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1. Envelope Signal Envelope Signal Envelope Signal w Positive CV at w Negative CV at Rate Input Rate Input figure 22 27 ENVELOPE GATE INPUT This input accepts a footswitch or gate signal Pressing the footswitch or applying a gate signal 5V triggers both envelopes when On External is selected by the ENV GATE switch RELEASE INPUT This input accepts a footswitch or gate signal Pressing the footswitch or applying a gate signal 5V enables the Release of the Envelopes regardless of the position of The Release switch on the Left Hand Controller panel 28 E MAIN OUTPUT OUTPUT MASTER VOLUME HEADPHONE VOLUME The Voyager has two audio outputs There is a VCA for each output which allows for stereo effects such as Panning or the Dual lowpass filtering The main control for the Volume is the Master Volume Control The Volume Envelope modulates the output VCAs When only one output is desired the two output VCAs are mixed to the left output LEFT MONO and RIGHT OUTPUTS These are the audio outputs that are on the back panel They are both 4 unbalanced outputs When only the left audio output has a plug inserted into it both the left and right signals are summed to that jack in mono MASTER VOLUME This is the main Volume control Full clockwise is maximum output full counterclockwise silences the Voyager VOLUME CONTROL INPUT Accepts a 0 to 5 V control voltage or an Expression pedal such a
2. But how do you get the outputs back to the inputs Enter the VX 3511 The VX 351 Voyager CV expander is an add on product to your Voyager that contains all the CV and gate outputs on 4 jacks There are a total of 19 CV outputs and 2 gate outputs In addition there are two attenuators for reducing the strength of a CV signal and two 4 way mults for sending a single CV signal to multiple control destinations The supplied cable connects the VX 351 to the Voyagers 68 accessory port With the VX 351 be prepared to have a lot of fun making new sounds with your Voyager The following instructions cover Getting Started Understanding the VX 351 Documenting your work Using the VX 351 and the minimoog Voyager together Adding a moogerfooger CP 251 to the mix Connecting other CV compatible equipment Technical Information GETTING STARTED with the VX 351 Important Please read the instructions before attempting to use the VX 351 with your minimoog Voyager 1 Inspect the contents of the carton It should include The VX 351 A 6 cable with db 25 connectors on each end An Output adapter to be installed inside the Voyager The adapter must be installed prior to connecting the VX 351 An installation guide for the Output adapter You will need the following A place close to your Voyager to set your VX 351 if you have purchased the optional rack mount kit for the VX 351 you ll need a 19 e
3. Change 2 1 MIDI In Channel 2 2 MIDI Out Channel 2 3 MIDI In ON OFF 2 4 MIDI Out ON OFF 3 1 Send Panel Sound 3 2 Send All Presets 3 3 Receive Presets 3 4 SysEx Device ID 4 1 Transpose In Out 4 2 MIDI Key Order 4 3 Velocity Curve 4 4 Copyright Info 5 1 Software Version 5 2 Send System ROM 5 3 Send Boot System 5 4 Receive Update The 1 1 buttons scroll through the list The list will wrap around when you scroll past the end When a line is highlighted it can be selected by pressing the ENTER button Once a line is selected the screen displays that option Press the MASTER CURSOR or ENTER button to return to the MASTER Menu 1 1 LCD CONTRAST When this is selected use the 1 1 buttons to change the LCD contrast Different angles of the front panel may require different contrast settings for comfortable viewing of the display 1 2 MIDI LOCAL KYBD Local Control On Off for the keyboard This tums off the keyboard s internal connection to the Voyager This is used in the case you do NOT want the keyboard to trigger the Voyager s envelopes or change the pitch of the oscillators This is commonly used when triggering the Voyager from a sequencer and prevents accidental interference with the notes being played by the sequencer This does not disable the functions of the front panel controls 1 3 MIDI MERGE FUNC Tums MIDI merge On Off With Merge ON a MIDI message appearing at the Voyager s MIDI in is sent to the Voyager s MI
4. Linear Frequency modulation of oscillator 1 by 3 Oscillator 3 keyboard control on off and Oscillator 3 Lo or Hi frequency range The frequencies of the Oscillators are controlled by a number of sources The main source is the keyboard The keyboard outputs a voltage that allows the oscillators to be played in an equal tempered scale The glide circuit can be switched in between the Keyboard CV and the oscillators to slow the changes between notes The Keyboard CV is mixed with the Octave switch CV the Frequency control oscillators 2 and 3 the Pitch Bend Wheel the Pitch CV In on the back panel the fine tune control and the output of the Mod Busses when the Pitch destination is selected OCTAVE Oscillator Octave switch 6 positions Each Oscillator has a switch labeled Octave that selects the relative frequency range To hear how it works turn off oscillators 2 and 3 with the mixer Turn Oscillator 1 on and set its level to 5 Play a note on the keyboard and rotate the Oscillator 1 octave switch clockwise one click the note will rise an octave You can use this control to change the frequency range that the keyboard controls The markings 32 up to 1 are octave standards based on organ stops On the 16 setting the highest A on the keyboard should be A440 FREQUENCY Oscillator 2 and 3 Frequency control Oscillators 2 and 3 have a Frequency control When the control is in the center position the oscillators should be in tune
5. Pi P S Ia 1 Waveform Osc 2 Waveform when synced to Osc 1 3 gt 1 FM Direct Linear Frequency Modulation of Osc 1 by Osc 3 When an Oscillator is used as a CV source for another VCO it is called Frequency modulation Frequency Modulation effects can vary from vibrato or trill effects to clangorous inharmonic sounds to rich timbres that evoke acoustic sounds Linear FM is the kind of Frequency Modulation used in classic FM synths GLIDE Glide enables a glissando effect between notes There is a switch on the left hand controller panel that enables this effect The knob labeled glide adjusts the rate of glide The glide can vary from a very fast to a very slow glide CONTROL INPUTS FOR THE OSCILLATOR SECTION There are two inputs on the back panel that accept CVs or expression pedals that affect the oscillator section They are labeled Pitch and Wave The Pitch input controls the frequencies of all three oscillators A one volt change of this voltage will change the pitch by approximately one octave The Waveform input controls the waveforms of all three oscillators A 5 Volt Change of this voltage will sweep the oscillator waveforms through their entire range Plugging in an expression pedal like the moogerfooger EP 1 ring 5 5 supply to the pedal tip variable CV return produces control voltages from 0 V to 5 V at either control input 21 C FILTERS FILTERS CUTOFF RESONANCE nn x C i 0 KB CONT AMOUNT CETE
6. and press ENTER The Screen will prompt Reset the Env Gates Filter Amplitude for all Preset Sounds Yes No Select Yes and press ENTER 2 4 Power On Screen The Power On Screen functions allows the user to select the original Voyager power on logo or the new version 2 5 power on logo There is no difference in performance but the new Power On screen displays the Moog logo and the software version To change the appearance of the Power on screen select Power On Screen and press ENTER The screen prompts Get the old Power ON Logo on the display screen Yes No Select No and press ENTER 5 1 SOFTWARE VERSION Displays the current System ROM version and date of the release 5 2 SEND SYSTEM ROM This utility allows you to back up your operating system via Sysex data This screen displays the prompt Press Enter to send Prog Data The boot software version will be displayed on the bottom line Before you press enter be sure the remote device is enabled to receive the data Pressing ENTER will start the export We recommend backing up the operating system before upgrading to a new version of software 5 3 SEND BOOT SYSTEM This utility allows you to back up your boot software via Sysex data This screen displays the prompt Press Enter to send Boot Data The boot software version will be displayed on the bottom line Before you press enter be sure the remote device is enabled to receive the data Pressing ENTER will start the
7. pressing the PANEL button accesses the PANEL mode Menu There are four items in this menu QUICK MODE PARAMETER DISPLAY HEADPHONE VOLUME MASTER VOLUME QUICK MODE QUICK MODE is used to determine whether the presets change by simply pressing the 1 or 1 button or by a combination of 1 1 and ENTER QUICK MODE 1 1 changes presets is ideal for auditioning Presets Disabling QUICK MODE is designed for performing live where the user may want to call up a new preset while continuing to play the current preset The new preset only becomes active when the user presses the ENTER button PARAMETER DISPLAY PARAMETER DISPLAY is used to monitor changes to the values of a presets parameters When PARAMETER DISPLAY is active a change in the position of a knob or switch on the front panel causes the display to show the presets stored value and the new value simultaneously The last parameter changed is displayed HEADPHONE VOLUME HEADPHONE VOLUME is used to determine whether the stored Headphone Volume value is loaded when a new preset becornes active This is useful in case your presets have stored a high Headphone Volume value or if you ve changed to a different set of headphones and the volume is drastically louder than norrnal MASTER VOLUME MASTER VOLUME is used to determine whether the stored Master Volume value is loaded when a new preset becomes active This is useful if your preset bank contains unusually loud presets or presets
8. CURSOR to get back to the Master Mode menu 1 4 Shaping 1 amp 2 The Shaping 1 amp 2 function restores the default settings for the Programmable Mod Buss Shaping Sources The defaults for both sources are fixed value value 0 To restore the default settings for Shaping 1 amp 2 sources select the function Shaping 1 amp 2 and press ENTER The screen will prompt Reset Shaping 1 amp 2 Functions of all Preset Sounds Yes No Select Yes and press ENTER 2 1 Clock Divider 42 The Clock Divider function restores the default settings for the clock divider parameter stored in the presets The default value is 24 which is an 8 note half a beat To restore the clock divider values to their defaults select tne function Clock Divider and press ENTER The screen will prompt Reset the Clock Divider Values of all Preset Sounds Yes No Select Yes and press ENTER 2 2 Pot Mapping The Pot Mapping function restores the default settings for the Pot Mapping parameters stored in the presets Select the function Pot Mapping and press ENTER The screen will prompt Reset the Pot Mapping function of all Preset Sounds Yes No Select Yes and Press ENTER 2 3 Env Gates F A The Env Gates F A function restores the default settings for the Filter and Amplitude Envelope Gates parameters stored in the presets The default is ENV Gate Input To restore the default Envelope gate settings select the function Env Gates F A
9. MIDI Key Order and press ENTER The screen will prompt MIDI In Key Order is not active Use the Buttons to select if this is not active or 1 16 then confirm by pressing ENTER If you are using a single Voyager make sure this feature is not active especially if using with a MIDI sequencer 4 3 VELOCITY CURVE This adjusts the Velocity values of the Voyagers MIDI Note On output to one of three different curves Soft Normal or Hard Soft increases the average velocity output so playing with a lighter touch creates a higher velocity value Normal is the unprocessed 41 velocity output from the keyboard Hard requires a harder touch to output higher velocity values 4 4 COPYRIGHT INFO FACTORY SETUP MENU Copyright Info shows the copyright dates as well as the author of this software Rudi Linhard Thanks Rudi This is the entry page to the Factory Setup menu simply press the 1 button to see the Factory Setup Menu These functions are used for initializing parameters in the Voyager s Preset bank While in the Factory Setup Menu press CURSOR or MASTER to retum to the Master Mode Menu The Factory Setup Menu has two pages of functions the each function has a page number and a line number Here they are 1 1 Factory Sounds The Factory Sounds function is to restore the Voyager to its default factory state Performing this function will wipe out any presets in memory and replace them with the standard Voyager Performer Edi
10. Mod Wheel Amount Pedal Amount Osc 1 Octave Osc 1 Wave Osc 2 Frequency Osc 2 Octave Osc 2 Waveform Osc 3 Frequency 52 Osc 3 Octave Osc 3 Waveform Ext Audio Level Osc 1 Level Osc 2 Level Osc 3 Level Noise Level Filter Cutoff Filter Spacing Filter Resonance Filter KB Control Amount Filter Attack Filter Decay Filter Sustain Filter Release Filter Envelope Amount Volume Attack Volume Decay Volume Sustain Volume Release Master Volume Headphone Volume Available Pot Mapping Destinations are Pitch Bend Mod Wheel Pressure Velocity Attack Note On Velocity Velocity Release Note Off Velocity Foot Pedal 1 Mod 1 Input acts like Mod Wheel for Pedal On Mog Foot Pedal 2 Mod 2 Input The On Mod 2 Source of the Mod Busses Key Pitch CV from Keyboard LFO Rate Glide Rate Mod Wheel Amount Pedal Amount Osc 1 Octave Osc 1 Wave Osc 2 Frequency Osc 2 Octave Osc 2 Waveform Osc 3 Frequency Osc 3 Octave Osc 3 Waveform Ext Audio Level Osc 1 Level Osc 2 Level Osc 3 Level Noise Level Filter Cutoff 53 Filter Spacing Filter Resonance Filter KB Control Amount Filter Attack Filter Decay Filter Sustain Filter Release Filter Envelope Amount Volume Attack Volume Decay Volume Sustain Volume Release Master Volume Headphone Volume The next parameter available in
11. OMINGS ccr IV The Voyagers Components NIU ET D Envelope Generators sskssasrarrrrr riri rr arrar s E Audio Outputs icssssssssseeneeee nene Pe MOG BUSSES esc iaeaea ete an ote er tc ds G LFO Sample and Hold H Keyboard and Left Hand Control Panel sssss The Touch Surface Controller sss J The Back Panel sss eene K The User Interface Voyager Software version 2 5 1 The Interface nne Appendix A Caring for your Voyager ssssssseeene Appendix B Service and Technical Support Information Appendix C List Of Presets Appendix D MIDI Implementation Chart iie Appendix E VX 351 User s Guide ssssssee enn Note Specifications subject to change without notice Moog Music Inc 2002 2003 All rights reserved MUSIC INC g l Getting Started For those of you who can t wait to read the manual perfectly understandable when you have a brand new synthesizer the following are the important steps to get you going with your new Voyager Once the adrenaline subsides a bit you will find this manual to be an excellent guide to exploring the outer reaches of your minimoog Voyager Check the contents in the shipping carton The Voyager comes in a carton with a removable lid and contains the following The minimoog Voyager itself a power cord and the bag that contains the manual and warranty registration card What you will need In addition
12. a triangle and square wave It is also used to trigger the Sample and Hold The touch surface controller can control three parameters X Y A simultaneously The position of a finger on the touch pad generates a control voltage for horizontal X position and a control voltage for vertical Y position Pressing on the touch surface causes a CV based on the area A of the fingertip A light touch causes less of your fingertip to touch the pad a heavy touch causes more contact with the touch surface 16 IV The Voyager s Components A MIXER EXTERNAL The Mixer combines the main sound sources of the Voyager It s the place to start when creating a new sound from scratch or figuring out how a sound is put together All the sound sources can be turned on or off and their levels can be adjusted The sound sources available are External Audio Input Oscillator 1 Oscillator 2 Oscillator 3 Noise Source Each sound source has both an on off switch and a level control When working with the Voyager it is important to keep track of which sound sources are on and which are off The audio output of the mixer goes to the filter There is an insert jack on the back of The unit where an external effect can be inserted in between the mixer and the filter This can also be used as direct output of the Mixer Note that this output is before the Volume envelope If an Oscillator is selected and its level is above zero its s
13. but not off all the way 35 I TOUCH SURFACE CONTROLLER The touch surface controller is a real time three dimensional control surface It can be used to impart complex gestures to the sound of the Voyager by touching it moving a finger around on it or tapping it A movement from left to right is the X axis up and down is the Y axis and the amount of area covered is the third control signal generated called A The movements in the X and Y axes and the area covered on the Touch surface produce three separate control signals which can be routed to a number of the Voyager s parameters The control signals generated by the Touch Surface can be routed two ways Destinations are programmed in a preset in EDIT Mode using the Touch surface Destinations item There are 32 possible destinations selectable for each axis the setup of destinations can be saved in a Preset The Touch Surface X and Y axes can be selected as Programmable Mod Buss Sources using the Edit function PGM Mod Whl Source or PGM Pedal Source Details on programming the touch surface destinations are contained in the section covering EDIT Mode With the touch surface controller there is no right and wrong way to use it Experimentation is the key It is an exciting way to explore synthesis performance with 3 control signals generated from a single finger in contact with the touch surface it is like turning three knobs at the same time giving you the
14. dB Oct 3 pole 18 dB Oct or 4 pole 24 dB Oct This can be done in EDIT mode with the items Filter A Poles and Filter B Poles 25 D ENVELOPES ENVELOPES KEYBOARD ON EXTERMAL When we think of a musical sound say a plucked string we think of it as having a start and an end In the case of a plucked string it begins with a burst of energy and then slowly fades out until it is silent In synthesis terms this is called an envelope a shape that defines the changes that occur in a sound over time An envelope can define any aspect of a change in sound volume timbre or pitch for example The Voyager has two envelope generators When triggered these circuits produce control voltages that vary as determined by the attack decay sustain and release controls The Attack control determines the character of the onset of the sound A short attack time corresponds to a sudden sound like a percussion instrument or a plucked string A long attack time corresponds to a gradual onset of sound like a plane flying overhead or the slow crescendo of a bowed string instrument The Decay is the second stage in the evolution of a sound before it sustains or dies out For instance with a plucked string the sound begins with a burst of energy which begins quickly then drops back to a lesser level of energy and then proceeds to fade out from there The decay is the time that it takes for the signal to drop down to the level set by the S
15. envelopes will sustain as long as a gate signal is still present When the gate is off the release of the envelope happens The Switch labeled Keyboard On External selects whether the envelopes are triggered from the keyboard on or from an external trigger source When Keyboard triggering is selected the envelopes are triggered from the keyboard gate signal When the switch is set for On external the Envelopes are on if nothing is plugged into the external trigger input In this case the envelopes sustain at the level determined by the sustain controls This is useful for keeping the envelopes sustaining without holding a key down when you want to process an external audio signal through the filters with out using the keyboard or create drones When On external is selected and a footswitch or external gate signal is applied to the envelope gate input on the back panel the envelopes are triggered from that input RATE CONTROL INPUT The Control Input on the back labeled RATE is a CV input for external control of the Voyager s Envelope time constants The Input accepts 5 to 5 Volts or an expression pedal like the EP 1 An expression pedal or a positive voltage applied here decreases the attack decay and release times from where the front panel is set for both the filter and the volume EGRs A negative voltage will increase The attack decay and release times from where the front panel is set for both the filter and the volume EGRs figure 22
16. export 5 4 RECEIVE UPDATE This utility is used to upgrade the system software Updates will be available from time to time on our website www moogmusic com in Minimoog Voyager section entitled software Instructions for upgrading the software are provided with the files you must follow these instructions To take advantage of this feature requires the following A computer with internet access and MIDI interface MIDI Software capable of sending a generic Sysex bank file syx or Standard MIDI file mid Many sequencers are capable of opening Sysex files and sending Sysex data If you do not own one of these check out MIDI OX a MIDI utility software for PC available online at www midiox corn For Mac there is a program called Sysex that provides the same function Many sequencers can be used to import the Standard MIDI file versions mid of the software be sure you understand fully the settings in your sequencer that may affect the transmission of Sysex data It is beyond the scope of this manual to explain how to import or open files containing SysEx data in the many different MIDI programs available it is the user s responsibility to know and be familiar with this aspect of the upgrade If you have questions about your software s capabilities to send large SysEx messages contact your software vendor If you do not own a computer special arrangements will need to be made for software upgrades Please contact t
17. octave cutoff slope and a 4 pole filter has a 24dB octave cutoff slope The classic Moog filter is a 24dB octave lowpass filter With the Resonance control a peak is created at the cutoff frequency fig 19 Resonant Peak amplitude frequency Frequency response of a Lowpass filter with Resonance figure 19 22 When the resonant peaks of the lowpass filters pass through the overtones of the sound being filtered those overtones are reinforced This gives the filter a nice character that sounds vocal quacky or zappy depending on how it s used When The resonance is turned up past 8 the filters begin to self oscillate at the cutoff frequency producing a sine wave tone The Keyboard Control Amount control sets how much the filters cutoff frequencies track the keyboard note that is played As you play higher on the keyboard the cutoff frequency goes higher too The Voyager features two filter modes Dual Lowpass and Highpass Lowpass DUAL LOWPASS MODE The Voyager s dual Lowpass filter mode features two lowpass filters which are routed to the left or right audio output The Cutoff knob controls the frequency cutoffs of both filters The filters can be set to the same cutoff frequency or different cutoff frequencies with the Spacing control figure 20 When the two filters are set at different cutoff frequencies and routed to two different speakers what you hear is a fantastically swirly and vocal sound halfway between a phase
18. of semitones you wish to transpose up or down The values set here are not remembered on power down they must be set each time the Voyager is powered on if this function is used If the Voyager is controlling a device such as a drum machine or sampler where drum sounds are mapped to low MIDI Note number values then Keyboard transpose can be used to lower the values of the Voyager s MIDI Note On values However if you do not want this to affect the pitch of the Voyager then do the following things first make sure the Voyager s MIDI Merge function is Off Second Connect the Voyager s MIDI out to the drum machine or sampler Third if you are recording sequences including the Voyager make sure the drum Machine or samplers MIDI input is echoed to the output connect the MIDI out to the Voyager s MIDI In Fourth in the Voyagers Master Mode tum Local Keyboard control OFF and then go to the Transpose In Out function Finally lower the Keyboard Transpose Semitone Value 24 semitones then set the MIDI Key Transpose Semitone value to 24 Semitones The result is that the Voyager can trigger MIDI notes 2 octaves lower yet sound the same 4 2 MIDI KEY ORDER The MIDI Key Order function allows multiple Voyagers to function together as a polyphonic synth Up to 16 Voyagers can be Linked together to create a 16 voice synth The Value of the MIDI Key Order Number assigns the Voyager to one of 16 voices on the MIDI input To use this function select
19. related Their waveforms look chaotic White noise is an innharmonic sound that contains equal amounts of all frequencies A frequency spectrum is a graph of harmonics vs their amplitude a waveform is a graph of the amplitude of a sound vs time figure 5 amplitude I Sine Wave 100 Hz Frequency 100 Hz amplitude 100 300 500 700 4y Sawtooth Wave 200 400 600 i Frequency 100 Hz 7 amplitude 2 Square Wave 100 300 500 700 Hz Frequency 100 Hz amplitude s Triangle Wave 100 300 500 700 Frequency 100 Hz Hz figure 5 In general synthesis refers to the generation of sound through a group of amplified circuits over which the programmer performer has power to change volume pitch timbre and articulation The Minimoog Voyager is based on what is called subtractive synthesis This method of synthesis employs a harmonically rich think bright sounding source material and then removes frequency components To create the desired sound The basic components of subtractive synthesis and Their definitions follow Oscillator A circuit tnat electronically vibrates When used as a sound source an oscillator is the electronic equivalent of a vibrating reed or string When amplified an oscillator produces a pitched sound whose frequency is determined by one or more control voltages see below for more info Changes to these voltages correspond to changes in pitch An oscillators vibration can have diff
20. the controls and how they interact in order to understand how a sound or lack thereof is produced The best way to accomplish this is to start with a simple patch such as the Default Program shown on p 47 of this manual It can be accessed by the Initialize Parameters function in Edit Mode With this Preset active a single Oscillator Osc 1 is the sound source Try the controls right of the mixer first one at a time and notice how they affect the sound Then try combining different tones with the mixer and Oscillators 2 and 3 Finally experiment with the Mod Busses to see how different types of Modulation affect the sound To find out how the factory presets are programmed try the Parameter Display function if you need to turn it on refer to p 49 of this manual Go through each control and change it then see what the stored value is you will start to get a picture of how that preset is put together For a thorough understanding of the Voyager and it s workings continue on with this manual Il THE BASICS OF ANALOG SYNTHESIS For those getting started in the world of electronic music let s take a few moments to go through the basics of sound and synthesis This will help you understand what the front panel controls do In order to understand synthesis one must have a basic working knowledge of The characteristics of sound There are a few key terms that cover the basics Sound audible vibrations of air pressure E
21. 1 1 COMPARE TO PRESET The COMPARE TO PRESET function in EDIT mode can be used to compare the current Panel sound to any other preset in the Voyager s Preset bank Applications for this include comparing an edited version of a sound fo its original version in memory or to find a preset location that you do not use where you can store your Current Panel Sound To use this function select Compare to Preset and press ENTER The screen prompts Cursor toggles between Panel sound and Preset Panel gt Preset Pre set 001 Note that the sound that is currently heard when the Voyager is played is highlighted The CURSOR button is used to change between the panel sound and a preset The Preset number can be changed with the buttons 1 2 RECALL LAST SOUND RECALL LAST SOUND is a function that returns to a previously edited version of a sound This is used in conjunction with PANEL Mode If you are in PANEL Mode and make changes to a preset and then press ENTER the sound reverts to the original saved settings If you want to get back your tweaks Press the EDIT button to enter EDIT mode 45 RECALL will be highlighted Press ENTER and the display will prompt Recall the last edited sound Yes No Use the cursor button to select Yes and press ENTER You will now hear the changes you made to the preset At this point if you want to keep those changes you can save the preset RECALL can also be used to retum to a preset sound a
22. 7 Velocity Note On O O Note Off Oo Oo After o oO Touch Pitch Bend o O tTransmit CC1 31 MSB 33 63 LSB CC Control 65 127 Change Ot O Receives CC 1 31 MSB 33 63 LSB 65 88 Program le O Change True 0 127 0 127 O oO Must be enabled System Exclusive System X X Common System X X Real Time Aux X X Messages Notes T See User Documentation for list of parameters and their corresponding CCs Mode 1 Omni On Poly Mode 2 Omni On Mono Mode 3 Omni Off Poly Mode 4 Omni Off Mono O Yes X No 67 Appendix E VX 351 User s Guide Introduction Flash back to the late 60 s Back in the day a synthesizer was a behemoth of panels and patch cords They were known as modular synthesizers because each function of the synthesizer was contained in a single module A synthesizer was a collection of modules and the instrument produced no sound until the proper connections were made by patch cables from module to module This approach afforded the synthesist serious creative flexibility and the results of creative what if tried this type of thinking yielded amazing results The downside of this approach to synthesis is Space a good modular synth takes a lot of space Time coming up with a sound from the ground up takes a lot of practice patience and time Repeatability documenting a creative sound is laborious and not always accurate Mucho dinero a good modular synth ta
23. 948 1990 www moogmusic com Minimoog Voyager User s Manual SKUZMAN MIN 01 78
24. DI out and is combined with the Voyager s 39 internally generated MIDI messages When sequencing this function should be turned off to prevent double triggering caused by a MIDI loop 1 4 MIDI PRG CHANGE Program Change Receive On Off This enables or disables the Voyager s reception of MIDI program changes When this is off only the 1 buttons change the Voyager s presets 2 1 MIDI IN CHANNEL When this is selected use the 1 1 buttons to select the MIDI Channel that the Voyager recognizes The Voyager only responds to one channel at a time The choices are 1 16 2 2 MIDI OUT CHANNEL When this is selected use the 1 1 buttons to select the MIDI Channel that the Voyager uses to send Data The Voyager sends MIDI on one channel at a time The choices are 1 16 2 3 MIDI IN ON OFF This turns On or Off the MIDI Input To use select MIDI In On Off and press ENTER The screen will prompt Switch ON the MIDI In function Yes No Use CURSOR to select Yes to tum on the MIDI input and No to turn Off the MIDI input then Press ENTER 2 4 MIDI OUT ON OFF This turns On or Off the MIDI Output To use select MIDI Out On Off and press ENTER The screen will prompt Switch ON the MIDI Out function Yes No Use CURSOR to select Yes to tum on the MIDI Output and No to tum Off the MIDI Output then Press ENTER 3 1 SEND PANEL SOUND For outputting single presets as a SysEx file This function allows the export of a sing
25. Envelope i Signal time Gate Signal time figure 9 11 Low Frequency Oscillator Also called an LFO this is a special type of voltage controlled oscillator that oscillates primarily below the range of human hearing LFOs are typically used as a source of modulation For instance an LFO with a triangle waveform at about 6 Hz modulating the pitch of a VCO sounds like vibrato The same LFO with a square wave will sound like a trill figure 10 An LFO modulating a voltage controlled amplifier will sound like a tremolo LFO Signal Audio Waveform Frequency Modulated by LFO figure 10 Sample and Hold This is a circuit with an input for a control voltage and an input for a trigger Each time the trigger is fired the circuit takes the voltage that appears at the input and holds it at the output until the next time the circuit is triggered An LFO is a common way to trigger a sample and hold or S amp H circuit When an LFO is applied to the trigger input and a random signal such as white noise is applied to the CV input a random stepped voltage will appear at the output in time with the each cycle of the LFO figure 11 3 White Noise S amp H Input Square Wave S amp H Trigger S amp H Output figure 41 Glide Also called portamento is the slowing down of pitch changes as you play different notes on the keyboard In synthesizers a rate is specified that determines how fast the glide between notes is These ter
26. IMPORTANT SAFETY INSTRUCTIONS WARNING When using electric products basic precautions should always be followed including the following 1 Read all the instructions before using the product 2 Do not use this product near water for example near a bathtub washbowl kitchen sink in a wet basement or near a swimming pool or the like 3 This product should be used only with a cart or stand that is recommended by the manufacturer 4 This product in combination with an amplifier and headphones or speakers may be capable of producing sound levels that could cause permanent hearing loss Do not operate for a long period of time at a high volume level or at a level that is uncomfortable If you experience any hearing loss or ringing in your ears you should consult an audiologist 5 The product should be located so that its location does not interfere with its proper ventilation 6 The product should be located away from heat sources such as radiators heat registers or other products that produce heat 7 The product should be connected to a power supply only of the type described in the operating instructions or as marked on the product 8 The power supply cord of the product should be unplugged from the outlet when left unused for a long period of time 9 Care should be taken so that objects do not fall and liquids are not spilled into the enclosure through openings 10 The product should be serviced by qualified pers
27. Pot Mapping is Direction Choices are Normal or Inverted Normal means as the value of a Source is increased the value to the Destination is also increased Inverted means the opposite as a Source s value is increased the value to the Destination is decreased Finally the Amount can be selected 4 choices are available Off 25 50 or 100 The percentages refer to the percentage of the Destination s total range that the Source affects Pot Mapping is a very powerful addition to the Voyager s front panel controls as it creates the ability to route controls to more than one destination A simple use is for the controlling of Volume with the Keyboard s Note On velocity a common modulation in modern synthesizers More arcane uses of Pot mapping exist for instance using the pitch Bend wheel to control Pitch bend and filter cutoff This creates a timbral transformation of a sound as its pitch is being altered The possibilities for expressive personalized presets boggle the mind 6 1 LFO MIDI CLOCK DIVIDER When the LFO sync switch is set to MIDI a MIDI Clock signal retriggers the start of the LFO cycle The clock divider calculates a new retrigger signal based on the MIDI Clock signal The divider has 96 values with 48 divisions per beat The values create the following rhythms 96 Half note 2 beats of the MIDI Clock signal 72 dotted quarter note 1 beats of the MIDI Clock signal 48 quarter note 1 beat o
28. Pressing the 1 or 1 buttons will access a new preset If the sound does not change then Quick mode is not active simply press ENTER to load the new sound Presets 001 128 are loaded with sounds from the factory There are a total of 128 locations in memory for presets all are user programmable Note that once a preset is called up you can tweak the parameters to your liking If you make changes to a preset and want to retum to the original sound simply press ENTER If you want to save your changes refer to the section on Saving Presets on p 48 Any changes made to a preset will be gone if they are not saved To operate exclusively from the Front Panel and not from the Presets the actual panel parameters must be loaded This is done by pressing the EDIT button to enter EDIT mode then use the 1 button to highlight REAL PANEL CONTROL Press ENTER and you will see The prompt Load actual panel parameter Yes No Use CURSOR to select Yes and press ENTER The sound produced by the Voyager is now determined by the settings of The front panel independently of preset mernory When working with the Voyager keep in mind that many of the controls are interactive so there is frequently more than one way to control a single parameter For instance if the sustain level of the Volume Envelope is all the way down and the attack and decay times are at zero there will be no output It is really important to understand the workings of all
29. RI DUAL MIGHPASS LOWPASS LOWPASS Ahh the Moog filter the sound that started it all Filters are used for transforming the character of an audio signal Filters are used to modify a sound by stopping some frequencies and allowing others to pass through An important term regarding filters to understand is Cutoff Frequency This is a frequency at which frequencies begin to be rejected There are different types of filters Some of the most common and most musically useful are lowpass highpass and bandpass A lowpass filter behaves as its name indicates it allows low frequencies through and rejects high frequencies A highpass is filter does the opposite It passes all frequencies above the cutoff and rejects the frequencies below the cutoff A bandpass comes from a lowpass and highpass filter put together The lowpass filter defines a maximum frequency that will pass through and the highpass filter defines a minimum frequency that will pass through What s left is a band of frequencies that will pass through the filters hence the name bandpass Another aspect of filters is their cutoff slope This refers to how many dB per octave frequencies are rolled off beyond the cutoff frequency The number of poles in a filter determines the cutoff slope Each pole adds 6cB to the cutoff slope Therefore a 1 pole filter rolls off frequencies at 6db octave a 2 pole filter has a 12dB octave cutoff slope 3 poles makes for a 18dB
30. T This jack accepts an expression pedal or control voltage from 5 to 5 Volts A positive voltage here adds to the position of the LFO Rate control a negative voltage here will subtract from the position of the LFO Rate control LFO SYNC INPUT This jack accepts a footswitch or 5 V Gate input Closing the footswitch or applying a gate here will retrigger the LFO Waveform SAMPLE AND HOLD INPUT This jack accepts an expression pedal or control voltage from 5 to 5 Volts The Voltage here is applied to the Sample and Hold Input SAMPLE AND HOLD GATE INPUT A 5 Gate signal will trigger the Sample and Hold Circuit 34 H KEYBOARD AND LEFT HAND CONTROL PANEL The Voyager has a 44 note keyboard 3 octaves F to C like the original minimoog Unlike the original minimoog the keyboard can produce velocity CVs a pressure CV and transmit MIDI note on messages To the left of the keyboard is the Left Hand Controller Panel It features the Pitch Bend and Mod Wheel controls and the glide and release switches PITCH BEND WHEEL This control affects the pitch of all three oscillators MOD WHEEL This control sets the amount of modulation that is sent to the Modulation destination of the Mod Wheel Mod bus GLIDE This switch turns on and off the GLIDE circuit RELEASE This switch is used to shorten the Release time of both the filter and Volume envelopes You will notice that with very long release times the release is shortened
31. VCAs The Envelopes section contains one ADSR envelope generator for the Filters and one ADSR envelope generator for the Output VCAs The audio path is illustrated in figure 14 Voyager Audio Signal Path Mixer External Audio In a Osc Filters Output VCAs 14 Control Signal Path VCOs VCFs VCAs and EGRs Output Filter Envelope Volume Envelope Keyboard CV 4 Pitch Bend Keyboard Gate When a key is pressed A Gate and Pitch CV are produced by the keyboard The Gate signal is used to trigger both the Filter and Volume Envelopes The Pitch CV is used to determine the pitch of the Oscillators and can be applied to a varying degree to the Filters through the Keyboard Control Amount knob figure 15 Modulation is performed through the Modulation Busses There are two separate Mod busses One is controlled by the Mod Wheel while the other is controlled by the MODI CV input If nothing is plugged into the MODI CV Input then the PEDAL ON bus is on at the level determined by the Amount control In each Mod Bus a Modulation Source Shaping signal and Destination are selected An overall maximum modulation amount can be set with the Amount control The Modulation CV paths are illustrated in figure 16 Control Signal Path Modulation Busses Modulation sources Mod Wheel Mod Bus Modulation Destinations MODI Pedal Input figure 16 15 The LFO is assigned through the MOD Busses It features
32. Value 0 64 LO 65 127 HI External Audio Level 14 MSB 46 LSB Extemal Audio On Off 81 Value 0 64 Off 65 127 2On Osc 1 Level 15 MSB 47 LSB Osc 1 On Off 82 Value 0 64 Off 65 127 2On Osc 2 Level 16 MSB 48 LSB Osc 2 On Off 83 Value 0 64 Off 65 127 2On Osc 3 Level 17 MSB 49 LSB Osc 3 On Off 84 Value 0 64 Off 65 127 On Noise Level 18 MSB 50 LSB Noise On Off 85 Value 0 64 Off 65 127 On Filter Cutoff 19 MSB 51 LSB Filter Spacing 20 MSB 52 LSB Filter Resonance 21 MSB 53 LSB Filter KB Control Amount 22 MSB 54 LSB Filter Mode 86 Value 0 64 Off 65 127 2On Filter Envelope Attack 23 MSB 55 LSB Filter Envelope Decay 24 MSB 56 LSB Filter Envelope Sustain 25 MSB 57 LSB Filter Envelope Release 26 MSB 58 LSB Filter Envelope Amount to Filter 27 MSB 59 LSB Volume Envelope Attack 28 MSB 60 LSB Volume Envelope Decay 29 MSB 61 LSB Volume Envelope Sustain 30 MSB 62 LSB Volume Envelope Release 31 MSB 63 LSB Envelope Gate Switch 87 Value 0 64 Off 65 127 2On Master Volume 7 MSB 39 LSB 61 MIDI CLOCK When the LFO SYNC switch is set to MIDI a MIDI clock signal retriggers the start of the LFO cycle similar to the way Oscillator Sync works Because the Voyager has an analog LFO the LFO Rate itself is not automatically set to the clock frequency just the st
33. ace is no longer made 5 3 T S MEMORY GLOBAL This adds memory to the direct destinations of Touch surface X and Y When the user s finger is removed from the touch surface the last X and Y values are remembered until the next time contact is made with the touch surface 5 4 POT MAPPING SOURCE DESTINATION Pot Mapping is a new feature in Version 2 5 software that allows up to 4 different modulation routings different tnan the Mod Busses In the Edit Menu select Pot Mapping and press ENTER The Pot Mapping Menu appears showing Source and Destination Maps 1 4 Select a map and press ENTER The screen now shows a Source SRC a Destination Dest a Direction and Amount The CURSOR Button moves between the different parameters and the 1 buttons select the values The available Pot Mapping Sources are Performance Controls Pitch Bend Mod Wheel Default Source for SRC amp DEST Map 3 Pressure Velocity Attack Note On Velocity Default Source for SRC amp DEST Map 1 Velocity Release Note Off Velocity Foot Pedal 1 Mod 1 Input acts like Mod Wheel for Pedal On Mod Buss on if nothing is plugged into jack Default Source for SRC amp DEST Map 4 Foot Pedal 2 Mod 2 Input The On Mod 2 Source of the Mod Busses On if nothing is plugged in to this jack Key Pitch CV from Keyboard Default Source for SRC amp DEST Map 2 Front Panel Controls LFO Rate Glide Rate
34. alue inverted means arge to small increases the destination s value For the Gate Normal means the Gate signal turns a switch ON Note This turns 3 KB Cont OFF When the Gate is OFF No contact w the Touch Surface the switch is OFF Inverse means a Gate Signal from the Touch surface turns the destination switch off and when the Gate is OFF the Switch is ON AMOUNT OFF 5096 or 10096 This parameter sets the amount of touch surface modulation of it s destination Each axis can be set independently OFF means 51 that axis does not modulate the destination 5096 means that the amount of the touch surface output adds 5096 of the total range of that control to its present value For example if the Filter cutoff is the destination of touch surface x the amount is set to 5096 and the Cutoff knob is fully counter clockwise the maximum X value all the way to the right would make a change in the filter cutoff equal to turning the Cutoff knob to the mid position When the amount is set to 10096 the touch surface output equals the full range of the destination s control 5 2 T S MEMORY MOD BUSS TOUCH SURFACE MEMORY is for allowing the last known X and Y parameters of the touch surface to be held in memory after contact is no longer made with the touch surface This is for the X and Y signals used as the programmable Sources in the MOD BUSSES When this function is off the X and Y values return to zero after contact with the touch surf
35. and CP 251 is very much like having a small Modular synthesizer The nice thing is that the most basic connections are already made in the Voyager and the VX 351 CP 251 combo adds more modulation possibilities The following examples use the CP 251 in addition to the Voyager These patches can get a little more complicated make sure you have plenty of good patch cables handy A Inverting the keyboard CV to the Filters This is a handy little trick that can be used to lower the filter Cutoff as you play higher on the keyboard This is similar to certain acoustic instruments like a cello whose tone gets duller as higher notes are played Initialize the Voyager s parameters Turn the Voyager KB Cont Amount down to 0 Using a Ya cable connect one end to the VX 351 KBD Pitch Output Connect the other end to the CP 251 Mixer 1 Input Using a Ya cable connect one end to the CP 251 Mixer inverting out connect the other end to the Voyager s Filter Cutoff Input Set the CP 251 s Mixer 1 Input level and the Output level to 10 Set the Offset control in mid position Play a scale up the keyboard from low to high notice that the sound gets much duller Adjust the Output Level of the CP 251 and the Offset amount to taste B Lag generator used to add glide to Filter This is a way to apply a portamento effect to the Filters of the Voyager Initialize the Voyager s parameters Using a 4 patch cable connect one end to
36. art of the LFO cycle Adjusting the LFO Rate to a different rate relative to tne MIDI clock signal can yield some interesting LFO patterns To learn how to use this Call up a preset that has audible LFO modulation and a sustaining tone Switch the LFO sync switch to MIDI Make sure the Clock divider value is maximum Send a MIDI clock signal to the Voyager Now slow the LFO rate down all the way and play a note and hold it You should here the LFO triggered at every second MIDI tick Now increase the LFO rate until it closely matches the half note tempo of the song You have now synced the LFO to the tempo of the music Because the LFO is triggered by the MIDI clock it can t drift off tempo System Exclusive SysEx messages transmitted and received include Single Presets Preset Banks Operating System System ROM and Boot System 62 Appendix A Caring for your Voyager Clean the Voyager with a soft moist cloth only do not use solvents or abrasive detergents The finish of the wood cabinet can be cleaned with a guitar polish or a fine furniture polish Heed the safety warnings at the beginning of the manual Don t drop the unit If shipping your Voyager we recommend the original shipping carton or an ATA approved Road Case Shipping the Voyager in a non ATA or packaging other than the original carton will void The warranty When setting up the Voyager be sure your stand or table is capable of holding at least 50 Ibs O
37. audio in prior to the filter stage The Mixer output signal send appears at the tip of the jack The return signal appears at the ring of the jack A cable plugged into the jack breaks the connection between the mixer and the filter Unless the Return signal is sent to the ring of the jack no signal will pass through to the filter The level settings in the mixer affect the output level so keep this in mind as you try different devices in this loop This insert point is a great spot to insert a distortion or waveshaping device a phaser ring modulator or delay effects figure 17 External Effect Ring to Audio In Audio Out to Tip sleeve gt Ring send Tip return Mix out Filt In N Dual Filters Mixer figure 17 18 B OSCILLATORS OSCILLATORS 3 3 KB CONT 3 FREQ The Oscillators are the main sound source of the Voyager The oscillators in the Voyager are all analog Voltage Controlled Oscillators or VCOs They feature a temperature regulation circuit that provides them with excellent tuning stability The VCOs can produce a total musical range of 8 octaves In addition the frequency of oscillator 3 can be set to sub audio 20Hz vibrations for use as a second LFO Oscillator One performs as a master oscillator to which Oscillator 2 and 3 are tuned The timbres of the oscillators are adjusted by their variable Waveform controls In addition there are switches for Oscillator 2 sync to 1
38. c emphasis at the cutoff frequency This control affects the lowpass filters but not the highpass filter When the Resonance control is all the way down the lowpass filters act as a tone control rolling off high end as the Cutoff control is turned down As the resonance increases the filter begins to form a peak at the cutoff frequency As the Cutoff control is swept the peaks reinforce the harmonics of the signal being filtered are reinforced creating an effect that is vocal or zappy As the Resonance is turned up the peak increases in strength until the control is set to 8 or higher when it begins to self oscillate creating sine waves with the same frequency as the cutoff frequency KEYBOARD CONTROL AMOUNT The Keyboard Control Amount knob allows the Filter Cutoff to follow the key played on the keyboard A higher key will cause a higher cutoff frequency This allows a sound to retain its brightness as it is played higher on the keyboard FILTER CONTROL INPUT The Control Input on the back labeled FILTER is a CV input for external control of the Voyager s filter cutoff control The Input accepts 5 to 5 volts or an expression pedal like the EP 1 The voltage applied here is added to where the front panel Cutoff control is set A one volt change in this control voltage will change the cutoff frequencies of both filters by about one octave FILTER POLES Each Filter s Cutoff Slope can be changed Select 1 pole 6 dB Oct 2 pole 12
39. capability to morph sounds in a variety of ways 36 J THE BACK PANEL The Back Panel is loaded with Jacks In addition to the Audio Outputs there are a multitude of CV and gate inputs the MIDI connectors a BNC outlet for a gooseneck lamp the accessory port and the power connector POWER CONNECTOR This is a standard AC power inlet Use only a power cord designed to mate with this receptacle The Voyager power supply is designed to work with power inputs of 100 240 VAC DANGER Do not alter this connector in any way Doing so can result in the risk of shock injury or death Be familiar with the safety instructions printed at the beginning of this manual If the connector should be damaged refer servicing to qualified personnel only MIDI CONNECTORS These are connectors for MIDI in out and thru BNC LAMP CONNECTOR This is a 12 VDC BNC outlet for a gooseneck lamp CV EXPRESSION and GATE FOOTSWITCH INPUTS The CV Expression inputs are color coded with red nut These jacks accept an input from an expression pedal such as the EP 1 or a CV from 5 to 5 Volts The Gate Footswitch Inputs are color coded with blue nuts All Gate inputs accept footswitches except the Sample and Hold Gate Input It accepts only a 5 Volt Gate Signal ACCESSORY PORT This is designed for accessories from Moog Music The vx 351 Voyager CV Expander It contains the output of the analog gates and CVs from the Voyager With the VX 351 the Voyager b
40. d is used like the Mod wheel to fade in and out the desired modulation With nothing plugged into the MODI input the Arnount control of the Pedal On bus determines the strength of modulation Here s a block diagram of a Mod bus figure 23 Modulation Sources LFO Triangle Wave LFO Square Wave e Oscillator 3 9 Sample and Hold e On MOD2 Input e Noise Programmable Input e Filter Envelope Velocity e Pressure e On Programmable Shaper e Modulation Shapers Performance Control Mod Bus Amount All Oscillators Pitch Oscillator 2 Pitch Oscillator 3 Pitch e Filter e All Oscillators Wave o LFO Rate Programmable Destinatior Modulation Destinations Mod Wheel or MODI Input figure 23 30 There are three modifiers to the Amount of modulation the Amount control the Shaping CV and the Mod Wheel or MODI input level The Amount level is the final level control which sets how much both the Mod Wheel MODI Input and the shaping CV allow the mod source through to the mod destination To try out a simple modulation set the LFO to about 6 Hz the Source to triangle wave the destination to Pitch the shaping to on and the amount to 5 The Mod Wheel can be used to fade in the modulation which should sound sornething like vibrato This is a simple use of a mod bus The flexibility of the two Modulation Busses offer a wealth of modulation possibilit
41. e bottom half of the touchpad referred to as T S Characters can be selected by using the 1 button or by moving your finger horizontally across the top half of the touchpad Available characters are space amp 0123456789 lt gt ABCDEFGHIJ KLMNOPQRSTUVWXYZ _ abcdefghljkimnopaqrstuvwxyz j The Voyager s keyboard is also a data entry device for the naming of presets It is fortuitous that the number of white keys on the Voyager s keyboard is 26 the number of letters in the English alphabet Thus the lowest note F A and the highest note C 7 when used to enter letters in the Preset name function The following is a list of the keys and their functions 56 curso backward cursor forward shi Once a name is entered it must be saved to be stored in memory Below is the routine for saving presets 6 4 SAVE PRESET SAVE PRESET allows the user to store all the Voyager s current front panel settings Pitch Bend Amount Programmable Mod Sources and Destinations Keyboard Mode Trigger Mode and Preset Narne to one of 128 Mernory locations To save your edited sound enter EDIT mode use the 1 buttons to highlight SAVE PRESET and press ENTER The screen displays across the top line EDIT STORE TO PRESET X where X is the current preset number Below that the preset name that is already stored in memory is displayed Use The 1 buttons to select the preset location where you want to s
42. e 0 15 Tri 16 31 Squ 32 47 Osc 3 48 63 S H 64 79 On Mod2 80 127 Noise PGM Mod Wheel Destination 69 Value 0 15 Pitch 16 31 Osc 2 32 47 Osc 3 48 63 Filt 64 79 Wave 80 127 LFO Rate PGM Mod Wheel Shaping 70 Value 0 31 Filt Env 32 63 Velocity 64 95 Aftertouch 96 27 On PGM Mod Wheel Amount 6 MSB 38 LSB Pedal On Source 71 Value 0 15 Tri 16 31 Squ 32 47 Osc 3 48 63 S H 64 79 On Mod2 80 127 Noise PGM Pedal On Destination 72 Value O 15 Pitch 16 31 Osc 2 32 47 Osc 3 48 63 Filt 64 79 Wave 80 127 LFO Rate PGM Pedal On Shaping 73 Value 0 31 Filt Env 32 63 Velocity 64 95 Aftertouch 96 127 On PGM Pedal On Amount 8 MSB 40 LSB Osc 1 Octave 74 Value 0 15 325 16 31 16 60 32 47 8 48 63 4 64 79 2 80 127 1 Osc 1 Waveform 9 MSB 41 LSB Osc 2 Frequency 10 MSB 42 LSB Osc 2 Octave 75 Value 0 15 32 16 31 165 32 47 8 48 63 4 64 79 2 80 127 1 Osc 2 Waveform 11 MSB 43 LSB Osc 3 Frequency 12 MSB 44 LSB Osc 3 Octave 76 Value 0 15 32 16 31 16 32 47 8 48 63 4 64 79 2 80 127 1 Osc 3 Waveform 13 MSB 45 LSB 1 gt 2 Sync 77 Value 0 64 Off 65 127 2 On 3 gt 1 FM 78 Value 0 64 Off 65 127 0n 3 KB Control 79 Value 0 64 Off 65 127 On 3 Frequency Lo Hi 80
43. e LFO modulating the Filter s Cutoff Changing the RATE of the LFO will change the rate that the Filter cutoff goes up and down This demonstrates a basic patch with the VX 351 With all the CV and Gate connections you make it is important to think of a Source or Output in this case the LFO triangle wave and a Destination or Input in this case the Filter Control Input Now disconnect the cable from the Voyager s Filter Control and connect it to the IN of one of the Voyager s Attenuators Set the Attenuator amount to Zero Take another 4 cable and connect it from the VX 351 Attenuator OUT to the Filter Control Input Play a note and gradually increase the Attenuator amount You will notice that the amount of modulation will increase An Attenuator is used to set the amount of a CV Source that passes to the Destination This is a very basic use for the VX 351 but it shows the fundamental concept of how to use it source goes to destination Using this fundamental concept you can patch together additional modulation and get as complex as you like What follows is a detailed explanation of the output signals and the other functions contained in the VX 351 70 Understanding the VX 351 The VX 351 is organized by section similar outputs are grouped together Here s the rundown TOUCH This group of outputs is generated from the Touch Surface Controller There are three CVs X Y and A and one gate signal X This is t
44. echsuppot moogmusic com When entering the RECEIVE UPDATE screen the screen will ask if you are sure you want to upgrade the software Selecting YES will initialize the memory and enable the Voyager to receive the Sysex data containing the new Operating System software There is no danger of losing the current Software if your MIDI software is not properly configured The new operating system does not become active until the Sysex data transfer is confirmed as successful 44 3 EDIT Mode EDIT Mode is used to determine parameters of a preset not accessible through the front panel and to name and save presets EDIT mode is entered by pressing the EDIT button When this is done a list appears that displays the different options Using the 1 or 1 buttons moves the cursor to highlight a new line There are four items per page and 6 pages The page number and item number are displayed in the EDIT menu The Options in EDIT mode are 1 1 Compare to Preset 1 2 Recall last Sound 1 3 Real Panel Contr 1 4 Pitch Bend Amt 2 1 PGM M Whl Source 2 2 PGM M Whl Dest 2 3 PGM Pedal Source 2 4 PGM Pedal Dest 3 1 PGM Shaping 1 SRC 3 2 PGM Shaping 2 SRC 3 3 Keyboard Modes 3 4 Trigger Modes 4 1 Fil A Pole Sel 4 2 Fil B Pole Sel 4 3 Fil ENV Gate SRC 4 4 Amp ENV Gate SRC 5 1 T S Destinations 5 2 T S Mem Mod Bus 5 3 T S Mem Global 5 4 Pot Mapping S D 6 1 LFO Clock Divider 6 2 Init Parameters 6 3 Preset Name 6 4 Save Preset
45. ecomes more like a modular synth Appendix E contains the users manual for the VX 351 37 K THE USER INTERFACE VOYAGER SOFTWARE VERSION 2 5 1 The Interface The interface for the minimoog Voyager s software functions is in the center of the instrument figure 25 figure 25 OI rz Et 8 ANALOG SYNTHESIZER PANEL EDIT MASTER ENTER CURSOR The display is a LCD screen in the center When the unit is first powered on the screen will read the message 2 0 ViIsooOGPe I The message will stay on the screen for approximately 5 seconds then the screen will display the current active preset Note that the LED above the button labeled PANEL is lit The sound produced will be the last sound used before the Voyager was powered down previously There are three operating modes for the Voyager MASTER Used for accessing Global settings for the Voyager and data send and receive functions EDIT Used for editing parameters of a preset not accessed through the front panel Naming and saving presets is done in EDIT mode PANEL Used for accessing the Voyager s presets and performance functions The Voyager contains 128 presets 38 2 MASTER Mode MASTER mode accesses the global settings for the Voyager and the routines for sending and receiving data To enter MASTER mode press the MASTER button The following is the Master Menu 1 1 LCD Contrast 1 2 MIDI Local Keyb 1 3 MIDI Merge Func 1 4 MIDI Prg
46. er contains an extensive MIDI implementation The MIDI channel for transmission and reception is selected in the MASTER mode It is remembered after power down MIDI Transmission and Reception includes Note On messages The Voyager is a monophonic synthesizer and responds to Note On messages based on the Note Priority and Trigger Mode selected Note On messages are transmitted polyphonically Program Change messages Program Change Messages are transmitted by using the 1 Buttons All Notes Off Transmitted by pressing the MASTER button in Panel Mode Pitch Bend MIDI CCs for the front panel controls CC stands for continuous controller a type of MIDI message used to produce variation in a sound A CC message has a number which describes what parameter is changed and a value All the front panel knobs and switches are assigned a CC number Here is the list of Voyager parameters and CCs assigned to them The following is a list of the Voyager s Front Panel Controls and the corresponding MIDI CCs Voyager Control MIDI CC numbers Mod Wheel MSB 33 LSB MOD 1 2 MSB 34 LSB receive only MOD 2 4 MSB 36 LSB receive only Release Switch 88 Value 0 64 Off 65 127 On Glide Switch 65 Value 0 64 Off 65 127 On Glide Rate 5 MSB 37 LSB LFO Sync switch 67 Value 0 31 Off 32 63 MIDI 64 95 KB 96 127 Env Gate LFO Rate 3 MSB 35 LSB Mod Wheel Source 68 Valu
47. er it helos to have a signal rich in harmonics which provides high frequencies to filter A good example of a sound rich in harmonics is a sawtooth waveform In Highpass Lowpass mode the combination of highpass and lowpass filters forms a bandpass filter The Cutoff control changes the center frequency of the passband 24 SPACING The Spacing control is used to determine the difference between the cutoff frequencies of the two filters in both dual lowpass mode and highpass lowpass mode In Dual Lowpass mode the numbers on the legend around the knob refer to octaves When the Spacing control is centered the cutoff frequencies of the two filters are identical and the filter sounds like a classic Moog Filter Setting the Spacing control to 1 in Dual Lowpass mode means that the right filter has a cutoff frequency equal to where the Cutoff knob is set and the left frequency has a cutoff frequency that is one octave higher than the right filter This means when the Cutoff control is swept two resonant peaks are heard giving the filter a unique quality In Highpass Lowpass mode the Spacing control sets the difference between the cutoff frequencies by shifting the highpass filters cutoff frequency up or down When the Spacing control is fully clockwise the cutoff frequencies of the two filters are the same making for a very narrow frequency band RESONANCE The Resonance control causes feedback in the filter circuit that adds harmoni
48. erent shapes or waveforms which are described below The Voyager has three oscillators Waveform The shape of an oscillators vibration This determines its timbre Commonly used waveforms in subtractive synthesis are sawtooth triangle square or rectangular Different waveforms have different timbres A sawtooth has the greatest number of harmonics and sounds bright and buzzy A square wave has only odd harmonics and sounds bright but hollow like a clarinet A rectangular wave can vary in shape but typically has a bright but thin sound and a triangle wave s harmonics are so low in amplitude that it sounds muted and flutelike figure 6 Triangle Wave Sawtooth Wave Square Wave Rectangular Wave Sine Wave figure 6 Mixer A circuit for combining multiple sound sources or signals The Voyager s Mixer allows you to select and set the level for up to 5 different sound sources Filter A circuit that removes some frequencies and allows other frequencies to pass through the circuit A filter has a cutoff frequency that determines the point at which frequencies begin to be removed A lowpass filter is one in which frequencies above the cutoff frequency are removed and all frequencies below the cutoff are passed through A highpass filter is one in which frequencies below the cutoff frequency are removed and frequencies above the cutoff are passed through A bandpass filter has two cutoff frequencies that define a frequency band o
49. f the MIDI Clock signal 36 dotted eighth note of a beat of the MIDI Clock signal 24 eighth note 2 of a beat of the MIDI Clock signal 16 triplet eighth note 1 3 of a beat of the MIDI Clock signal 12 sixteenth note 4 of a beat of the MIDI Clock signal 6 2 INIT PARAMETERS INITIALIZE PARAMETERS is a function that allows the user to reset the current values of the Voyager s parameters to a basic sound which can be used as a starting point for new sound developrnent Enter EDIT mode and use the 1 buttons to highlight INIT PARAMETERS Press the ENTER button and the screen will prompt Load the default Init Parameters Yes No Use the cursor to select Yes and press ENTER The parameters are as follows 54 DEFAULT PRESET Glide OFF Release OFF The default settings for the rest of the Voyager s parameters are as follows pitch bend amount fourth keyboard mode lower key priority trigger mode single trigger filter a 4 pole filter 4 pole filter env gate env gate input jack amplitude env gate env gate input jack touch surface x dest filter cutoff touch surface x ctrl off touch surface x dir normal touch surface x amt 50 touch surface y dest filter spacing touch surface y ctrl off touch surface y dir normal touch surface y amt 5096 Touch surface a dest filter resonance touch
50. footswitch input and a red nut indicates a CV expression pedal input Minimoog Voyager Back Panel BNC Connector External Audio Input Effect loop insert point Power Input accepts for gooseneck lamp between Mixer and Filters 100 240 VAC NTLSIUPUT T m MIDI In Out and Thru 10 Control Inputs accept Expression Pedals or Cvs 3 Gate inputs accept Gate Left and Right Multipin Connector signals or footswitches 1 Gate Audio Outputs for VX 351 outputs CV input S amp H accepts Gate signal and Gate Signals generated by the Voyagerr figure 13 The Oscillator section includes controls for choosing the octave the tuning of the second and third oscillators the oscillators waveforms and switches for oscillator Sync linear FM and oscillator 3 s frequency range and keyboard control The sound sources are selected and their levels are set in the Mixer section The output of the Mixer section goes to the Filter section An effect can be inserted between the Mixer and Filters by means of the Mix Out Filter In jack The Filter section contains two filters that work together in two different modes Dual Lowpass mode features two lowpass filters in parallel and Highpass Lowpass mode features a lowpass and highpass filter in series The Cutoff control affects both filters cutoff frequencies and the Spacing control sets a difference between the two filters cutoff frequencies The outputs of the Filters are passed on to the Output
51. fter the parameters are initialized INIT PARAMETERS or REAL PANEL CONTROL see below 1 3 REAL PANEL CONTR REAL PANEL CONTROL is a function that enables the operation of the Voyager from The front panel To use this function enter EDIT MODE by pressing the EDIT button Press the 1 key to highlight REAL PANEL CONT and press ENTER The screen prompts Load The actual Panel Parameters Yes No Use the CURSOR button to select Yes and press ENTER The sound produced when the keyboard is played is now determined by the settings of the front panel controls 1 4 PITCH BEND AMT PITCH BEND AMOUNT allows the user to set a pitch bend range for each preset Highlight the PITCH BEND AMT function in the EDIT Menu and press ENTER Use the 1 buttons to select the desired range for the pitch bend wheel The options are Off 2 Semitones Minor Third Major Third Fourth default Fifth 1 Octave 1 Octave amp 5 2 Octaves 2 Octaves amp 5 Pre Value Pre Value is a user defined Pitch Bend Amount The value of this is set with the External Audio Input control Simply push the Pitch Bend Wheel forward and listen to the pitch change as you rotate the External Audio Input control stop when the desired interval between full pitch bend and no pitch bend is reached 2 1 PGM M WHL SOURCE PROGRAMMABLE MOD WHEEL SOURCE is a function that allows the user to program 1 of 8 additional modulation sources
52. hat the VCA output level is at 10096 when 5 Volts is supplied to the control input and is at 0 when O Volts is applied In figure 8a The VCO oscillates at 500 Hz with a 1 V CV the VCF has a cutoff frequency of 16 kHz with a 5 V CV and the VCA produces 100 output with a 5 V In figure 8b we reduce the VCO CV to OV a change of 1 Volt Notice that the frequency is halved a change of one octave The VCF CV is dropped 6 volts to 1 V Notice That the cutoff frequency then drops 6 octaves and at 250 Hz only allows the fundamental tone through Finally the VCA CV is reduced by 3 Volts Notice the amplification is reduced to 40 of the maximum level a CV 1V 5V 5V Y Y Y VCO VCF VCA 8 E fl fll mn o 500Hz frequency cutoff 10096 amplitude 16 kHz b CV ON 1V 2V Y Y Y 8 VCO VCF VCA 9 E ALLE V V 250 Hz frequency cutoff 40 amplitude 250 Hz figure amp 10 Modulation Modulation is the use of a CV to affect a voltage controlled circuit Modulation has a source destination and amount This could be as simple as the filter cutoff of a VCF a modulation destination being changed by the front panel cutoff control the source or as complex as mixing multiple CVs together to modulate filter cutoff Modulation is used in synthesis to create complex sounds and aad variation Envelope Generator An envelope describes the contours that affect the characteristics of a sound as it evolves in time fro
53. have a proper outlet installed by a qualified electrician SAVE THESE INSTRUCTIONS USER s MANUAL for the MININ VV 3u Fae LG Er By R Stephen Dunnington Here it is the minimoog Voyager amp Moog Music has put more than 30 years of experience with analog synthesizer technology into the design of this instrument to bring you the fattest lead synthesizer since the minimoog was introduced in 1970 We ve done away with the things that made 30 year old analog synthesizers difficult the tuning instability the lack of patch memory and the lack of compatibility with MIDI gear We ve kept the good parts the rugged construction the fun of changing a sound with knobs in real time and the amazing warm fat pleasing analog sound The Voyager is our invitation to you to explore analog synthesis and express yourself It doesn t matter what style of music you play the Voyager is here to help you tear it up in the studio on stage or in the privacy of your own home Have fun Acknowledgements Thanks to Bob Moog for designing yet another fantastic music making machine Thanks are also due to the Moog Music Team Rudi Linhard of Lintronics for his amazing software Brian Kehew Zon Vern Pyles all the great folks who contributed design ideas and of course you the Moog Music customer TABLE OF CONTENTS Getting Started ecrire en eet oe s Il The Basics of Analog Synthesis sssssssseeses lll Ihe voyaders 1S
54. he CV generated by left to right horizontal position of contact with the touch surface Y This is the CV generated by up and down vertical position of contact with the touch surface A This is the CV generated by the amount of area covered on the touch surface GATE This is a gate signal generated by contact with the touch surface When contact is made the Gate is ON and when no contact is made the gate goes OFF KBD This group of outputs is generated from the Voyager s Keyboard There are three CVs Pitch Velocity and Pressure and one gate signal PITCH This is the CV determined by the note that is played on the Keyboard It is the same voltage used for determining the pitch of the Voyager s Voltage Controlled Oscillators VEL This is the CV determined by the velocity used to depress a key PRESS This is the CV determined by how much pressure is exerted on a key after it is depressed GATE This is the gate signal generated when a key is depressed WHEELS This group of outputs is generated from the Left Hand Controller Wheels PITCH This is the CV generated from the Pitch Wheel MOD This is the CV generated from the Mod Wheel PEDALS This group of outputs is generated from the MOD1 and MOD2 jacks on the rear panel of the Voyager MODT This is the CV generated from the MODI input The MODI Input is a CV input on the Voyager that determines how much of the PEDAL ON Mod Bus Source goes to the PEDAL ON Mod Bus Destina
55. ies which make the Voyager an incredible sound design tool SOURCE Choosing a modulation source is done through a combination of the Mod Source Switch and the menus of the software The Mod Source selector switch is a 6 position switch The Front panel selections are TRI LFO Triangle Wave SQ LFO Square Wave S H Sample and Hold output OSC 3 Oscillator 3 ON MOD2 with nothing plugged into the MOD2 jack this is a steady 5 V signal The MOD2 input is for using external CVs as a Modulation source NOISE PGM This is a programmable source for the mod bus with Noise as the default The programmable Mod sources are set in the EDIT mode menu items MOD WHEEL PGM SOURCE or PEDAL PGM SOURCE SHAPING The shaping is a way to dynamically change the amount that the Mod Source modulates the Mod Destination Shaping occurs before the Amount control and before the Performance controls The switch that selects this is a 4 position switch that is labeled FILT ENV This allows the filter envelope to shape the amount of Modulation before the Mod Wheel or MODI performance control VELOCITY This allows Keyboard Velocity to shape the amount of Modulation before the Mod Wheel or MODI performance control PRESSURE This allows Keyboard afterpressure to shape the amount of Modulation before the Mod Wheel or MODI performance control The pressure signal that cornes out of the keyboard is either on or off thus pressure can be used as a swi
56. il the next trigger event Noise is a random signal so the voltage that appears at the output of the sample and hold is a random voltage that changes in time with the LFO If a plug is inserted into the sample and hold gate input on the back Panel it will disconnect the LFO from triggering the sample and hold circuit A gate signal or footswitch will trigger the sample and hold circuit Similarly a plug inserted into the Sample and Hold input Jack disconnects the noise from the H input In this circumstance when the H circuit is triggered the voltage at the tip of the plug is held at the output of the H circuit In this way the user can get staircase modulation patterns figure 24 S H Input Square Wave S H Trigger S H Output figure 24 33 LFO RATE The LFO Rate control sets the Rate of the dedicated LFO The range of oscillation is 2 Hz to 50 Hz LFO SYNC The LFO Sync switch sets the trigger method for starting the LFO waveform OFF SYNC This setting allows the LFO to be free running unless there is an input to the SYNC jack on the back panel The SYNC jack accepts a 5 V Clock Signal that retriggers the LFO MIDI Allows a MIDI clock signal to retrigger the LFO MIDI Clock triggering the LFO is not implemented in Version 1 0 KB Allows the LFO to be retriggered when a note on the keyboard is started ENV GATE Allows a gate input to the ENVELOPE GATE jack on the back panel to retrigger the LFO LFO RATE INPU
57. ing like this Dest MIDI Ctrl No 19 Direction Normal TS X Amount 100 The parameters for each touch surface axis are touch surface destination the MIDI CC being transmitted the direction of control and the amount for X Y and A only To get back to the Touch Surface menu press ENTER To return to the Edit Menu then press CURSOR or EDIT DEST Voyager users can choose one of 32 destinations for the Voyager s touch surface outputs X Y and A and 14 destinations are available for the touch surface gate Here is a list of the destinations X Y and A LFO rate glide rate mod wheel mod bus amount volume pedal on mod bus amount osc 1 waveform osc 2 frequency osc 2 waveform osc 3 frequency osc 3 waveform external audio in level osc level osc 2 level osc 3 level noise level filter cutoff filter spacing filter resonance filter KB amount filter attack filter decay filter sustain filter release filter envelope amount 50 volume attack volume decay volume sustain volume release key cv pitch of all 3 oscillators across range of keyboard osc 1 octave pitch of single oscillator across range of keyboard osc 2 octave pitch of single oscillator across range of keyboard osc 3 octave pitch of single oscillator across range of keyboard T S GATE No Switch default Glide Swi
58. iority for a preset Keyboard priority for a monophonic instrument determines what happens when more than one key is depressed Enter EDIT mode and use the 1 or 1 button to highlight KEYBOARD MODES Press ENTER and the current Keyboard Mode appears Use the 1 buttons to choose from one of the following options Lower Key the lowest key pressed sounds Higher Key the highest key pressed sounds Last Key the most recent key pressed sounds 1 Key Only the first key pressed sounds 3 4 TRIGGER MODES TRIGGER MODES allows the user to select how the envelopes are triggered when more than one key is pressed on the keyboard Enter EDIT mode and use the 1 or 1 button to highlight TRIGGER MODES Press ENTER the screen will display the current Trigger Mode The 1 button chooses a different option The choices are Single Trigger legato envelopes aren t retriggered until keys are fully released Multi Trigger each time a new note sounds the envelopes are triggered 4 FIL A POLE SEL This allows the configuration of the cutoff slope of Filter A Filter A is the Filter that is controlled only by the cutoff control In Dual lowpass it is the RIGHT output In Highpass Lowpass it is the Lowpass filter Use the 1 buttons to select 1 2 3 or 4 poles A pole dB octave cutoff slope as the poles increase so does the cutoff slope of the filter a 1 pole filter has a 6 dB octave cutoff slope when it s a lowpass filter you hear it as
59. kes serious dough to build Enter the minimoog a portable synthesizer where the most musically useful connections in a synthesizer are made and permanently wired Sounds can be made quickly with the knobs and switches of the well laid out front panel They are easier to document with patch templates and the synth can actually be CARRIED to gigs Imagine that Finally a serious synthesizer made for the working musician Flash forward to today The minimoog Voyager The Voyager is based on the concept of the minimoog It is a portable analog synthesizer with all the basic connections for making great electronic sounds In fact from its front panel it has even more functions than the original minimoog People rave about the sounds they can get out of the Voyager from classic synth tones to unheard of effects But just when you thought you had heard it all from the Voyager Moog Music introduces to you the VX 351 CV Expander Take a quick peak at the back of your Voyager and you will notice a plethora of jacks color coded with red and blue nuts you may also notice a 25 pin D connector labeled accessory port What does it all mean The jacks that have the color coded nuts are all INPUTS the red ones are for control voltages and the blue ones are for gates The pins of the accessory port are all OUTPUTS control voltages and gates Hmmm control voltage and gate outputs and inputs it sounds like a modular synth
60. l On Mod Bus is set to LFO RATE PGM Enter EDIT mode and use the 1 button to highlight PCM PEDAL DEST Press ENTER and the following Mod Destinations appear LFO Rate default Filter Resonance Filter Spacing Panorama Osc 1 Level Osc 2 Level Osc 3 Level Noise Level 3 1 PROGRAMMABLE SHAPING SOURCE 1 3 2 PROGRAMMABLE SHAPING SOURCE 2 On both Mod Busses the Shaping switches point to On PGM in their full Clockwise position PGM stands for the programmable shaping sources There are two programmable shaping sources both are combined by the software and shared by both Mod Buss Shaping switches When either of the Shaping switches are in the On PGM position the Programmable Shaping values stored in memory are applied to Shape the Mod Buss source Shaping is like an additional level control for modulation amount in the case of a Shaping signal like velocity the higher the velocity the more 47 the Mod Source is let through to the Destination The Programmable Shapers also allow an offset value to be applied added to the Shaper itself Using the programmable Shapers is useful for creating presets that respond in complex ways for instance you could assign BOTH key pitch and velocity as your programmable shaping sources In this case the higher and the harder you play more modulation source is passed to modulate the destination Many of the Shaping sources are front panel rotary controls A possible application using a fron
61. le preset from the Voyager s bank of presets The Voyager also has the ability to import a single preset in PANEL mode This allows the Voyager user to build up custorn preset banks This requires another Voyager or a computer with a MIDI interface and a program that can accept a manual Sysex dump You must enable the device that is to receive the Sysex data Once the remote device is enabled press ENTER to start the data transfer 3 2 SEND ALL PRESETS This is a utility to send Sysex System Exclusive data for archiving the bank of 128 presets in the Voyager s memory This requires another Voyager or a computer with a MIDI interface and a program that can accept a manual Sysex dump You must enable the device that is to receive the Sysex data Once the remote device is enabled press ENTER to start the data transfer 3 3 RECEIVE PRESETS This is a utility to import Sysex data for a bank of Voyager presets This requires another Voyager or a computer with a MIDI interface a program that can send a Sysex bank and a bank of Voyager presets The Voyager must be enabled to receive The presets When entered the screen will prompt the user Sysex enabled At this time a Sysex transfer from a remote device can be started To disable the ability to receive Sysex press the 1 button or press ENTER to return to the MASTER menu This 40 utility will replace any presets that are in mernory so be sure to back up any presets you want to save befo
62. lectronic sounds are delivered to the air through loudspeakers figure 2 amplitude air pressure time as Sound Vibrations in air 9 Your ears Source figure 2 Frequency The rate of vibration in sound measured in Hertz Hz or cycles second figure 3 Our ears can hear from 20 to 20 000 Hz Frequency corresponds to the musical term pitch A low frequency corresponds to a low pitched sound such as a bass a high frequency sound corresponds to a high pitched sound such as a piccolo In music a change in pitch of one octave higher equals a doubling of the frequency one cycle time amplitude Cycles Frequency in Hertz Hz second figure 3 Amplitude The strength of a sound s vibration measured in Decibels dB This corresponds to the musical term Loudness figure 4 amplitude time figure 4 Harmonic Content A sound is made up of simple vibrations at many different frequencies called harmonics which give a sound its particular character This corresponds to the musical term timbre or tone color A harmonic sound such as a vibrating string is one in which the harmonics are mathematically related by what is called the harmonic series These sounds are typically pleasing to the ear and generally the consecutive vibrations have the same characteristic shape or waveform An inharmonic sound such as a crash cymbal is one in which the harmonics are not mathematically
63. m its start to its finish Take a plucked string for example when a string is plucked its amplitude is suddenly very loud then dies out gradually The initial part of the sound is very bright but then the brightness fades away The frequency of the sound goes slightly higher and then drops slightly as the note fades These kinds of changes in a sound over time can be applied to oscillators filters or tne amplitude of an electronically generated sound by an envelope generator The envelope generator creates a CV that describes the contours of a sound Affack measured in time specifies the onset or transient of a sound With Volume for instance the sound might start suddenly as does a plucked string sound or fade in slowly like a bowed string crescendo Decay is also measured in time and specifies how quickly the onset of a sound fades into the sustained portion Sustain is the level at which a sound sustains after the initial transient Release is measured in time and determines how long a sound takes to fade away after a note is released These four components make up an ADSR envelope generator An envelope control signal has to be started and stopped The start and stop is triggered by what is called a gate signal A gate signal is either on or off When it goes on the Envelope generator is started when The gate goes off the release segment of the envelope begins figure 9 Amplitude Envelope Audio Waveform i A iD S R i i i i i
64. mponent at the attack of a note Some sounds have a burst of noise at the beginnings of a note or chiff for instance a flute or a pipe organ This patch digs a little deeper into the Voyager to achieve this effect Initialize the Voyager s parameters Set the Osc 1 waveform to Triangle wave Set the Filter Envelope to the following settings Attack 1 msec Decay 100 msec Sustain O Release can be Off Using a Ya patch cable connect the VX 351 Filter envelope Output to the CP 251 Mixer 1 input Set the CP 251 Mixer 1 Input level and the Output level to 10 Set the Offset to 2 5 Using a Ya cable connect the CP 251 Normal Mixer Output to the Voyager s MOD2 Input In the Voyagers Pedal On Mod Buss make the following settings Source On MOD2 Destination LFO PGM Shaping On Amount 10 In the Edit menu select Pedal PGM Dest and press ENTER In the list of programmable destinations select Noise level In the Voyager s Mixer section turn ON the Noise signal Turn up the level to 5 Set the Voyager s Filter Envelope Amount to Filter control to 2 In the Edit Menu select Trigger Modes Set the trigger mode to Multi triggering Now when you play a note you should hear a noise component at the beginning of the note Playing with a combination of Filter Envelope times Filter cutoff Noise Level and Pedal On Mod Buss amount will make this effect more or less perceptible Selecting O
65. ms are basic to understanding analog subtractive synthesis Should you choose to pursue a more in depth study of the subject recommended is the book Analog Synthesis by Reinhard Smitz available from Wizoo Publications www wizoo com 12 Ill The Voyager s Features The minimoog Voyager is a monophonic analog synthesizer that is a descendant of the classic minimoog Its sound sources are an external audio input a noise source and three analog variable waveform oscillators The Voyager has front panel controls for real time control of its parameters figure 12 Bulb d elu unouup SU Jo4uoo o pesn aip pped puiejxe pup eeu pow eu junouuy 040 pup Buidous uoyouysep e2inos uoyo npouu pojes sessng uoupo npolA s y ssodubiu ssodwo Jo epnijduuv pub ssodo pnp so pesn eq ubo lejoguo2 eopjns uno Ie 104 sedojeA u3 Ysay Je Booy epouu jong VAX puosuewg 28141 Ji HEHEA indind 514O13AN 5uciv11550 esioN puo P4 Suoyounj SIOMYOS O41 peijpoipeq N3 Paul pub ous JoJojroso SIOLOIIIOSO eipny joule Jeujo pup spesad sesseoopb JOMUSD WIOJSADM SNONULUOD Seo1Inos OPNO G Jo sje e eopbJelul esn pup Ao dsig q21 loJoejes e p oo uouisod 9 sisn po PUD soes IXIA SIOLOIIOSO Bopuy asyl eupg 1uoIJ JIeGpoAOoA Boouululu figure 12 13 The back panel offers the many connections available including the power MIDI CV and audio connections figure 13 For the Control Inputs a blue nut indicates a gate
66. n the Edit Menu Set the Pedal On Mod Buss Source to Square wave set the Pedal On Destination to Filter Set Shaping to ON and Amount to 5 Using a Ya cable connect the VX 351 Mod Wheel output to the Voyager s MODI Control Input Play a note and move the Mod Wheel forward You ll hear both Triangle wave modulation of the pitch and square wave modulation of the Filter fade in This is a useful patch that can be used on a variety of patches where you want two types of modulation to fade in by using the Mod Wheel B Mod buss signal modulates more than one destination This is a way to use one Modulation signal to control more than one destination Try the following Initialize the Voyager s parameters Using a Ya cable connect the Mod Wheel Mod Buss output to the Voyager s Filter Control Input Play a note and move the mod wheel forward You ll hear the LFO triangle wave modulating both the Voyager s Pitch and Filter A variation of this would be to insert an Attenuator in between the Mod Wheel Mod Buss output and the Filter Input This way you can adjust the amount of modulation that goes to the filter C Pressure controls Pedal On Mod buss amount Just as you can use an Expression pedal plugged into the MOD input to control the Pedal On Mod Buss You can use another signal that varies in the same range to perform the same function The Pressure signal from the Voyager s keyboard is a good example of this Try the f
67. nical Information The following is technical information about the VX 351 s outputs TOUCH X 5 to 5 V 330 Q output impedance Y 5 to 5 V 330 Q output impedance A 5 to 5 V 330 Q output impedance GATE 5 V On 0 V Off 1 000 Q output impedance TTL KBD PITCH 0 85 to 2 52 V This is the Keyboard Pitch voltage range when the Voyager s keyboard is played The range will be different when MIDI note on messages are received The Keyboard Pitch Voltage changes by 0 935 volts per octave 330 O output impedance VEL 5 to 5 V 330 Q output impedance PRESS 5 to 5 V 330 Q output impedance GATE 5 V On O V Off 1000 Q output impedance TTL WHEELS PITCH 5 to 5 V 330 Q output impedance MOD 5 to 5 V 330 Q output impedance PEDALS MODI 5 to 5V 5 V w nothing connected to MOD 1 input 330 Q output impedance 77 MODJ2 5 to 5 V 5 V w nothing connected to MOD 2 input 330 Q output impedance LFO TRIANGLE 2 5 to 2 5 V 330 Q output impedance SQUARE 0 to 3 V 330 Q output impedance BUSSES WHEEL Max Outputs 4 to 4 V Nominal 1000 output impedance PEDAL Max Outputs 4 to 4 V Nominal 1000 Q output impedance ENVS FILTER O to 5 V 330 Q output impedance VOLUME 0 to 4 5 V 330 Q output impedance S amp H STEP Max 2 to 2 V Nominal 330 Q output impedance SMOOTH Max 2 to 2 V Nominal Q output impedance Moog Music Inc 554C Riverside Dr Asheville NC 28801 800
68. nk for ya 081 Bubbly Lead 082 Synthworld 65 083 Aleatoric 084 Wheel chorus Lead 085 Glass Temple 086 Repeater Bass 087 Electro Kid 088 Fuzzy Lead 089 Catherine of Aragon 090 Catherine Howard 091 Anne Boleyn Bass 092 Anne Boleyn Lead 093 Raw amp melodic 094 Sweepy Bass 095 Green Fog 096 Wrong Crypt 097 Just the harmonics 098 Thematic 099 Plucky Bass 100 Bright Bass 101 Tubby Bass 102 Alien Metal 103 NOT Unplugged 104 Bass Phenomena 105 Reedy Bass use wheel 106 Dramatic Entrance 107 Flying Toy 108 Alley Cat 109 Speedway 110 Call the plumber 111 Sweet Thing 112 Tribal 113 Plucked Lead 114 Hollow Fuzzytone 115 Sizzle Bass 116 Fly by 117 Short lived 118 What the 119 Harpsinotes 120 Not small 121 Tiny flute 122 Cosmic chatter 123 Ridin the storm out 124 Large fifths 125 Fanfare 126 Synergistic 127 Bass for E Vonallen 128 Windy night 66 Appendix D MIDI IMPLEMENTATION CHART Moog Music Inc Minimoog Voyager MIDI Implementation Chart 03 04 04 Version 2 5 030404 Function Transmitted Recognized Remarks Basic Default 1 16 1 16 Mermorized Channel Changed 1 16 1 16 Memorized Default 3 4 Note Priority is user Mode Messages X O selectable Altered X X All Notes Off Note 0 127 0 127 Number True Voice kkkkkkkkkkkkkk 0 12
69. ollowing Initialize the Voyager s parameters Set the Pedal On Mod Buss Source to square wave Destination to Filter Shaping to On and Amount to 5 Using a Ya cable connect the VX 351 KBD Pressure output to the Voyagers MODI Input Play a note and press down the key you are playing the Modulation of the filter should increase as you add pressure and disappear when you re not pressing hard at all As a variation switch the Pedal On Mod Buss Source to On Now play a note pressing down makes the filter brighter D LFO triggers Voyager s Envelopes This is an alternative to triggering a sound from the Voyager by pressing a key The last key pressed will determine the pitch but the LFO will trigger the start of the envelopes 74 Initialize the Voyager s parameters Using a Ya cable connect the VX 351 LFO Square Output to the Voyager s Envelope Gate Input Switch the Envelope Gate switch at the bottom right corner of the front panel to On External You should immediately hear a note repeating at the LFO rate These are just a few examples of the functions that a VX 351 adds to a Voyager Adding a moogerfooger CP 251 to the mix The VX 351 works incredibly well alongside the moogerfooger CP 251 Control Processor The CP 251 brings a CV mixer another mult a pair of attenuators an extra LFO sample and hold circuit a lag processor and noise source to the table The combination of Voyager VX 351
70. onnel when a The power supply cord or the plug has been damaged or b Objects have fallen or liquid has been spilled onto the product or C The product has been exposed to rain or d The product does not appear to operate normally or exhibits a marked change in performance or e The product has been dropped or the enclosure damaged 11 Do not attempt to service the product beyond that described in the user maintenance instructions All other servicing should be referred to qualified service personnel DANGER INSTRUCTIONS PERTAINING TO RISK OF FIRE ELECTRIC SHOCK OR INJURY TO PERSONS Do not open the chassis There are no user serviceable parts inside Refer all servicing to qualified personnel only GROUNDING INSTRUCTIONS This product must be grounded If it Should malfunction or breakdown grounding provides a path of least resistance for electrical curent to reduce the risk of electric shock This product is equipped with a cord having an equipment grounding connector and a grounding plug The plug must be plugged into an appropriate outlet that is properly installed and grounded in accordance with all local codes and ordinances DANGER Improper connection of the equipment grounding connector can result in a risk of electric shock Check with a qualified electrician or serviceman if you are in doubt as to whether the product is properly grounded Do not modify the plug provided with this product if it will not fit in the outlet
71. ound will be there regardless of playing the keyboard OSCILLATORS 1 to 3 The controls for the Oscillators on the mixer are simple on off and level When the levels of the Oscillators are set high tne output from the mixer gently overdrives the filter section This was one of the important features in the original minimoog that gave it its characteristic fat sound NOISE The Noise source is a white pink hybrid and can be used as a sound source or a modulation source Noise is great for making ocean wave sounds explosions wind sounds or using as a subtle coloration to a sound EXTERNAL AUDIO IN The External Audio in allows an external audio source to be routed into the mixer where it can be mixed with the VCOs and Noise source then passed to the filters and the out put The LED above the External input begins to light up as the Input signal to overdrives the Mixer input When the light is faint a small 17 amount of soft clipping is occurring When the LED is bright the signal is really strongly overdriven Judicious use of overdrive can really fatten up a sound The external audio input can accept a signal from instrument level to line level MIX OUT LOOP The jack on the back labeled mix out filter in is an insert point between the Mixer output and the filter input Using a standard insert cable an effect such as a moogerfooger MF 102 Ring Modulator can be inserted to add effects to the oscillator noise source and external
72. p 013 Animated wheel up 014 He was lucky 015 Tympanic membrane 016 Kinda saxy 017 Analog Daze 018 Heartbeat 019 Electric Room 020 Monica 021 Wheel Bass 022 Vowel Bass wheel up 023 Slippery Lead 024 Classic Ripper 025 Toad Bass 026 Velocity Bass 027 Velowave Bass 028 Funny Vox 029 Minor Glider 030 Prog Lead 031 Forever Lead 032 Here it comes 033 Panning Throbber 64 034 Zappy Bass 035 Classic Sweeper 036 Touchpad sync 037 First Love 038 Clearly fuzzy 039 Fond Mernories 040 Flyin fingers 041 Worms of funk 042 Tremowah Bass 043 Welcoming machine 044 Touchpad horn 045 Still fun wheel up 046 Subfood Bass 047 Firm bottom 048 Lunar News wheel up 049 Seafoam wheel up 050 Wheel talker 051 Living Bass 052 Pucker up 053 Lil delay 054 Utopian Lead 055 Bouncer wheel up 056 Stereo Zaps 057 In the pocket 058 Going Baroque 059 Flutey 060 Relaxed Bass 061 Mystery metal 062 B drone jam 063 No knives please 064 Topographic melodies 065 Familiar growl 066 Make it sing 067 For Ripley 068 Other life 069 Epiphany 070 Crop circle delivery 071 Swamp life 072 Spartacus 073 Horn of Mythos 074 Call of the Gearpig 075 Soft as remember 076 Stereo S amp H wheel up 077 Harmonized wheel up 078 Sasquatch speaks up 079 Bo 080 Some fu
73. ped by the SHAPING signal The level is determined by the AMOUNT control and the signal at the MODI Input jack ENVS This group of outputs is the output of the Envelope Generators FILTER This is the CV output of the Filter Envelope Generator VOLUME This is the CV output of the Volume Envelope Generator S amp H This group of outputs is generated by the Sample and Hold Circuit STEP This is the output of the Sample and Hold Circuit SMOOTH This is the Smoothed output of the Sample and Hold Circuit ATTENUATORS The VX 351 contains two attenuators An attenuator is used to reduce the amount of a CV signal The attenuators have an input jack an output jack and a knob The knob sets the amount of the signal present at the input jack that passes to the output jack When the knob is set to fully clockwise the full input signal passes to the output MULT The VX 351 contains two 4 way mults A mult is used to distribute a single source to multiple destinations An example is sending the Voyager s LFO To the Volume Filter and Pan Control Inputs In this case all three of those parameters will be controlled simultaneously by the LFO WARNING A mult is NOT a mixer Do not apply more than one CV source or CV output to a mult For example combining the LFO triangle and LFO square wave to go to the Filter Input Combining CVs in a Mult can cause them to add together in a way that can be damaging to some control inputs Don t do it You mus
74. quipment rack with 3 available spaces Some Z patch cables for connections between the VX 351 and the Voyager the more the merrier choose lengths that are convenient to use with out the spaghetti effect 1 The first step is installing the VX 351 output adapter For this procedure refer to the installation guide The adapter must be installed in these units to ensure proper operation of the VX 351 2 Locate the male end the end with recessed pins of the DB 25 cable this is the end that plugs into the connector on the Voyager s back panel labeled ACCESSORY PORT Align the cable properly and make the connection Use the thumbscrews to lock the connection Be careful not to force or cross thread the thumbscrews in the accessory port s female threads Following this connect the other end of the cable to the connector on the VX 351 labeled FROM ACCESSORY PORT 69 Basic Connection of the Voyager to the VX 351 CV Expander To VX 351 ji To Voyager Accessory Pori 3 Now let s start with a basic sound and see how the VX 351 can work with the Voyager Power up the Voyager press the EDIT button In the EDIT menu select Init Parameters press ENTER select YES and press ENTER again This loads the default Voyager sound Take one of your 4 cables plug one end into the VX 351 s LFO triangle output Plug the other end into the Voyager Filter control input Play a note on the Voyager you will hear th
75. r and a lowpass filter Frequency Response of Dual Lowpass Filters Right VCF Filter A Hz Frequency Cutoff Control Left VCF Filter B spacing Control figure 20 23 HIGHPASS LOWPASS MODE In Highpass Lowpass mode the Voyagers filters are configured as a lowpass and highpass filter in series summed to both outputs As with the dual lowpass mode The Cutoff control changes the cutoff frequency of both filters and the spacing sets the frequency difference between the highpass filter and lowpass filter The spacing between the two filters creates a bandpass filter figure 21 The Resonance control affects only the lowpass filter tnus making for sorne terrifically interesting filter sounds Frequency Response of Highpass Lowpass Filters Lowpass Highpass MY VCF VCF j Hz spacing Control Cutoff Control Sweeps both Filters Cutoff Frequency figure 21 CUTOFF The Cutoff knob is the main filter control This sets the cutoff frequency of both of the filters in the both dual lowpass and highpass lowpass mode In Dual Lowpass the frequencies to the right of the indicator on the knob are the frequencies that are filtered out The frequencies to the left of the indicator are the frequencies that are allowed to pass through the filter This is why as you turn the control clockwise the cutoff frequency becomes higher and the sound becomes brighter Of course to hear the effect of a lowpass filt
76. re going through this process 3 4 PROGRAMMABLE SYSEX DEVICE ID This function can be used in a situation where more than one Voyagers are in a setup By Changing the SysEx Device ID when a Preset Bank is sent the Device ID byte in that SysEx message matches the Device ID set in that Voyager When a SysEx data stream is sent to the Voyagers only the Voyagers that have matching Device IDs receive the SysEx messages This way when more than one Voyagers are used and each one has a different SysEx Device ID Presets or Preset banks can be sent to an individual Voyager in that setup To use this feature select SysEx Device ID and press ENTER The screen will prompt System Exclusive ID Number gt 1 Use the or buttons to select a number between 1 and 128 4 1 TRANSPOSE IN OUT The Transpose In Out function can be used independently for MIDI Notes transmitted and received To use this feature select Transpose In Out The screen will prompt Keyboard Transpose Semitone s MIDI Key Transpose Semitone s Keyboard Transpose Semitones refers to the number of semitones that the MIDI notes generated by the Keyboard MIDI out are transposed up to 24 up or 48 down MIDI Key Transpose Semitones is the number of semitones that the MIDI notes received by the Voyager are transposed maximum 48 up and 48 down The CURSOR button is used to move between the Keyboard and MIDI key Transpose values Use the buttons to select the number
77. s the EP 1 with the ring connection supplying 5 Volts to the Pedal and O to 5 Volts control voltage retum to the Voyager on the tip connection The Master Volume sets the maximum output level and as the Volume CV input drops below 5 volts the output is reduced PAN INPUT A 2 5 to 2 5 V control voltage applied to this jack will cause the output signal to pan from left to right 29 F MODULATION BUSSES MODULATION BUSSES MOD WHEEL SOURCE OSC 3 StH on nn MoD NL NOISE Sar st LS P ee DESTINATION 05C3 AU POM osc2 WAVE och ANDR woy pri a SHAPING VELOCITY PRESSURE AU On w PGM Ss a AMOUNT 4 I Sam PEDAL ON SOURCE OSC 3 StH on nn Lori gt MOISE Ly yy ae LS a DESTINATION 05C3 AU osc WAVE Sg a SHAPING VELOCITY PRESSURE or 4 AMOUNT Modulation is the heart of making interesting sounds with analog subtractive synthesis The Voyager s two Modulation busses open up a world of modulation possibilities tnat were not available on the original Minimoog The Mod Busses allow The user to select a variety of modulation sources their destinations addition shaping of the amount of modulation and a maximum level The Mod busses are labeled Mod Wheel and Pedal On The performance controls for these two busses are the Mod Wheel and the MODI input on the back panel The MODI input can accept an expression pedal like the EP 1 an
78. scillator Levels as the Programmable Mod Destination can yield some interesting effects as well These are just scratching the surface of the synthesis possibilities afforded by the Voyager the VX 351 and a CP 251 76 Connecting other CV compatible equipment We ve covered some basic uses of the Voyager and the VX 351 and even added a CP 251 to the mix Other CV compatible equipment like our moogerfooger analog effects can be added to liven up the proceedings Other CV compatible equipment can be connected as well Keep in mind that you should always connect a source to a destination and that you shouldn t combine multiple CVs to a single destination without a mixer Here are some things you could try with a Voyager a VX 351 and our moogerfoogers Use the Voyagers Filter envelope to control the Sweep of a MF 103 12 stage Phaser Use the Voyager s Mod Wheel to control the Rate of the MF 103 12 stage Phaser Use the Voyager s Mod Wheel to control the Mix of Ring Modulation on a MF 102 Use the Voyager s Touch surface to control the MF 102 s Carrier Oscillator Frequency Use the Noise Output to add Roughness to a MF 101 s Filter Cutoff This list could go on and on As you can gather there are many many possibilities for exploring synthesis whether you are trying to duplicate a sound or effect you ve heard or if you are trying to make a sound that nobody s heard before Experimentation is part of the fun Tech
79. surface a ctrl off Touch surface a dir normal touch surface a amt 5096 touch s gate x dest no switch touch s gate x ctrl off touch s gate x dir normal Touch s memory busses no touch s memory global no pot map 1 source velocity attack pot map 1 dest master volume pot map 1 direction normal pot map 1 amount off 55 pot map 2 source key pitch pot map 2 dest filter resonance pot map 2 direction inverse pot map 2 amount off pot map 3 source mod wheel pot map 3 dest filter spacing pot map 3 direction normal pot map 3 amount off pot map 4 source foot pedal 1 pot map 4 dest filter cutoff pot map 4 direction normal pot map 4 amount off midi clock divider 24 preset name Preset xxx xxx act program number Default PROG PGM s pgm mod wheel source noise pgm mod wheel dest Ifo rate pgm pedal source noise pgm pedal dest Ifo rate pgm shaping 1 source O fixed value pgm shaping 2 source O fixed value 6 3 PRESET NAME PRESET NAME is a function that allows the user to assign a name to a preset containing up to 24 characters on two twelve character lines Characters are selected by moving the cursor to the desired character location and scrolling through the character list The cursor can be moved with the CURSOR button or by tapping th
80. t it becornes silent 3 KB CONT Oscillator 3 Keyboard Control On Off The 3 KB Control switch located below the oscillators disables keyboard control of oscillator 3 s pitch when in the off position By disabling the keyboard control of Osc 3 you can use it as a drone or as a modulation source whose frequency doesn t change with the key played In addition to turning off the keyboard control of Oscillator 3 switching this to OFF increases the amount the Oscillator 3 FREQUENCY control changes Oscillator 3 s frequency 3 FREQ Oscillator 3 Frequency range switch Lo Hi This selects Oscillator 3 s frequency range When in the Lo position Osc 3 operates as a subaudio sound source clicks or as a modulation source LFO When in the Hi position Osc 3 operates with the same available frequency range as Osc 2 1 gt 2 SYNC Oscillator 2 Synced to Oscillator 1 Oscillator Sync is an effect caused by resetting an oscillator waveforms start point with another oscillator figure 18 The effect is noticeable if The Synced Oscillator is a higher frequency than the Reset Oscillator The main frequency heard is that of the reset oscillator As the frequency of the synced oscillator is swept it reinforces the harmonics of the reset oscillator Depending on how applied the effect can be aggressive or warm and vocal This effect is much more dramatic when Oscillator 2 is set to a higher octave than Oscillator 1 Oscillator Sync PSPSPS ae 2Waveform
81. t panel control as a shaping source is having the Filter cutoff also control the Modulation amount Programmable shapers can make for some highly interesting and interactive presets The Possible shaping signals for both Programmable shapers 1 and 2 are Fixed Value Pitch Bend Wheel Modulation Wheel Velocity Release Pressure AT Keyboard CV Touch Surface X Touch Surface Y Touch Surface A Modulation Bus 1 Modulation Bus 2 LFORate Glide Rate Mod Wheel Amount Pedal Amount Osc Octave Osc 1 Waveform Osc 2 Frequency Osc 2 Octave Osc 2 Waveform Osc 3 Frequency Osc 3 Octave Osc 3 Waveform Ext Audio Level Osc Level Osc 2 Level Osc 3 Level Noise Level Filter Cutoff Filter Spacing Filter Resonance Filter KB Control Amount Filter Attack Filter Decay Filter Sustain Filter Release Filter Envelope Amount Volume Attack Volume Decay Volume Sustain Volume Release Master Volume 48 Headphone Volume The Fixed Value can be used by itself or added to one of the Shaping sources It has a course adjustment called High and a Fine adjustment called Low Both the High and Low values are adjustable from 64 to 64 The CURSOR button moves the cursor between the Shaping Source the High fixed value and the low fixed value 3 3 KEYBOARD MODES KEYBOARD MODES allows the user to select 1 of 4 types of keyboard pr
82. t panel when pulling it forward Make sure the support bracket is properly seated into the slots on the back panel before playing Connect fo source of AC Connect the Voyager s power receptacle to a wall outlet with the supplied AC cordset see figure 1 The Voyager will operate with a power source from 100 to 240 Volts Basic Connections Danger Refer to safety instructions at the beginning of this manual regarding operation of electrical equipment 1 4 Instrument cable AC Cable to grounded lm power receptacle m to amplifier to left mono to power input input audio output figure 1 Power up Turn the power on You will see the screen light up and display minimoog Voyager by moog music After about 5 seconds the greeting screen disappears and you will see the current active preset The LED labeled PANEL will be lit The buttons labeled PANEL EDIT and MASTER access the 3 operating modes of the Voyager Connect to Amplifier Connect your Voyager to headphones or an amplifier figure1 For a mono connection use the jack labeled left mono To connect the Voyager to a stereo amplifier use the left mono and right audio outputs to connect to the left and right inputs of your amplifier To get a sound play the keyboard Adjust the amplifier level until it is at a comfortable level for listening Start Playing The quickest way to hear what the Voyager has to offer is to listen to the presets
83. t use a CV mixer like the CP 251 Control Processors Mixer to combine CV outputs These are the components that make up the VX 351 there s quite a bit you can do 72 Documenting your work One thing to keep in mind is that although the Voyager can remember the settings of the front panel controls as a preset it cannot save the routings of patch cables or the positions of the attenuators We recommend having a list of the outputs with a space to document destinations like so Source Destination Touch X Touch Y Touch A Touch Gate KBD Pitch KBD Velocity KBD Pressure KBD Gate Pitch Wheel Mod Wheel MODI MOD2 LFO Triangle LFO Square Mod Wheel Mod Bus Pedal On Mod Bus Filler Env Vol Env S amp H Step S amp H Smooth Noise Atten 1 amount Atten 2 amount Mult Al Mult A2 Mult A3 Mult B1 Mult B2 Mult B3 Notes Use w Preset This approach is simple but effective 73 Using the VX 351 and the minimoog Voyager together The following are some ideas for using the VX 351 with tne minimoog Voyager A Mod wheel controls amount of both Mod Buss signals This is a really useful way to use the Mod Wheel as a controller for more than one type of modulation To try this out go through the following steps Initialize the Voyager s parameters Init Parameters i
84. tch Release Switch Osc 1 gt 2 Sync switch Osc 3 9 FM switch Osc 3 KB Control switch Osc 3 Frequency Range switch External Audio On Off switch Osc l On Off switch Osc 2 On Off switch Osc 3 On Off switch Noise On Off switch Filter Mode switch Envelope Gate switch MIDI CTRL NO The Touch Surface can transmit user selected MIDI CC Messages For each of the X Y and A axes the Touch Surface can be set to transmit MIDI CCs 1 31 or it can transmit no MIDI information off The T S Gate can transmit MIDI CCs 64 127 values O off and 64 on If you are using the Voyager with a sequencer then you ll want to transmit the CC numbers that corresponds to the Touch Surface Destinations If you are using the Touch surface to control other MIDI devices then you can choose the MIDI CC numbers appropriate to the parameters you wish to control in that device DIRECTION normal or inverted this selects a direction for the touch surface axes to modulate the destination For the X axis Normal means moving from left to right increases the destination s value inverted means right fo left increases the destination s value For the Y axis normal means moving from bottom to top increases the destination s value inverted means top fo bottom increases the destination s value For the A area axis normal means changing the area covered from small fo large increases the destination s v
85. tch that gives a boost to the amount of modulation ON PGM This is a programmable shaping for the mod bus with ON as the default The programmable Mod shaping is not implemented in Version 1 0 of the Software The default On is active DESTINATION A modulation destination is chosen in the same manner as the Mod source a combination of the 6 position destination switch and the software menus The Destination switch is labeled PITCH The Pitch of all three Oscillators OSC 2 The Pitch of Oscillator 2 31 OSC 3 The Pitch of Oscillator 3 FILTER The Filters Cutoff frequency WAVE All 3 Oscillators waveform LFO PGM This is a programmable destination for the mod bus with LFO Rate as the default The programmable Mod destination is set in the EDIT mode menu items MOD WHEEL PGM DEST or PEDAL PGM DEST AMOUNT The Amount control is used to set the maximum amount of modulation sent to the Modulation Destination Wnen the Amount control is set to 0 no modulation will pass through to the Modulation Destination When the Amount is set to 10 The maximum amount of modulation is sent to the Destination when the Performance controller Mod Wheel or MODI Input is all the way up MOD BUS PERFORMANCE CONTROLLERS Mod Wheel and MODI Input The Mod Wheel and MODI Input are performance controllers for the Mod Wheel Mod Bus and the Pedal On Mod Bus respectively They are the final stage in determining the amount of modulation sent to
86. the VX 351 KBD Pitch output connect the other end to the CP 251 s Lag Processor Input Using another 4 patch cable connect one end to the CP 251 s Lag Processor Output and the other end to the Voyager s Filter Control Input Turn on the Voyager s glide switch Play notes at opposing ends of the keyboard adjust the Rise and Fall time of the Lag Processor to match the up and down filter portamento to the up and down pitch portamento 75 C Sample and hold staircase patterns A Sample and Hold circuit can be used for more than generating random voltages One type of modulation pattern that can be achieved is called Staircase modulation It is achieved by feeding a slow triangle wave into the sample and hold input with a trigger signal like a LFO at a faster rate the output looks like the triangle wave is chopped up into stairs at the trigger LFO rate Initialize the Voyager s parameters Set the Voyager s LFO rate to about 8 Hz Using a Ya patch cable connect the VX 351 s LFO triangle output to the Voyager s Sample and Hold Input the red one Set the CP 251 s LFO rate to about 6 Hz Using another 4 cable connect the CP 251 s LFO square wave output to the Voyager s Sample and Hold Gate Input the blue one Select S amp H as the Voyager s Mod Wheel Mod Buss Source Play a note and move the Mod Wheel forward You should hear the pitch modulated by a staircase waveform D Envelope to Noise level for noise co
87. the selected Destination When at maximum the modulation amount is determined by the Amount control When off the modulation amount is O MOD 1 The MODI input accepts an expression pedal or control voltage from O0 to 5 Volts This is used as the performance control for tne PEDAL ON Mod Bus With nothing plugged into this jack the voltage here is 5 Volts When the voltage is at O no modulation is sent to the PEDAL ON Modulation Destination When the Voltage at The MODI is at 5 Volts the Modulation is sent to the Destination at the level set by the PEDAL ON Amount control MOD2 The MOD2 input is for applying an external modulation source into the MOD busses The input accepts an Expression Pedal or a control voltage of 5 to 5 With nothing plugged into this jack the voltage here is 5 Volts When the SOURCE switch selects ON MOD2 the Voltage that is at this jack becomes the Modulation source 32 G LFO SAMPLE AND HOLD 02 LFO SYNC Midi Ke OFF A SYNC gt N a The Voyager has a dedicated LFO and SAMPLE and HOLD The LFO produces triangle and square waves that oscillate from 2 to 50 Hz There are triangle and square wave outputs that can be selected as Modulation sources in the Mod Busses The Square wave is routed to the Sample and Hold trigger input and the noise source is routed to the sample and hold input For each cycle of the LFO the voltage at the input of the sample and hold circuit is held unt
88. ther maintenance of the Voyager should be referred to qualified service personnel There are no user serviceable parts inside the chassis Appendix B Service and Tech Support Information Your Voyager Performer Edition has a 1 year limited warranty This warranty covers parts and labor but excludes normal wear and tear and catastrophic occurrences You should refer to the warranty registration for the exact terms and conditions Should you develop problems with your Voyager please contact Moog Music tech support by email techsupport moogmusic com and describe your problem in as much detail as possible You may also contact tech support at 828 251 0090 63 Appendix C List of Presets There are a total of 128 presets in a Voyager bank There are 128 presets in the factory bank of sounds shipped with the Performer Edition These were written by the sound designer and composer Zon Vern Pyles ranging from classic Moog sounds to the outer reaches of the Voyager s synthesis capabilities Thanks for the sounds Zon The following is a list of the preset names Many are self explanatory they re all worth exploring Minimoog Voyager Performer Edition factory patches name 001 I m Ba aack 002 Chiffy Lead 003 Brassy Lead 004 Robo Vox 005 Growing Lead 006 X tra low Bass 007 Mellow Hammer 008 Hollow Bass 00 Brain Salad Buzz 010 Gurglet 011 Cycler mod wheel up 012 Wetness wheel u
89. tion With nothing plugged into the MODI jack the voltage that s present at the MODI jack is 5V When a CV is plugged in to the MODI input that voltage replaces the 5 Volt signal at the MOD Input The Voltage that appears at the MODI Input is duplicated at the MODI output MOD2 This is the CV generated from the MOD2 input The MOD2 Input is a CV input on the Voyager that is an external modulation source for the Mod Busses With nothing plugged into the MOD2 jack the voltage that s present at the MOD2 jack is T 5V When a CV is plugged in to the MOD2 input that voltage replaces the 5 Volt signal at the MOD2 Input The Voltage that appears at the MOD2 Input is duplicated at the MOD2 output 71 LFO This group of outputs is generated from the Voyager s LFO Low Frequency Oscillator circuit There are two CV waveforms here triangle and square TRIANGLE This is the triangle wave output of the LFO SQUARE This is the square wave output of the LFO BUSSES This group of outputs is generated by the Mod Buss signals They are the Modulation source after being shaped by the SHAPING signal at the level determined by the AMOUNT control and the MOD WHEEL or signal at the MODI Input jack WHEEL This is the output of the Mod Wheel Mod Buss It is the Mod Wheel SOURCE shaped by the SHAPING signal The level is determined by the AMOUNT control and the MOD WHEEL PEDAL This is the output of the Pedal On Mod Buss It is the Pedal On SOURCE sha
90. tion Preset Bank programmed by Zon Vern Pyles so don t do this unless you are sure you want to Select Factory Sounds and press ENTER The screen will prompt Reload the Factory Preset Sounds and Default Functions Yes No To restore the Voyager s factory presets select Yes and press ENTER To escape without restoring the Factory presets select No and press ENTER 1 2 Master Volume The Master Volume function is used to invert the stored Master Volume values of the Voyager s Presets This can be useful if you have a bank that has all the Master Volume parameters stored at 0 by performing this function the Volume values will be changed to the Maximum Volume 1 3 T S XYAG Dest The T S XYAG Destination function is used to restore the default parameters of the Touch Surface destinations MIDI CC off or number Direction of control and amounts for the X Y Area axes as well as the Touch Surface Gate The Default values are X Filter Cutoff MIDI CC Off Direction Normal TS X amount 5096 Y Filter Soacing MIDI CC Off Direction Normal TS X amount 50 A Filter Resonance MIDI CC Off Direction Normal TS X amount 50 Gate No switch MIDI CC 88 Polarity Normal To initialize the Voyager s Touch Surface parameters select the function T S XYAG Dest and press ENTER The screen will prompt Reset the Touch Surface XYA amp Gate Setup of all Preset Sounds Yes No Select Yes and press ENTER Press
91. to be used when the SOURCE switch for the Mod Wheel Mod Bus is set to NOISE PGM Enter EDIT mode and use the 1 button to highlight PGM M WHL SOURCE Press ENTER and the following Mod Sources appear Noise default Filter ENV Amplitude ENV Smoothed Sample and Hold Oscillator 1 Oscillator 2 Touch Surface X Touch Surface Y 2 2 PGM M WHL DEST 46 PROGRAMMABLE MOD WHEEL DESTINATION is a function that allows the user to program 1 of 8 additional modulation destinations to be used when the DESTINATION switch for the Mod Wheel Mod Bus is set to LFO RATE PGM Enter EDIT mode and use the 1 button to highlight PGM M WHL DEST Press ENTER and the following Mod Destinations appear LFO Rate default Filter Resonance Filter Spacing Panorama Osc 1 Level Osc 2 Level Osc 3 Level Noise Level 2 3 PGM PEDAL SOURCE PROGRAMMABLE PEDAL ON SOURCE is a function that allows the user to program 1 of 8 additional modulation sources to be used when the SOURCE switch for the Pedal On Mod Bus is set to NOISE PGM Enter EDIT mode and use the 1 button to highlight PGM PEDAL SOURCE Press ENTER and the following Mod Sources appear Noise default Filter ENV Amplitude ENV Smoothed Sample and Hold Oscillator 1 Oscillator 2 Touch Surface X Touch Surface Y 2 4 PGM PEDAL DEST PROGRAMMABLE PEDAL ON DESTINATION is a function that allows the user to program 1 of 8 additional modulation destinations to be used when the DESTINATION switch for The Peda
92. to the Voyager and its provided accessories you will need A keyboard stand or table that will hold the Voyager 1 instrument cable for connecting in mono or 2 1 4 instrument cables for connecting in stereo an amplifier or headphones a properly wired AC outlet Warranty registration Before you get started with your Voyager please fill out your warranty registration card and send it to Moog Music Inc This will activate your warranty and is a vital piece of information for us to provide you with the best service Remove the Voyager from the carton Before you remove the Voyager from the carton make sure you have a space in mind to set it up Keep in mind that you will need a keyboard stand or table that will support a 40 Ib analog synthesizer and will not topple if you play hard The Voyager weighs about 40 Ibs so use caution when lifting it out of the carton Make sure to save the packaging in case you need to ship the Voyager for any reason Set tilt of panel The Voyager s front panel can be tilted for comfortable adjustment of the panel controls while you play the keyboard Once the Voyager is on a stand the Voyagers panel can be lifted by the handle on the back of the instrument and set to one of 5 angles Pull the front panel forward and lift the hinged support for the panel and insert the tab into the appropriate slot on the back panel for your desired front panel angle CAUTION Do not over tilt the fron
93. tore your current settings then press ENTER The screen then confirms your decision and prompts you to select Yes or No Use the cursor button to select Yes and press ENTER The previously stored values for the selected preset are now replaced with your new values 57 4 PANEL Mode PANEL Mode is used to access presets and other performance functions Pressing the PANEL button accesses PANEL mode This lights the LED above the PANEL button and the preset number is displayed Note that the previous sound is stored until the ENTER button or the 1 1 buttons are pressed Once a preset is called up parameters can be changed If the original sound is desired simply press ENTER and the original preset will be reloaded ENTER stores the tweaked sound into a mernory buffer that can be brought back through the RECALL function in EDIT mode Once the program number is changed the buffer is cleared There are 128 memory locations for presets all of which can be overwritten by the user The 128 presets are numbered 1 to 128 A preset consists of all the settings of the front panel controls except FINE TUNE plus the parameters in EDIT mode Once a preset is called up the knobs can be used to adjust the parameters of the sound When a knob is changed andiit is in a different position than the stored value the value jumps to the position of the knob If you make changes to a preset that you like they can be saved in EDIT mode Once in PANEL mode
94. ustain control The decay time has no effect when the sustain level is set at 10 As long as a key is held down the note will sustain at the sustain level After the key is released the Release time determines how long it takes for the sound to fade out An envelope can be used to describe the shape of the volume of a sound it can also be used to describe other aspects of sound say timbre or pitch An envelope is used to generate the evolution of the sound after the note begins The Voyager has two envelope generators one for modulating the filter and one for modulating amplitude The envelopes can also be used as Modulation sources or Modulation shaping for other parameters through the Mod Busses ATTACK This control sets the Attack time of the EGR from 1 msec to 10 seconds DECAY This Control sets the Decay time of the EGR from 1 msec to 10 seconds 26 SUSTAIN This is a level control for the sustained part of the envelope RELEASE This is the time for the envelope to return to zero from 1 msec to 10 seconds AMOUNT TO FILTER For the filter envelope there is a control that adjusts the amount that the filter envelope signal modulates the filter It has both positive and negative values If it is set to a positive value say 2 The envelope will add to the Cutoff control If it is a negative value say 2 the envelope will subtract from the Cutoff control KEYBOARD ON EXTERNAL The Envelopes are started by a gate signal The
95. utside of which the frequencies are removed figure 7 Cutoff Frequency S Q 3 O frequency Frequency Response of a Lowpass Filter Cutoff Cutoff Frequencies Frequency bandwidt amplitude amplitude frequency frequency Frequency response of a Highpass Filter Frequency response of a Bandpass Filter figure 7 Control Voltage Control voltages also called CVs are used in analog synthesizers to affect changes in the sound In the case of pitch pressing a key on the keyboard sends a control voltage that determines the pitch of the oscillators The pitch can also be changed by a voltage provided from a panel control such as an oscillator tuning control Every panel control on the Voyager produces a control voltage that is routed to the circuit that the knob or slider is designed to change An oscillator with pitch varied by the voltage from the keyboard or tuning control is a Voltage Controlled Oscillator or VCO A filter whose cutoff frequency is determined by a voltage provided from the cutoff control is a Voltage Controlled Filter or VCF An amplifier whose amplification is determined by a CV is a Voltage Controlled Amplifier or VCA To illustrate the idea of control voltages let s look at a theoretical voltage controlled synth with a VCO VCF lowpass and VCA Let s suppose that the VCO frequency and VCF cutoff frequency change one octave for every volt applied to Their control inputs Let s also suppose t
96. very bright and a 4 pole filter has a 24 dB octave cutoff slope when it s a lowpass filter you hear it as smooth dark yet warm 4 2 FIL B POLE SEL This allows the configuration of the cutoff slope of Filter B Filter B is the Filter that is controlled by the Cutoff control and the Spacing control In Dual lowpass it is the Left output using both outputs In Highpass Lowpass it is the Highpass filter Use the 1 buttons to select 1 2 3 or 4 poles 4 3 FILTER ENVELOPE GATE SOURCE 4 4 VOLUME ENVELOPE GATE SOURCE With these two functions gate sources other than the keyboard and the External Gate Input jack can be programmed to trigger the Voyager s two Envelope Generators when the Envelope Gate switch is in the On External Position Possibilities include Envelope Gate Input default this is On with nothing plugged into this jack Touch Gate The gate signal from the touch surface S amp H Gate This is the LFO square wave with nothing plugged into the S amp H Gate jack MIDI Clock Keyboard Gate Gate is ON 49 Gate is OFF 5 1 T S DESTINATION Touch Surface Destination Highlighting this item and pressing ENTER accesses a menu that shows the different outputs of the Touch surface X Y A Gate The screen looks like this ouch Surface DA Touch Surface Y Touch Surface A Touch Surface Gate Use the 1 button and selecting an output then press ENTER The display shows someth
97. with the frequency of Oscillator 1 when the octave switches for all three oscillators are in the same position The frequency control can change the pitch of oscillator 2 or 3 a total of or 7 semitones 19 relative to Osc 1 This allows more than one frequency to be played when a key is pressed or to get a very swirly sound when the oscillators are slightly out of tune Oscillator 1 does not have a frequency control because it is designed to serve as a reference oscillator for the other 2 oscillators FINE TUNE Fine tune control can be used to tune the Voyager s oscillators or 2 semitones for matching an external reference pitch WAVE Oscillator waveform control The VCOs of the Voyager feature a continuously variable waveform control The legend on the front panel shows the pure waveforms that are available They are triangle sawtooth square and rectangular The waveform is morphed gradually from one to another as the waveform control is rotated Because the waveform is voltage controlled this can be modulated This allows generation of some very interesting timbral changes By limiting the modulation between the square and skinny pulse waveform you can get pulse width modulation Although the waveforms can be set from the front panel individually for each oscillator modulation is applied to all three waveform controls simultaneously When using modulation it is possible to make the width of the rectangular wave so skinny tha
98. with widely varying Master Volume values RECEIVE SINGLE PRESET 58 This does not appear as an option in the Panel Menu but is used in conjunction with Receive Presets in Master Mode In Master Mode make sure Sysex is enabled in Receive Presets Once this is done a single preset can be received to the current active preset location in Panel mode Once a preset is received in the current active location it can be auditioned If you want that preset to become part of the Voyager s preset bank you must save the imported preset If it is not saved and the current preset number is changed the imported preset is wiped from the Voyager s preset memory buffer Using this function in conjunction with the Send single preset function in Master mode allows the mix and match of presets from different banks COMPARE Compare is a feature in Panel Mode linked to the Edit Mode Compare to Preset function Pressing the CURSOR activates this function loading the sound in the Compare buffer and pressing ENTER returns to the active preset To load a Preset into the Panel Compare buffer Go to Edit Mode select Compare to Preset and press ENTER Use the cursor to move to the Preset field Press PANEL to go back to PANEL mode Now when you press CURSOR the preset should show as being loaded into the Compare buffer It will remain there until the Compare function is used in Edit mode 59 5 MIDI Software Version 2 5 for the minimoog Voyag

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