lowest note in the range.

High Limit (MIDI note 000 to 127/ C-2 to G8)

Page 5

Specifies the highest note of the sound’s keyboard range. You can set the high limit

by holding [80] and tapping the key on the keyboard you want to set as the highest

note in the range.

QS8 Keyboard Range

A-1

108

C-2

C-1

108

C8 G8

120 127

Program Sound Range

TIP: ^{By setting the lower limit above the high limit, you can create a “hole in the middle”}

effect. This makes the sound appear to have two zones. All notes from the bottom of

the keyboard to the high limit note will play, and all notes from the lower limit to the

top of the keyboard will play, but the notes between the high limit and the lower

limit will not play. This can be further enhanced in Mix Mode by using the Range

function in Mix Edit Mode to cap-off the lower and high limits.

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Editing Programs: Chapter 6

Sound Overlap (00 to 99)

Page 6

This determines how many voices can overlap on the same pitch. Example: If you

hold the sustain pedal down and play the same note over and over, Sound Overlap

determines how many voices are available for that note, and thus how many voices

will overlap (play simultaneously).

In the old days, different brands of synthesizers offered different voice allocation

schemes. One brand used a method called “rotate mode” in which each time a note

was struck, a new voice was used. Another brand used a different method called

“reassign mode” whereby if a note is played and then played again, the same voice is

used both times. In other words, a new voice is used each time a new note of a

different pitch is played.

The Sound Overlap value lets you choose a comfortable setting between rotate mode

and reassign mode. When the value equals 99, you are always in rotate mode, using

up polyphony; if the value is 00, you are always in reassign mode, conserving voices.

Set the value anywhere between 00 and 99 and you will get a combination of both,

with partiality toward whichever mode the value is closest to.

A piano sound requires some Sound Overlap, but not a lot; it isn’t natural to hear too

many voices on the same note. On the other hand, having only one voice per pitch

isn’t natural either; let’s say you played a loud note with the sustain pedal held,

followed by a soft note--the second note would abruptly cut-off the first. On a real

piano, the string would still be resonating from the first (loud) note when the second

(soft) note was played; thus the two notes would overlap.

It is important to note that Sound Overlap can have a negative effect on polyphony.

✪

If you have Sound Overlap set to 99, hold the sustain pedal and play a series of notes,

you will run through all 64 voices in no time. By adjusting the Sound Overlap to a

lower value, you decrease the number of voices used by each new note, and thereby

ensure there are voices available to play other sounds, if necessary.

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Editing Programs: Chapter 6

PITCH ENVELOPE

The Pitch Envelope function can lead to dramatic effects, since it can cause the pitch

of a single key to change drastically over time. It’s typically used in special-effect

synthesizer programs, but it may also be used more subtly in an acoustic program to

simulate the characteristic of some instruments to go sharp on the initial attack,

especially when played hard.

The following Pitch Envelope variables will have an effect only if the PITCH ENVELOPE

DEPTH (on Page 7 of the PITCH function) is set to a value other than 0, or, if Pitch

Envelope is a source in the MOD function.

✪

Attack (00 to 99)

Page 1

This is the amount of time the envelope will take until it reaches its maximum output

level. Setting the Attack to 0 will make the pitch go to maximum immediately on

hitting the key (if the Delay is also set to 0 in Pitch Envelope, Page 5 -- see next page);

a setting of 99 will result in a much slower attack, taking many seconds before the

envelope gets to maximum.

Decay & Sustain (00 to 99)

Pages 2 & 3

As soon as the attack portion of the envelope finishes (when the level reaches

maximum), the envelope will decay (decrease in level). The level it reaches is set by

the Sustain control; how long it takes to get there is set by the Decay control. In the

special case where the Sustain level is all the way up (99), then there is no decrease

and the Decay time segment is bypassed. Whatever level the sustain is set to is the

level that the decay section of the envelope will head for. Depending on the setting of

the Sustain Decay control (see below), the envelope will either hold at the sustain

level until you release the note on the keyboard, or decay to 0 at the Sustain Decay

rate (which is on page 2 of the envelope). You can create a long "plateau" at the start

of a note by setting the Sustain to 98 and the Decay to 99. This will cause the

envelope to take the maximum amount of time to get from peak level to a level of 98,

before the Sustain Release portion of the envelope begins.

Release (00 to 99, Hold)

Page 4

Eventually, you will let go of the note that you’ve been holding (either by releasing the

note on the keyboard, or releasing the sustain pedal if it was pressed). It is at this point

that the Release portion of the envelope takes effect. The Release is the time that the

envelope takes to get from its current level back down to nothing. Setting the Release

time to 99 will take the envelope a very long time to reach zero level.

The Pitch Envelope is unique from the other two envelopes in that its Release time

can be set above 99. When this is done, the value in the display will read “Hold”.

This indicates that the Pitch Envelope will remain where it is even after the note is

released. This is important when you want the pitch effect to continue even after

releasing the key. Example: If the Pitch Envelope is bending a note up, and you don’t

want the pitch to fall when you release the key, set the Release parameter to “Hold”.

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Editing Programs: Chapter 6

Delay (00 to 99, Hold)

Page 5

This is the amount of time that the envelope will wait before doing anything; very

useful if you want to affect one element of a sound sometime after the sound starts.

When the Delay is set to 0, the envelope attacks right away, without any delay. Play

some notes while turning up the delay and see that the time between playing the

note and hearing the effect of the Pitch Envelope gets progressively longer as the

Delay control is turned up.

If the Delay is set above 99, the display will read “Hold”. This indicates that the

Delay stage of the envelope will wait indefinitely until the key is released before

continuing on to the remaining envelope stages (Attack, Decay, etc.). This requires

that the Pitch Envelope’s Trigger parameter (see next page) is set to “Freerun”.

However, when the Delay is set to “Hold”, “Freerun” mode is forced on regardless of

the Trigger parameter’s setting.

Sustain Decay (00 to 99)

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This is the amount of time that the envelope will take during the sustain stage to

bring the level down to 0. If this is set to 99, the envelope will remain at the Sustain

level until the note is released. When set to 0, the envelope’s level will immediately

jump down to 0 upon reaching the sustain stage.

Trigger (Normal, Freerun, Reset, Reset-Freerun)

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The Trigger mode determines how the envelope will function. You may select either

Freerun or Reset, or both (Reset-Freerun) or neither (Normal). When set to Normal,

the envelope will always start at its current level (i.e., if another note had been played

which triggered the envelope’s cycle, playing another note in the middle would not

interrupt the cycle). Also in Normal mode, the envelope will immediately advance to

its release stage upon releasing the note. When set to Freerun, the envelope will

complete its entire cycle, even if the note is released in the middle. When set to Reset,

the envelope starts at the beginning whenever a new note is played. When set to

Reset-Freerun, the envelope will start at the beginning whenever a new note is

played and will complete its entire cycle, even if the note is released in the middle.

If a sound layer’s Keyboard Mode parameter (found in the Pitch Function, Page 10) is

set to “Mono”, the Pitch Envelope will only retrigger when playing legato if the

Trigger Mode is set to either “Reset” or “Reset-Freerun”.

Time Tracking (On or Off)

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This determines whether or not keyboard position will affect the cycle speed of the

envelope. When turned on, playing toward the higher end of the keyboard will result

in a faster envelope cycle; playing toward the lower end of the keyboard will result in

a slower envelope cycle. However, this does not effect the attack time, but only the

decay, sustain decay and release segments. This feature will result in only a subtle

change. The envelope’s timing doubles or halves over a range of two octaves.

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Editing Programs: Chapter 6

Sustain Pedal (On or Off)

Page 9

This determines whether or not a Sustain Pedal will have an effect on the envelope.

When turned on, holding down the Sustain Pedal while playing short notes is

virtually the equivalent to holding down those notes on the keyboard with some

subtle but important differences. If the Delay and Attack are set to 0 and either the

Decay is 0 or the Sustain is 99, the envelope will immediately jump to the sustain

decay stage (if not already there) when the note is released and the sustain pedal is

held down. If a long attack is set, and the envelope does not reach the end of the

attack segment when the note is released, it will be skipped and the envelope will

jump immediately to the release segment. If a long delay is set, and the envelope has

not reached the attack segment before the note is released, the envelope will remain

at 0. However, if Freerun is turned on, the envelope will continue through the delay,

attack, decay and sustain segments and remain at the sustain decay segment. This is

exactly the same as holding down the note on the keyboard. When the Sustain Pedal

parameter is turned off, a Sustain Pedal will have no effect on the envelope.

Level (00 to 99)

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This is the overall output level of the envelope. If this is set to 00, the Pitch Envelope

will have no output and will have no effect, while at 99 it will have a maximum effect

on whatever it is being routed to.

When selecting Pitch Envelope Level as a modulation destination, set the Pitch

Envelope level to 00 if the Modulation Level is above 0 (or, set the Pitch Envelope

level to 99 if the Modulation Amount is below 0).

TIP:

Velocity Modulation (00 to 99)

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This determines how keyboard dynamics will affect the envelope level. When set to

99, note velocity controls the envelope’s output; notes played hard will deliver a

higher envelope output than notes played soft. When set to 0, note velocity will have

no effect on the envelope’s output level.

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Editing Programs: Chapter 6

FILTER ENVELOPE

The Filter Envelope function is crucial whenever you want the tonal quality of a note

to change over time, differently from its overall level. Example: When you want the

initial attack of a note to be bright, but want the sustaining part to be filtered.

The following Filter Envelope variables will have effect only if the FILTER ENVELOPE

DEPTH (on Page 7 of the FILTER function) is set to a value other than 0, or, Filter Envelope

is a source in the MOD function.

✪

Also note that the Filter Envelope may have no effect if some other modulation source, or the

basic setting of the filter, has already pushed the filter cutoff frequency to its maximum.

Attack (00 to 99)

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This is the amount of time the envelope will take until it reaches its maximum output

level. Setting the Attack to 0 will give a sharp edge to the sound (if the Delay is also

set to 0 in Filter Envelope Page 5 -- see next page); a setting of 99 will result in a much

slower attack, taking many seconds before the envelope gets to maximum.