Arturia ARP2600V User's Manual

USER’S MANUAL

ARP2600 V

Programming:

Nicolas Bronnec
Sylvain Gubian
Xavier Oudin
Cedric Rossi

Graphics:

Yannick Bonnefoy

Manual:

Jean-Michel Blanchet
Frédéric Brun
Yuji Sano
Tom Healy
Mitsuru Sakaue
Xavier Oudin
Cedric Rossi
Kentaro Wakui

Sound Designers:

Jean-Michel Blanchet
Celmar Engel
Klaus Schulze
Ruff & Jam
Kevin Lamb from Neptunes
Chis Pitman
Norikata Ubukata
Darrell Diaz
Glen Darcy
Katsunori Ujiie
Pietro Caramelli

Very special thanks to:

Celmar Engel, Mark Vail, Alan R. Perlman, Wally Badarou, Chad from Neptunes

Thanks to:

John Leimseder, Matt Lupo, Ron Kuper, Mephistoff Ellys, Pietro Caramelli
and the numerous beta testers.

© ARTURIA SA – 1999-2004 – All rights reserved.
4, Chemin de Malacher
38240 Meylan
FRANCE

http://www.arturia.com

Information contained in this manual is subject to change without notice and does not represent a commitment
on the part of Arturia. The software described in this manual is provided under the terms of a license agree­ment or non-disclosure agreement. The software license agreement specifies the terms and conditions for its
lawful use. No part of this manual may be produced or transmitted in any form or by any purpose other than
purchaser’s personal use, without the express written permission of ARTURIA S.A.
Other products, logos or company names quoted in this manual are trademarks or registered trademarks of
their respective owners.

Table of Contents

1 Introduction 5

1.1 The birth of ARP Instruments and the ARP2600 5

1.2 A better emulation thanks to TAE® 6

1.2.1 Aliasing-free oscillators 6

1.2.2 A better reproduction of analog oscillator waveforms 7

1.2.3 A better reproduction of analog filters 8

1.2.4 Ring modulator 8

2 Installation 9

2.1 Windows installation (Win9x, Me, 2000, XP) 9

2.2 Mac OS X installation 10

3 Quick start 11

3.1 Using presets 12

3.1.1 Now modify a preset 12

3.2 The 3 sections of the ARP2600 V 14

3.3 Overview of the Synthesizer 14

3.4 The sequencer 17

3.4.1 The ARP sequencer 17

3.4.2 The LFO 20

3.5 The effects 21

3.5.1 Chorus 22

3.5.2 Delay 22

3.6 Real-time controllers and MIDI assign 22

4 The interface 25

4.1 Using the presets 25

4.1.1 Choice of bank, sub-bank, preset 25

4.1.2 Creation of a bank, sub-bank, preset 26

4.1.3 Saving a user preset 26

4.1.4 Importation / Exportation of a preset bank 27

4.2 Use of controllers 28

4.2.1 Vertical linear potentiometers 28

4.2.2 Horizontal linear potentiometers 28

4.2.3 Knobs 28

4.2.4 The selectors: 29

4.2.5 Switches 29

4.2.6 Pitch Bend 29

4.3 Using cables 29

4.3.1 Audio and modulation connections 30

4.3.2 Modifying a connection 31

4.3.3 Setting the level of modulation 31

4.3.4 Separate the cables 32

4.3.5 Virtual keyboard 32

4.3.6 MIDI control 33

5 The modules 35

5.1 Sound programming cabinet 35

5.1.1 Description 35

5.1.2 The Oscillators (Oscillators - VCO) 36

5.1.3 The Filter (Filter - VCF) 39

5.1.4 The envelopes 42

5.1.5 Output amplifiers (Voltage Control Amplifier - VCA) 43

5.1.6 Noise Generator 44

5.1.7 Voltage processor (Mixer / inverter / lag generator) 44

5.1.8 Sample and Hold generator 45

5.1.9 The”electronic switch” module (Electronic switch) 45

5.1.10 Envelope follower 46

5.1.11 Ring modulator 47

5.1.12 “Tracking” generator 48

5.1.13 Reverberation 49

5.1.14 Chorus and delay effects 49

5.1.15 Control voltages (CV control) 50

5.2 Keyboard interface (Model 3620) 51

5.3 Low frequency oscillator (LFO) 51

5.4 The ARP sequencer 52

6 The basics of subtractive synthesis 55

6.1 The three main elements 55

6.1.1 The oscillator or VCO 55

6.1.2 The filter or VCF 59

6.1.3 The amplifier or VCA 62

6.2 Complementary modules 62

6.2.1 The keyboard 62

6.2.2 The envelope generator. 63

6.2.3 The low frequency oscillator. 64

6.2.4 The ring modulator 65

6.2.5 Sample and hold 65

7 A few elements of sound design 67

7.1 Simple patch without cabling 67

7.2 Polyphonic patch with cabling 70

7.3 Special effects patch with the help of the tracking generator 73

7.4 Patch using the sequencer to create a melody 76

7.5 Patch using the sequencer to create a modulation sequence 78

8 Using the ARP2600 V in different modes 81

8.1 Stand-alone 81

8.1.1 Launching the application 81

8.1.2 Setting preferences 81

8.1.3 The control bar 82

8.1.4 Information on the level of processor use 83

8.1.5 Saving an instrument 83

8.2 VST™ 83

8.2.1 Installation 83

8.2.2 Using the instrument in VST mode 84

8.2.3 Connection to a MIDI track 84

8.2.4 Saving presets 84

8.2.5 Automation 85

8.3 Pro Tools™ 85

8.3.1 Installation 85

8.3.2 The RTAS and HTDM standards 85

8.3.3 Opening the instrument 85

8.3.4 Connection to a MIDI node 86

8.3.5 Saving presets 86

8.3.6 Automation under Pro Tools 87

8.4 DXi™ 87

8.4.1 Installation 87

8.4.2 Opening the instrument (SONAR™ 2.0) 87

8.4.3 Connection to a MIDI track 87

8.4.4 Saving presets 88

8.4.5 Automation 88

8.5 Audio Unit 88

8.5.1 Installation 88

8.5.2 Using the plugin in Logic Audio 88

8.5.3 Using the plugin in Digital Performer 90

1 Introduction

1.1 The birth of ARP Instruments and the ARP2600

Alan R. Pearlman, whose initials would form the name of ARP Instruments, became interested in
instruments for electronic music as early as 1948, when he was a student at the Worcester Poly­technic Institute. This was a means for him to associate his two passions: electronic music and the
piano.

It was by commercializing the amplifier models for the NASA Gemini and Apollo programs that he
would start his career. Around 1968 he started seriously imagining the possibility of building elec­tronic instruments – after hearing a recording of “Switched-on Bach,” according to legend.

In 1969, Alan R. Pearlman, David Friend and Lewis G. Pollock created ARP Instruments (originally
called Tonus Inc.). The company, based in Newton Highlands (Massachusetts, USA), conceived elec­tronic products, but also and above all else a large modular synthesizer, the ARP 2500. The machine
used a matrix which connected the different sections of the synthesizer, instead of the traditional
cables found in the Moog Modulars. The ARP 2500 found success in American universities.

The growth of ARP instruments was fast and in 1972 the ARP 2600, probably the most legendary of
the entire range, was unveiled. This semi-modular synthesizer, conceived with an educational goal,
was to become hugely successful after a shaky start. The ARP 2600 was notably used by Stevie Won­der, Joe Zawinul (Weather Report), Tony Banks (Genesis), Jean-Michel Jarre, Herbie Hancock...
ARP was the market leader in synthesizers during the 70’s with around 40% of the market share.

In ten years, three versions of the ARP 2600 were commercialized: The first version was called
“Blue meanie” because of its steely blue finish. The “blue meanie” was quickly replaced by a sec­ond version, with a grey background finish and white silk screening (1972). This was to be more
popular. In 1978 ARP decided to change the graphic chart for all of its machines: a black background
color with orange silk screening was introduced. The ARP2600 benefited from its third and last ver­sion.

The great rival of ARP was Moog Music. The competition between the two manufacturers can easily
be seen when we observe the machines: The ARP, for example, has linear potentiometers, while the
Moog has rotating pitch bend and modulation wheels.

A well known episode of this competition was the 24 dB/octave filter, the 4012, used by the ARP.
This was a replica of the famous Moog filter. In 1973, Moog threatened ARP with legal action and
the firm decided to change the circuits on its filter. The 4072 was born and took the place of the

4012. This possessed a calibration error in the high frequencies – the maximum cut-off frequency
was less than 11 kHz instead of the 16 kHz promised in the press. Luckily the repair for users was
fast and not much of a burden. On the first ARP 2600’s, the 4012 filter was still used (this was the
case for the “Blue meanie” and on the first examples of the “grey and white”) while the models
that followed offered the 4072.

The ARP synthesizers possess very stable oscillators, more reliable than the Moog synthesizers (a
fact admitted by Robert Moog himself). On the other hand, ARP for a long time dipped the elec­tronic circuits for filtering in resin to avoid industrial piracy... this made for major problems when
trying to perform a repair.

In 1972, ARP launched the Odyssey, which would be in direct competition with Moog Music and their
Minimoog released one year earlier. The same year, the Pro-Soloist, a preset instrument, was also
unveiled.

In 1976, ARP released a small 16 step sequencer in the form of 2 independent 8 step sequences.
This became famous and is still very sought after (it is emulated in the ARP2600 V.) The same year
they presented the Omni, which would become one of ARPs biggest successes. The instrument al­lowed the combination of two polyphonic violin sounds – a great innovation for the company – and 2
monophonic bass sounds.

In 1976, ARP released a small 16-step sequencer in the form of two independent 8-step sequences.
This became famous and is still very sought after (it is emulated in the ARP2600 V.) The same year

ARTURIA – ARP2600 V – USER’S MANUAL 5

they presented the Omni, which would become one of ARPs biggest successes. The instrument al-

A

lowed the combination of two polyphonic violin sounds – a great innovation for the company – and
two monophonic bass sounds.

But in 1981, ARP was finally bought out by CBS. The following year, CBS with part of the ARP devel­opment team would produce the Chroma, a programmable polyphonic synthesizer, and in 1984 the
Chroma Polaris, a simplified and MIDI-capable version of the Chroma.

1.2 A better emulation thanks to TAE®

®

- True Analog Emulation - is a new technology dedicated to the digital reproduction of analog

TAE
circuits used in vintage synthesizers.

When implemented in software code, TAE’s algorithms guarantee authentic emulation of hardware
specifications. This is why your ARP2600 V offers an unparalleled quality of sound.

®

In detail, TAE

combines four major advances in the domain of synthesis:

1.2.1 Aliasing-free oscillators

Standard digital synthesizers produce aliasing in high frequencies, and also when using Pulse Width
Modulation or FM.

®

allows the production of totally aliasing-free oscillators in all contexts (PWM, FM…), and at no

TAE
extra CPU cost.

liasing

Linear frequency spectrum of an existing well-known software synthesizer

6 ARTURIA – ARP2600 V – USER’S MANUAL

Linear frequency spectrum of the ARP2600 V oscillator made with TAE

1.2.2 A better reproduction of analog oscillator waveforms

The waveforms produced by the oscillators in analog synthesizers are marked by the presence of a
capacitor in the circuits. The discharge of the capacitor results in a light bend in the original wave­form (notably for saw tooth, triangular and square waveforms). TAE allows the reproduction of this
capacitor discharge. Underneath is the analysis of a waveform from the original ARP2600, and that
of the ARP2600 V. They are both equally deformed by the ARP2600 V low-pass and high—pass filter­ing.

Temporal representation of a “saw tooth” waveform of the original ARP2600

Temporal representation of an ARP2600 V “saw tooth” waveform reproduced by TAE

ARTURIA – ARP2600 V – USER’S MANUAL 7

What’s more, the original analog oscillators were unstable. In fact, their waveform varied slightly
from one period to another. If we add to this the fact that the starting point for each period (in
Trigger mode) can vary with the temperature and other environmental conditions, we find one of
the characteristics that contributed to the typical sound of vintage synthesizers.

TAE reproduces the instability of oscillators, bringing a fatter and “bigger” sound.

1.2.3 A better reproduction of analog filters

TAE allows more precise emulation of analog filters than standard digital filters. To obtain this re­sult, the TAE technology is based on the analysis of the analog circuits to be reproduced, and con­verts them into algorithms that faithfully mimic the characteristics of the original filters. The curve
underneath shows the comparison of the original ARP2600 filter and that of the ARP2600 V.

Response curve of the 12
dB low-pass filter of the
original ARP2600

Response curve of the 12
dB low-pass filter of the
ARP2600 V

Response curve of the 12 dB low-pass filter of the original ARP2600 V and the ARP2600 V

1.2.4 Ring modulator

The ARP2600 V includes a ring modulator, just like the original ARP2600. The ring modulator allows
the application of a waveform (a sinusoid) to another, in order to transform it. The result is a more
brilliant sound, distorted, and enriched in harmonics. As a result of this increase in the number of
harmonics, standard ring modulation algorithms create an audible aliasing. To avoid this unwanted
effect, TAE includes a module for the dynamic control of the amplitude with aliasing correction,
which removes every trace of aliasing in the signal coming from the ring modulator.

Sine wave

form

Input

Amplitude control module (VCA)

with aliasing correction

Output

8 ARTURIA – ARP2600 V – USER’S MANUAL

2 Installation

2.1 Windows installation (Win9x, Me, 2000, XP)

 Insert the CD-ROM into the drive. Explore the contents of the CD-ROM, and double-click on the

icon named “ARP2600V Setup PC.exe”

First you will need to define an installation folder for the program. By default it will be installed in
C:\Program Files\Arturia\ARP2600V. You can change this location with the Browse button.

Next, have your license number ready and enter it along with your first and last name in the user
information window.

User information window

The ARP 2600V will firstly be installed as a stand-alone program. The following step will give you
the choice of configuring it as a plug-in as well. You will be asked to define the protocol(s) that you
use (VST, RTAS, HTDM, DXI). For more information on these protocols please see Chapter 7.

For the VST and RTAS protocols, you will be asked to choose an installation folder so that the host
application may use it as a plug-in. If you are not sure how to make this choice, please see Chapter

7.

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Choice of installation folder for SVT plug-in

The installation program now has enough information to finish the procedure. In a few seconds, you
will be using the ARP2600 V.

2.2 Mac OS X installation

Insert the CD-ROM into the drive. Explore the contents of the CD-ROM, and double click on the icon
named “ARP2600V Setup Mac”.

Enter your administrator name and password in the authentication window.

The ARP2600 V will firstly be installed as a stand-alone program. By default, all the protocols (VST,
RTAS, HTDM). will be directly installed on you computer. For more information on these protocols
please see Chapter 7.

The ARP2600 V will be installed in your applications folder. You can also define a different drive and
installation folder.

Next, have your license number ready and enter it along with your name and family name in the
user information window. The installation program now has enough information to finish the proce­dure. In a few seconds, you will be using the ARP2600 V.

Enter your license number, then your first and last name

10 ARTURIA – ARP2600 V – USER’S MANUAL

3 Quick start

This chapter will help you to familiarize yourself with the general basics of using the ARP2600 V. A
summary of the different parts of the synthesizer will be presented to you as we guide you through
your first use of the program. You will find a detailed and precise description of all settings and
controllers in the following chapters.

Chapter 7, A few elements of sound design, is highly recommended for users who have never
worked with a subtractive synthesizer and who wish to become familiar with the fundamentals in
this domain.

Overview of the ARP 2600V

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3.1 Using presets

The use of presets is one of the biggest improvements of the ARP2600 V compared to the original. In
fact, the latter was unable to save sounds!

In the ARP2600 V, a preset contains all of the parameter settings of the synthesizer, including the
synthesizer and different real-time controllers (eg: velocity, aftertouch, pitch-bend) as well as the
effects (delay, chorus) needed to reproduce a sound.

To get to know the different sounds contained in the ARP2600 V, we will use the preset “Bass1”
situated in the “JMBlanchet” / “Basses” bank.

 For this, click on the button above the “BANK” LCD display indicating “Factory” (this screen

presents the name of the current bank). By clicking here you will see a menu appear containing

the list of available banks. Choose the bank “JM_Blanchet” (the bank name is checked) .
When this menu is open, sub menus can be accessed (in the fashion of a drop-down menu). This
system lets us access the “SUB BANK” and “PRESETS” for a sound designer with a single click.

 Choose the “SUB BANK” “Basses” and select “JMB_bass1” among the “PRESETS”.

Select the preset JMB_bass1

The ARP2600 V ships with more than 300 presets that will help you to get to know the sounds of the
synthesizer. A bank named “User / Temp” offers a selection of template presets for beginning the
programming of a sound (the sound “1_Osc”, for example, comes with: an oscillator directed to the
low-pass filter, and then routed towards the VCA).

It is also possible to visualize the entirety of the presets corresponding to a type of sub bank by
selecting the option “All” in the bank. For example, to see all of the bass presets, click on “All” in
the bank selection and then on “Bass”.

3.1.1 Now modify a preset

For this, we will start with a very simple manipulation.

 Modify the brightness of the sound “JMB_Simple1” with the linear “Initial Cutoff Frequency”

potentiometer of the filter. Raise or lower the potentiometer and notice the sound become

more or less “bright”. Set this potentiometer to a pleasing value.

12 ARTURIA – ARP2600 V – USER’S MANUAL

Change the brightness of the sound

 In the same manner, you can change the range of oscillator 1 by setting the “Range” selector to

one of the values expressed in steps: LF = low frequencies, 32’ = -2 octaves, 16’ = -1 octave, 8’
= standard tuning, and 4’ = + 1 octave.

Setting the range of oscillator1

By performing these first settings, you have already modified the preset “JMB_Simple1”. You will
now see how to save the sound that you have created.

 To choose another destination for the sound, click on the “Save as” icon and choose the loca-

tion. For example select “new” in the choice of bank. Two new banks, sub banks and a preset
are immediately created. The names “new bank”, “new sub bank…” and “new preset…” appear
in their respective displays.

 Click on each of these displays to rename the 3 parts.

Saving a preset

To save a user preset (“Users”), click on the “Save” icon in the toolbar: The new settings will be
saved in the current preset without changing the name (but if the selected preset is one of the
“factory” presets, the factory setting will not be overwritten).

Attention! It is important to specify that changing the name of a preset does not create a new one!
Only the name of the current preset will be changed.

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3.2 The 3 sections of the ARP2600 V

The ARP 2600V offers three main sections separated into flight cases:

From top to bottom:

The synthesizer, the sequencer / LFO / general settings, and keyboard

To access the different parts of the ARP2600 V there are two simple methods:

 Click on a part of the synthesizer that des not have any controllers (potentiometers, switches..)

or jacks, then slide the mouse towards the top or the bottom without releasing.

Slide the mouse towards the top or bottom

 Click on one of the three shortcuts , and situated on the toolbar to quickly

move from one section to another:

• The

• The

• The

(SYNTHESIZER) section brings you to the synthesizer.

(SEQUENCER and KEYBOARD) section brings you to the sequencer.

(“ALL”) section brings you all the interface of the ARP2600 V

If you are in the “All” section, you can resize the window by clicking on the 2 arrows situated on the
right of the 3 sections shortcuts.

3.3 Overview of the Synthesizer

The “SYNTH” section contains 73 synthesis parameters as well as jack inputs and outputs that you
can connect to one another with virtual cables. The potentiometers or switches associated to these
parameters will help you to create an infinite variety of sounds.

These parameters are made up of:

• Three oscillators (VCO) which release the audio signal through wave forms (triangle,
sinusoid, saw-tooth, square and rectangle) and which manage the pitch (frequency)
of the sound.

• A noise module.

• A ring modulator

• A sample / hold module.

• A mixer acting on the signals coming from the oscillators, noise module and ring

modulator.

• A low-pass resonant 24 dB filter and multimode 12 dB (LP, HP, BP and notch)

• An amplifier (VCA) allowing the amplification of the signal coming from the filter

and its direction towards the stereo output.

• Two envelopes (ADSR and AR) modulating the low–pass filters and amplifier.

14 ARTURIA – ARP2600 V – USER’S MANUAL

Synthesis parameters

Let’s look at quickly creating an evolving lead sound:

 To really understand the programming of the ARP2600 V, let’s use a very simple sound. Select

the preset “1_Osc” in the “Template / Temp_Synth” sub bank. The structure of synthesis for
this sound is relatively simple: the square wave form oscillator1 is active and the signal is di­rected through the low-pass filter after an intermediary mixer, and then on to the output ampli­fier. An ADSR envelope modulates the filter cut-off frequency and a second envelope, AR,
modulates the volume of the amplifier.

The following block diagram recaps the architecture of the creation of the sound:

The routing taken by the sound of preset “1_Osc”

 Start by reducing the low-pass filter cut-off frequency (LPF). This will dampen the sound.

For this, set the linear “Initial Cutoff frequency” potentiometer (for fine tuning, use the “Fine
tune” potentiometer).
Notice that the filter cut-off frequency is modulated by an ADSR envelope (Attack, Decay, hold ­Sustain – and Release).

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Change the brightness of the sound

 To clearly hear the effect produced by the ADSR envelope on the filter cut-off frequency, in-

crease the resonance value. This will amplify the filtering effect on the sound and it will begin
to “whistle”.

increase the resonance value

 Change the attack length of this envelope (“Attack time”) so that the brightness increases

faster or slower when the note is sent.

Change the attack length of the ADSR envelope

 In the same manner, change the value for the decay, and the brightness will increase faster or

slower while you hold the note on the keyboard.

The “Decay time” parameter on the filter envelope

Now let’s perform a short modification on the second envelope, the “AR” envelope.

16 ARTURIA – ARP2600 V – USER’S MANUAL

 Increase the “Attack time” for this envelope so that the volume of the sound progressively in-

creases.

Increase the “Attack time” of the AR envelope

3.4 The sequencer

The “SEQ” section gives you access to the sequencer as well as different functions allowing an ex­tension of the possibilities of synthesis and playing. It is situated under the “Synth” section. It con­tains a sequencer identical to the 16 step ARP (model 1601) sequencer, a module for play settings,
and a low frequency oscillator (LFO) which was added as a complement to oscillator2 which was
often used as LFO.

3.4.1 The ARP sequencer

The ARP sequencer greatly increases the possibilities for sound and melodic creation. It allows you
to create two simultaneous 8-step melodic lines, or one 16-step line (by putting two 8-step lines in
a series). It is also possible to modulate any parameter of synthesis through one of the two se­quencer outputs.

The ARP sequencer

The ARP sequencer contains 3 parts:

From left to right:

• The two lines of faders and selector switches situated at the top give access to the
tuning of the 16 steps as well as management of their triggering (gates).

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The two lines of faders and selector switches

• The oscillator sets the speed of the sequencer as well as the start and stop.

set the oscillator speed

• The “Quantizer” quantifies the values for the 16 steps by semi-tone.

the quantizer section

Let’s take a simple melodic sequence for example:

 Load the preset “Template”/ “Temp_SEQ”/ “1x16_sequencer”

You will notice that the connexions between the sequencer and synthesizer are already done:

18 ARTURIA – ARP2600 V – USER’S MANUAL

the connexions between the sequencer and synthesizer

 The “Clock Out” sequencer output is directed to the “Gate” input on the ADSR envelope mod-

ule.

 The sequencer “Quantized A Out” output is directed to input “KBD CV” of the “VCO 1” module.
 Start the sequencer by clicking on the “Start” button. This “turns” in a loop and you will hear

the repetition of the melody.

click on the “Start” button

 You can change the settings of the 16 linear potentiometers to create an other melody.

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Set the 16 linear potentiometers

3.4.2 The LFO

On the original ARP 2600, oscillator2 could be set to low frequency position (“LF” position in the
range) for use in LFO mode. Although practical, this solution prevented us from using 3 oscillators
simultaneously and a slow modulation on the filter cut-off frequency for example.

Thanks to the LFO module situated on the “Keyboard control” module of the “All” mode, you can
keep the third oscillator as base sound and obtain an additional source of modulation for one of the
13 available destinations. It is also possible to synchronize the clock speed of the LFO to that of the
MIDI sequencer by clicking on the “MIDI sync” interrupter.

Apply two additional types of modulation to the preset “1_Osc”:

 For example: the LFO is “pre-cabled” to obtain a vibrato (simultaneous frequency modulation)

of the two oscillators. Simply raise the linear potentiometer “Vibrato Depth”, situated on the
LFO module, to create this effect.

Raise the “Vibrato Depth” potentiometer

 Another example would be to click on the LFO triangle output and direct the cable to the “VCO2

sin” modulation input of the filter module. Raise the potentiometer above it. Lower the cut-off
frequency to hear the result more clearly. The brightness of the sound will vary in a cyclic fash­ion, to the rhythm of the LFO.

20 ARTURIA – ARP2600 V – USER’S MANUAL

Modulate the filter frequency (“Cutoff Frequency”) with the LFO

3.5 The effects

The effects section lets you add a Stereo Delay and Chorus to your sound on top of the reverbera­tion which is already present in the original instrument. The two effects can be found in the place
of the left speaker grid on the synthesizer.

To open it, click on the “open Effects” button under this grid.

Open the effects grid

ARTURIA – ARP2600 V – USER’S MANUAL 21

3.5.1 Chorus

Chorus is used to copy your sound, and slightly detune the copy, to give it more depth and the Cho­rus “ON/OFF” button in the effects section, on the right of the toolbar.

 Set the Chorus “Dry/Wet” potentiometer to balance the “raw” sound and the one returning

from the effect.

 Next turn the Chorus “Rate” potentiometer to set the speed of the oscillations.
 Finally set the depth of the chorus using the “Depth” potentiometer.

the chorus effect settings

3.5.2 Delay

Delay brings a stereo echo effect to bring more space to your sound.

It possesses independent settings for the speed and number of repetitions for the left and right
sides. It is also possible to create a large number of rhythmic combinations between the repetitions.
The delay speed can also be synchronized with the MIDI tempo.

Let’s keep the preset “JMB_Simple1” and see how to use the effects on this sound:

 Activate the “Delay” button on the toolbar. The effect becomes active.
 Set the Delay “Dry/Wet” potentiometer so as to balance the “raw” sound with the one coming

from the delay.

 Next turn the two Delay “Speed” potentiometers to set the rate of echo repetitions for the right

side (Time Right) and left side (Time Left).

 It is also possible to set the number of repetitions for each side (“Feedb. Right” and “Feedb.

Left”).

The Delay effect settings

3.6 Real-time controllers and MIDI assign

Like its brilliant ancestor, the ARP2600 V is particularly adapted to real-time playing. One of the
main improvements when compared to the original is that we can assign any potentiometer on the
ARP2600 V to an external MIDI controller.

Here’s an example of assigning:

 Click on the “Initial Cutoff frequency” potentiometer of the filter while keeping the Ctrl button

held down. A MIDI assign dialog appears.

 Click on “Learn” and then move the MIDI controller of your choice (the modulation wheel for

example). The ARP2600 V potentiometer will start to move at the same time.

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 You can then record movements from your MIDI controller on your MIDI sequencer or simply play

live.

MIDI assign for “Cutoff frequency” potentiometer

Attention ! The MIDI assign settings are only saved when you quit the ARP2600 V application – be it
standalone or plug-in.

To save the settings that we have seen in this chapter, click on the “Save” button in the toolbar.

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4 The interface

4.1 Using the presets

The presets memorize the ARP2600 V sounds. A preset contains all of the inter-module connections
and the different controller information necessary for the recreation of an identical sound. In the
ARP2600 V, presets are classed in “banks” and “sub-banks”. Each bank contains a certain number of
sub-banks, which determine a type of sound: sub-bank “basses”, sub-bank “sound effects”, etc.
Each sub-bank contains a certain number of presets.

The ARP2600 V comes with several “factory” sound banks. It is possible to create new “user” sound
banks, each containing an arbitrary number of sub-banks and presets. For security, the “factory”
settings are not directly modifiable. It is, however, possible to modify a sound based on a factory
preset and to record it to a “user” bank.

4.1.1 Choice of bank, sub-bank, preset

The banks, sub-banks and presets being currently used are always displayed in the synthesizer tool­bar.

display of bank, sub-bank, and preset being used

To choose a preset in the current sub-bank, click on the button on the left of the current preset, a
drop-down menu appears with a list of presets from the same sub-bank. You can choose another
preset in the menu by selecting the corresponding line. Once the preset has been chosen, you can
play the new sound from your MIDI keyboard or sequencer.

choice of preset in the same sub-bank

To choose a preset in the same main bank, but in a different sub-bank, click on the button on the
left of the current sub-bank, a drop-down menu will appear with the list of sub-banks contained in
the same main bank. Each sub-bank in the menu allows you to open a sub-menu containing its pre­sets. A click on a preset lets you directly choose a preset in the new sub-bank.

To choose a preset in another main bank, click on the button

. A drop-down menu appears with
the choice of the main banks that are available, and the sub-lists corresponding to the sub-banks
defined in each main bank and the presets contained in each sub-bank. You can now freely choose a
preset by clicking on its name.

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Once a preset has been changed (modification of a controller or connection), an asterisk appears
next to its name in the tool bar.

In the “BANK” dropdown menu, the “All” option allows you to open a sub-list with all of the sub­banks available in all of the banks. This gives you access directly to all of the presets of a given
type, for example all of the basses, no matter which bank they are in.

This function is particularly useful to quickly see all of the presets of the same type.

the “All” option

4.1.2 Creation of a bank, sub-bank, preset

To create a new bank of sounds, click on the button on the left of the current bank. In the drop­down menu, select “New bank...” to create a new bank of sounds. You can then change the name
of this bank by clicking on its name in the toolbar and typing the new name.

To create a new sub-bank, again just click on the button on the left of the current sub-bank, and
select “New sub bank...”. You can also change the name of the new sub-bank.

Finally, to create a new preset, click on the button on the left of the name of the current preset
and select “New preset...”. The new preset is created using the current ARP2600 V settings (con­trollers and connections). You can then work on the settings of the sound, and save it by clicking on
the save button (see the next paragraph). You can also change the new preset name by clicking on
its name.

4.1.3 Saving a user preset

To save your current settings under the current preset, click on the “Save” button on the ARP2600 V
toolbar.

26 ARTURIA – ARP2600 V – USER’S MANUAL

“Save” button on the toolbar

If you want to save your preset under a different preset name, click on the “Save As” button in the
toolbar. A drop-down menu will appear allowing the choice of either an existing preset (in this case,
the preset contents will be replaced by the current setting), or to save your preset as a new preset
(in this case, click on “New Preset…” in the sub-bank of your choice).

“Save As” menu on the toolbar

 When you are working on a factory preset, which cannot be erased, clicking on the “Save” but-

ton will not replace the current factory setting, but will automatically open the “Save As” func­tion to save the current setting as a user preset. Click on the “New bank” option. The three LED
displays indicate “New”: you can click on each of these displays to give it a name or save your
setting as a new preset (in this case, click on “New preset...” in the sub-bank of your choice).

the “New preset...” option

4.1.4 Importation / Exportation of a preset bank

It is possible to import new preset banks created for the ARP2600 V. To import a new bank of pre­sets, click on the preset bank import button in the toolbar:

Preset bank import button on the toolbar

When you click on this button, a dialog appears allowing the choice of ARP2600 V preset bank files
(.AMB file type on PC, AMpB file type on Mac). Choose the file that you want to import, and click on
“Open”. The new preset bank will automatically appear in the available banks.

The ARP2600 V also offers the option to export your own sound banks to save them, use them on
another machine, or share them with other users. It is possible to export a preset, a sub-bank, or a
complete bank. To export a bank, sub-bank, or current preset, click on the export preset bank but­ton on the toolbar:

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