Korg X50 Bedienungsanleitung
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Richtige Gebrauchsanleitung
Die Vorschriften verpflichten den Verkäufer zur Ăbertragung der Gebrauchsanleitung Korg X50 an den Erwerber, zusammen mit der Ware. Eine fehlende Anleitung oder falsche Informationen, die dem Verbraucher Ăźbertragen werden, bilden eine Grundlage fĂźr eine Reklamation aufgrund Unstimmigkeit des Geräts mit dem Vertrag. RechtsmäĂig lässt man das AnfĂźgen einer Gebrauchsanleitung in anderer Form als Papierform zu, was letztens sehr oft genutzt wird, indem man eine grafische oder elektronische Anleitung von Korg X50, sowie Anleitungsvideos fĂźr Nutzer beifĂźgt. Die Bedingung ist, dass ihre Form leserlich und verständlich ist.
Was ist eine Gebrauchsanleitung?
Das Wort kommt vom lateinischen âinstructioâ, d.h. ordnen. Demnach kann man in der Anleitung Korg X50 die Beschreibung der Etappen der Vorgehensweisen finden. Das Ziel der Anleitung ist die Belehrung, Vereinfachung des Starts, der Nutzung des Geräts oder auch der AusfĂźhrung bestimmter Tätigkeiten. Die Anleitung ist eine Sammlung von Informationen Ăźber ein Gegenstand/eine Dienstleistung, ein Hinweis.
Leider widmen nicht viele Nutzer ihre Zeit der Gebrauchsanleitung Korg X50. Eine gute Gebrauchsanleitung erlaubt nicht nur eine Reihe zusätzlicher Funktionen des gekauften Geräts kennenzulernen, sondern hilft dabei viele Fehler zu vermeiden.
Was sollte also eine ideale Gebrauchsanleitung beinhalten?
Die Gebrauchsanleitung Korg X50 sollte vor allem folgendes enthalten:
- Informationen ßber technische Daten des Geräts Korg X50
- Den Namen des Produzenten und das Produktionsjahr des Geräts Korg X50
- Grundsätze der Bedienung, Regulierung und Wartung des Geräts Korg X50
- Sicherheitszeichen und Zertifikate, die die Ăbereinstimmung mit entsprechenden Normen bestätigen
Warum lesen wir keine Gebrauchsanleitungen?
Der Grund dafĂźr ist die fehlende Zeit und die Sicherheit, was die bestimmten Funktionen der gekauften Geräte angeht. Leider ist das AnschlieĂen und Starten von Korg X50 zu wenig. Eine Anleitung beinhaltet eine Reihe von Hinweisen bezĂźglich bestimmter Funktionen, Sicherheitsgrundsätze, Wartungsarten (sogar das, welche Mittel man benutzen sollte), eventueller Fehler von Korg X50 und LĂśsungsarten fĂźr Probleme, die während der Nutzung auftreten kĂśnnten. Immerhin kann man in der Gebrauchsanleitung die Kontaktnummer zum Service Korg finden, wenn die vorgeschlagenen LĂśsungen nicht wirksam sind. Aktuell erfreuen sich Anleitungen in Form von interessanten Animationen oder Videoanleitungen an Popularität, die den Nutzer besser ansprechen als eine BroschĂźre. Diese Art von Anleitung gibt garantiert, dass der Nutzer sich das ganze Video anschaut, ohne die spezifizierten und komplizierten technischen Beschreibungen von Korg X50 zu Ăźberspringen, wie es bei der Papierform passiert.
Warum sollte man Gebrauchsanleitungen lesen?
In der Gebrauchsanleitung finden wir vor allem die Antwort ßber den Bau sowie die MÜglichkeiten des Geräts Korg X50, ßber die Nutzung bestimmter Accessoires und eine Reihe von Informationen, die erlauben, jegliche Funktionen und Bequemlichkeiten zu nutzen.
Nach dem gelungenen Kauf des Geräts, sollte man einige Zeit fßr das Kennenlernen jedes Teils der Anleitung von Korg X50 widmen. Aktuell sind sie genau vorbereitet oder ßbersetzt, damit sie nicht nur verständlich fßr die Nutzer sind, aber auch ihre grundliegende Hilfs-Informations-Funktion erfßllen.
Inhaltsverzeichnis der Gebrauchsanleitungen
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Seite 1
Pa r ameter Guide 2 E[...]
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Seite 2
iii About this manual This âParameter Guideâ contains explanations and other information regar ding the operations of the parameters and settings on the X50/microX. The explanations ar e or ganized by mode, page, and tab. Explanations and other information on the effects and their parameters ar e also provided for each effect. Refer to this gui[...]
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Seite 3
iv T able of C ontents 1. Program mode ........................... 1 PROG PAGE MENU .................................... 1 PROG 0: Play .............................................. 1 0â1: Program .......................................................... 1 0â2: P.Edit (Performance Editor) ........................ 3 0â3: Arp (Arp. Play).....[...]
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Seite 4
v COMBI 4: EdâMIDI Filter2 ....................... 44 4â1: MIDI 2â1 (MIDI Filter 2â1) ........................ 44 4â2: MIDI 2â2 (MIDI Filter 2â2) ........................ 44 X50: 4â3: MIDI 2â3 (MIDI Filter2â3) ................. 44 X50: 4â4: MIDI 2â4 (MIDI Filter 2â4) ................ 44 microX: 4â3: MIDI 2â3 (MIDI Filt[...]
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Seite 5
vi 6â5: Review .......................................................... 68 MULTI 7: Arp/Ctrls (Arpeggiator/Controls) .......................... 69 7â1: Set..8 (Setup T01â08) ................................... 69 7â2: Set..16 (Setup T09â16) ................................. 69 7â3: Arp. A (Arpeggiator A).............................. [...]
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Seite 6
vii 10: St.Rndm Filter (Stereo Random Filter)..... 109 11: St.Exct/Enhcr (Stereo Exciter/Enhancer) ......................... 110 12: St.Sub OSC (Stereo Sub Oscillator) ........... 110 13: Talking Mod (Talking Modulator) ........... 111 14: St.Decimator (Stereo Decimator) .............. 112 15: St.AnalogRecd (Stereo Analog Record) ... 112 Pitch/Phas[...]
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Seite 7
viii 77: ExctâPhaser (Exciter â Phaser) .................. 143 78: ExctâM.Dly (Exciter â Multitap Delay) ... 143 79: OD/HGâAmpSim (Overdrive/Hi.Gain â Amp Simulation) .... 144 80: OD/HGâCho/Fl (Overdrive/Hi.Gain â Chorus/Flanger) .... 144 81: OD/HGâPhaser (Overdrive/Hi.Gain â Phaser) .................. 145 82: OD/HGâM.Dly (Ove[...]
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Seite 8
PROG 0 1 2 3 4 5 6 7 8 9 1 1. P rogr am mode PROG P A GE MENU Use the following procedur e to select the desired page fr om within the current mode. 1 Press the [MENU/OK] button to access the âP AGE MENU.â The âP AGE MENUâ will show an abbreviated name for each page. 2 Use the ClickPoint [ â ][ ÂŽ ][ Ď ][ â ] to select a page. 3 Press [...]
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Seite 9
2 microX: Use the PROGRAM [A]â[GM] buttons to select the bank. The microX pr ovides rewritable banks A , B , C , D , and E , each containing 128 programs (total 640). As for non- rewritable pr ogram areas, it pr ovides banks G (capital pro- grams for GM), and bank g(d) (drums). If you press a PRO- GRAM [A]â[GM] button, you will automatically en[...]
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Seite 10
3 PROG 0 1 2 3 4 5 6 7 8 9 The tenâs place of the program number will be ďŹxed. 2 Now you can press a numeric button [0]â[9] to enter the oneâs place in a single action. 3 Y ou can use the [INC][DEC] buttons to change the tenâs place. 4 To defeat 10âs HOLD, press the [./HOLD] button to make the indication disappear . î (T empo) [040...[...]
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Seite 11
4 Editing done using the Performance Editor will occur within the range of the corresponding parameter . If after using the Performance Editor to modify a value, you move to another page or mode and then return, the sound will remain in its edited state but the value shown in the LCD screen by the Performance Editor will be +00 . Y ou may do furthe[...]
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Seite 12
5 PROG 0 1 2 3 4 5 6 7 8 9 0â3: Arp (Arp . Play) While arpeggiator parameters are for the most part edited in PROG 7: EdâArp/Ctrls, Some major parameters can be edited here as well. When you ar e playing in PROG 0: Play , you can edit the arpeggiator in realtime, such as changing the arpeggio pattern etc. Y ou can also use the REAL TIME CONTROL[...]
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Seite 13
6 PROG 1: EdâBasic Here you can make basic settings for the oscillator(s). 1â1: Basic (Prog Basic) 1â1a: Oscillator Mode (Oscillator Mode) [Single, Double, Drums] SpeciďŹes the basic program type; whether it will use one or two oscillators, or a drum kit. Single: The program will use one oscillator (Oscillator 1, Filter 1, AmpliďŹer 1). In [...]
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Seite 14
7 PROG 0 1 2 3 4 5 6 7 8 9 User All Notes: This is the full-range scale (Câ1 â G9) that is speciďŹed in âUser All Notes Scaleâ (GLOBAL 2â2a). User Octave 00â15: These are the single-octave scales that are speciďŹed in âUser Octave Scaleâ (GLOBAL 2â1a). Key [CâŚB] Indicates the tonic note of the speciďŹed scale. This setting is[...]
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Seite 15
8 On (checked): The sound will start from the start of fset loca- tion that is pre-determined for each multisample. Off (unchecked): The sound will start from the beginning of the multisample waveform. Rev (High Rev erse) [Off , On] The multisample will be played in reverse. If the multisam- ple was originally set to reverse, it will playback witho[...]
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Seite 16
9 PROG 0 1 2 3 4 5 6 7 8 9 S elect by Category Selects multisamples by category . For the procedur e, refer to âSelect by Categoryâ ( â p.2). This command is valid if âMode (Oscillator Mode)â (1â 1a) is set to Single or Double , and you have selected the 1â2b: High, Low parameter . 1â3: OSC2 This will appear when âMode (Oscillator[...]
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Seite 17
10 PROG 2: EdâPitch Here you can make pitch modulation settings for oscillators 1 and 2. 2â1: OSC1 SpeciďŹes how the key position (on the keyboard) will af fect the pitch of oscillator 1, and selects the controller that will modify the pitch and the depth of this effect. Her e you can also specify the amount of pitch change caused by the pitch[...]
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Seite 18
11 PROG 0 1 2 3 4 5 6 7 8 9 AMS (Pitch EG AMS) [Off , (KT , EXT )] Selects the source that will contr ol the pitch modulation applied by the pitch EG ( â p.152 âAMS Listâ). Intensity (AMS Intensity) [â12.00âŚ+12.00] SpeciďŹes the depth and direction of the ef fect that âAMS (Pitch EG AMS)â will have. For example, if you set âAMS (Pi[...]
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Seite 19
12 Intensity (AMS Intensity) [â12.00âŚ+12.00] SpeciďŹes the depth and direction of the ef fect that âAMS (LFO1 AMS)â will have. W ith a setting of 0 , modulation will not be applied. W ith a setting of 12.00 , the OSC1 LFO1 will apply a maximum of Âą1 octave of pitch modulation. Negative (â) settings will invert the LFO waveform. For exam[...]
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Seite 20
13 PROG 0 1 2 3 4 5 6 7 8 9 2â5b: Lev el Mod. (Lev el Modulation) These settings allow the pitch EG âL (Level parameters)â to be controlled by alternate modulation. AMS1 (Lev el Mod. AMS1) [Off , (KT , EXT )] Selects the source that will contr ol the pitch EG âL (Level parameters)â ( â p.152 âAMS Listâ). I (AMS1 Intensity) [â99âŚ[...]
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Seite 21
14 PROG 3: EdâLFOs Here you can make settings for the LFO that can be used to cyclically modulate the Pitch, Filter , and Amp of oscillators 1 and 2. There ar e two LFO units for each oscillator . By setting the LFO1 or LFO2 Intensity to a negative (â) value for Pitch, Filter , or Amp, you can invert the LFO waveform. 3â1: OS1LFO1 (OSC1 LFO1)[...]
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Seite 22
15 PROG 0 1 2 3 4 5 6 7 8 9 AMS2 (F req . AMS2) [Off , (PEG, FEG, AEG, LFO2, KT , EXT )] Int (AMS2 Intensity) [â99âŚ+99] Indicates settings for a second alternate modulation source that will adjust the frequency of the oscillator 1 LFO1. â âAMS1 (Freq. AMS1),â âInt. (AMS1 Intensity)â 3â1c: MIDI/T empo Sync. (F requency MIDI/T empo Sy[...]
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Seite 23
16 PROG 4: EdâF ilter1 Indicates settings for ďŹlter 1, which controls the tone of oscil- lator 1. Y ou can select either a 24 dB/oct low pass ďŹlter with r esonance, or a 12 dB/oct low pass ďŹlter and 12 dB/oct high pass ďŹlter connected in series. When âMode (Oscillator Mode)â (1â1a) is Single , Drums you can use ďŹlter 1. When it is[...]
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Seite 24
17 PROG 0 1 2 3 4 5 6 7 8 9 4â2: Mod .1 (F ilter1 Modulation1) Indicates settings for keyboard tracking which modiďŹ es the tone by modulating the ďŹlter 1 cutoff frequency âFrequency (A/B Frequency),â and intensity settings for the ďŹlter 1 EG, etc. 4â2a: Ke yboard T rack These settings specify keyboard tracking for the cutof f fre- que[...]
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Seite 25
18 4â2c: AMS, Into to A, Int to B AMS (Filter EG AMS) [Off , (EXT )] Indicates the source that will contr ol the depth and direction of the effect that the time-varying changes pr oduced by the ďŹlter 1 EG will have on the cutoff fr equency of ďŹlters 1A and 1B ( â p.152 âAMS Listâ). Int. to A (AMS Int. to A) [â99âŚ+99] SpeciďŹes the [...]
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Seite 26
19 PROG 0 1 2 3 4 5 6 7 8 9 microX: By moving the joystick in the âY direction (down), you can control the depth at which OSC1 LFO1 modulates the cutoff fr equency of ďŹlter 1A. This parameter speciďŹes the depth and direction of the contr ol. For example, as this value is raised , OSC1 LFO1 will have a correspond- ingly greater ef fect on ďŹl[...]
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Seite 27
20 S (Slope Time) [00âŚ99] SpeciďŹes the time over which the level will change after the decay time has elapsed until the sustain level is reached. R (Release Time) [00âŚ99] SpeciďŹes the time over which the level will change after note-on occurs until the release level is r eached. 4â5b: Lev el Mod. (Lev el Modulation) These settings let you[...]
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Seite 28
21 PROG 0 1 2 3 4 5 6 7 8 9 AMS2 ( Time Mod. AMS2) [Off , (KT , EXT )] I (AMS2 Intensity) [â99âŚ+99] A (AMS2 SW Attack) [â, 0, +] D (AMS2 SW Decay) [â, 0, +] S (AMS2 SW Slope) [â, 0, +] R (AMS2 SW Release) [â, 0, +] These parameters are the settings for âAMS2â to contr ol the âT imeâ parameters of the ďŹlter 1 EG ( â âAMS1 ([...]
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Seite 29
22 6â1c: AMS, Intensity AMS (Pan AMS) [Off , (PEG, FEG, AEG, LFO , KT , EX T )] Indicates the source that will modify pan ( â p.152 âAMS Listâ). This change will be relative to the âPan (Amp1 Pan)â setting. Intensity [â99âŚ+99] SpeciďŹes the depth of the effect pr oduced by âAMS (Pan AMS).â For example, if âPan (Amp1 Pan)â i[...]
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Seite 30
23 PROG 0 1 2 3 4 5 6 7 8 9 The actual volume will be determined by summing the value of the changes produced by the amp EG with the val- ues of Alternate Modulation etc., and if the levels of the amp EG are low , the modulation applied by Alternate Modula- tion will also be less. For example if you set âAMSâ to Pedal #04 and set Global 0â 3a[...]
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Seite 31
24 value will cause the amp 1 EG volume levels to increase as you play more str ongly . Setting âIntensityâ to a negative (â) values will cause the amp 1 EG volume levels to decr ease as you play more str ongly . W ith a setting of 0 , the levels will be as speciďŹed in âAmp 1 EGâ (6â3a). S (AMS SW Start) [â, 0, +] SpeciďŹes the dir[...]
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Seite 32
25 PROG 0 1 2 3 4 5 6 7 8 9 â 6â3: UTILIT Y â âW rite Programâ (0â1), âCopy Oscillator ,â âSwap Oscilla- torâ (1â1) For details on how to select the desired utility function, r efer to âPROG 0â1: UTILITY .â Sync Both EGs The amp 1 EG and the amp 2 EG can be edited simulta- neously . (Editing either one will cause the oth[...]
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Seite 33
26 Octav e* [1, 2, 3, 4] SpeciďŹes the number of octaves in which the arpeggio will be played. If a user arpeggio pattern is selected, the range of the arpeggio will depend on the âOctave Motionâ (GLO- BAL 5â1c) setting. Reso (Resolution)* [ î î , î , î î , î , î î , î ] SpeciďŹes the timing resolution of the arpeggio. The[...]
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Seite 34
27 PROG 0 1 2 3 4 5 6 7 8 9 7â2: Zone (Scan Zone) 7â2a: Scan Zone Z one Map This shows the âScan Zoneâ setting. Key : Btm (Bottom Key) [Câ1...G9] T op ( T op Ke y) [Câ1...G9] These parameters specify the range of notes (keys) for which the arpeggiator will function. âT opâ is the upper limit, and âBtmâ is the lower limit. V el: [...]
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Seite 35
28 PROG 8: EdâInser tFX â For details on insertion effect, r efer to p.97 â6. Effect Guide.â 8â1: BUS These settings specify the bus on which the output of the oscillator will be sent, and adjust the send levels to the mas- ter effects. The following diagram shows the LCD screen when âMode (Oscillator Mode)â (1â1a) is set to Single [...]
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Seite 36
29 PROG 0 1 2 3 4 5 6 7 8 9 4 If you check âPost IFX Mixer Setting,â the âPan (CC#8),â âBUS Select,â âS1 (Send1(MFX1))â and âS2 (Send2(MFX2))â settings that follow the copy source insert effect will also be copied. If you do not check this, only the effect type and its parameters will be copied. 5 To execute the Copy Insert Effe[...]
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Seite 37
30 PROG 9: EdâMasterFX â For details on master effects, r efer to p.97 â6. Effect Guide.â 9â1: S etup Here you can select the master ef fect types, switch them on/ off, specify chain or der , and set the master EQ. 9â1a: Master Effect S etup The master effects do not output the dir ect sound (Dry). The r eturn level (âRtn 1, 2â) sen[...]
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Seite 38
31 PROG 0 1 2 3 4 5 6 7 8 9 3 Select the effect that you wish to copy . If you select MFX 1 or 2 , âRtn (Return)â (return level) will be copied at the same time. If you select Master EQ , only the master EQ settings will be copied. Y ou can also copy from an insert effect. If you check âAll,â all settings of the master effects and master EQ[...]
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Seite 39
32[...]
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Seite 40
C OMBI 0 1 2 3 4 5 6 7 8 9 33 2. C ombination mode C OMBI P A GE MENU For details on how to select pages in Combination mode, r efer to p.1. C OMBI 0: Pla y In this display page you can select and play Combinations. A Combi allows you to use up to 8 programs at one time. 0â1: Combi (C ombination) X50 microX 0â1a: Bank, Combi Select, Category , [...]
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Seite 41
34 ⢠Press the center of the ClickPoint to highlight the field, then use [ Ď ][ â ] to select a program, and press the center to finalize your selection. ⢠10âs HOLD ( â p.34) ⢠Use COMBI BANK [A]â[C] to select a bank ( â p.33) ⢠Use âCat. HOLDâ to select by category ( â p.34) ⢠Use âSelect by Categoryâ to select by c[...]
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Seite 42
35 C OMBI 0 1 2 3 4 5 6 7 8 9 S elect by Category Selects a combination by category . For the procedur e, refer to âSelect by Categoryâ ( â p.2) X50 microX 0â2: Prog (T imbre Program) Indicates the program that will be used by each timbr e. 0â2a: Bank, Combi Select, Cat.Hold , 10â s Hold , î ( T empo) Bank [Bank AâŚC] Combi Select (C[...]
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Seite 43
36 0â2d: Selec ted Timbre Information This shows information on the timbre (1â8) that is curr ently selected for editing. T imbre No .: Bank No., Prog No .: and name This shows the timbre number , and the program bank, num- ber and name selected for that timbre. Status (INT , Off , EX T , EX2) This shows the MIDI and internal tone generator sta[...]
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Seite 44
37 C OMBI 0 1 2 3 4 5 6 7 8 9 Hold Balance Adjusts the volume of the Combi while preserving the vol- ume balance between timbres 1â8. Select the âV olumeâ of any timbre, choose âHold Balanceâ from the utility menu, and pr ess the center of the ClickPoint. A check mark will appear at the left of âHold Balance.â (The upper right of the [...]
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Seite 45
38 C OMBI 1: Ed âT one Adjust 1â1: Prog (T imbre Program) Indicates the bank and program for each timbr e 1â8. These parameters can also be set from the 0: Play , Prog page. 1â1a: Program Select, Program Name Pr ogram Select Indicates the program that will be used by each timbr e. ( â 0â2c) Progr am Name This displays part of the progra[...]
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Seite 46
39 C OMBI 0 1 2 3 4 5 6 7 8 9 Reso .HP (Resonance/High P ass F ilter Cutoff Fr equenc y) [â99âŚ+00âŚ+99] Adjusts the resonance level of the low pass ďŹlter or the cut- off fr equency of the high pass ďŹlter for program OSC 1/2. The parameter that is controlled will depend on the ďŹlter type speciďŹed for the program. The parameter will be c[...]
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Seite 47
40 C OMBI 2: EdâTimbr e Par am 2â1: MIDI Here you can make MIDI settings for each timbr e. 2â1a: Status, MIDI Channel, Bank(EX2) MSB/LSB Status [INT , Off , EX T , EX2] SpeciďŹes the status of MIDI and the internal tone generator for each timbre. INT : When you play this instrument, the internal tone gen- erator will sound, and will also sou[...]
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Seite 48
41 C OMBI 0 1 2 3 4 5 6 7 8 9 2â3: Pitch Here you can make pitch-r elated settings for each timbre. 2â3a: T ranspose, Detune, B end Range Tr anspose [â24âŚ+24] Adjusts the pitch of each timbre in semitone steps. 12 units equal one octave. When âStatusâ (2â1a) is INT , this parameter will affect the pitches sounded by the X50/microX. Wh[...]
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Seite 49
42 2â4: O ther SpeciďŹes the delay from note-on until sound is pr oduced for each timbre. Also speciďŹes the scale. 2â4a: Delay [ms], Use Pr og â s Scale Delay [ms] [0000âŚ5000, Ke yOff ] SpeciďŹes a delay time from note-on until the sound begins for each timbre. KeyOff: The note will begin sounding at note-of f. In this case, the sound w[...]
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Seite 50
43 C OMBI 0 1 2 3 4 5 6 7 8 9 3â2: MIDI 1â2 (MIDI Filter 1â2) 3â2a: Damper C C#64, Portamento SW C C#65 Damper C C#64 [Off , On] SpeciďŹes whether or not MIDI control change message #64 hold (damper pedal) messages will be transmitted and received. Po r tamento SW CC#65 [Off , On] SpeciďŹes whether or not MIDI control change message #65 p[...]
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Seite 51
44 C OMBI 4: EdâMIDI F ilter2 SpeciďŹes whether the A- and B-mode effects of REAL TIME CONTROLS knobs [1], [2], [3], and [4] will be transmitted and received. The A-mode of each knob is ďŹxed as a MIDI control change message. For B-mode, you can assign a MIDI control change message in 7: EdâArp/Ctrls. X50: SpeciďŹes whether the effects of [S[...]
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Seite 52
45 C OMBI 0 1 2 3 4 5 6 7 8 9 X50: 4â4a: FootP edal/Switch, O ther Con- trol Change/ microX: 4â3a: FootP edal/Switch, O ther Co ntr ol Change Fo otP edal/Switch [Off , On] SpeciďŹes whether or not the effect of the ASSIGNABLE PEDAL/SWITCH will be transmitted and received. The function is assigned in GLOBAL 0â3: System Foot page. This setting[...]
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Seite 53
46 5â2: Slope (Key Slope) 5â2a: T op Slope, Bottom Slope T op Slope [00...72] SpeciďŹes the range of keys (12 is one octave) over which the maximum programmed volume level will be r eached, start- ing from the top key . 0: The volume will be at the original level from the top key . 12: The volume will increase gradually as you play down- ward,[...]
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Seite 54
47 C OMBI 0 1 2 3 4 5 6 7 8 9 6â2: Slope (V elocit y Slope) 6â2a: T op Slope, Bottom Slope T op Slope [000âŚ120] SpeciďŹes the number of velocity steps over which the origi- nal volume will be reached, starting fr om the T op V elocity . 0: The volume will be at the original value from the top velocity . 120: The volume will decrease as the v[...]
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Seite 55
48 In this case, the arpeggiator can be triggered (operated) by any MIDI channel speciďŹed for the âMIDI Channelâ parameter of any timbre 1â8 assigned to arpeggiator A or B. If Local Control (âLocal Contr ol On,â GLOBAL 1â1a) is Off, the keyboar d will not trigger the arpeggiator . The arpeggiator will be triggered via MIDI IN. T urn L[...]
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Seite 56
49 C OMBI 0 1 2 3 4 5 6 7 8 9 ( â p.25 PROG 7: EdâArp/Ctrls) * These parameters can also be set in â0â4: Arp. A, 0â5: Arp. Bâ 7â2(3)b: ( T empo) î (T empo) [040...240, EXT ] Sets the tempo of the arpeggiator . This can be adjusted by the REAL TIME CONTROLS C-mode [TEMPO] knob. â p.34 â î (T empo)â (0â1a) â 7â2(3): UTIL[...]
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Seite 57
50 7â5: Contr ols X50 microX 7â5a: Knob B Assign These settings assign functions (mainly various control changes) to the B-mode of the REAL TIME CONTROLS knobs [1]â[4] ( â p.162 âRealtime Control Knobs B Assign Listâ). The functions you specify here will be contr olled when you operate the REAL TIME CONTROLS knobs [1]â[4] in B- mode. [...]
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Seite 58
51 C OMBI 0 1 2 3 4 5 6 7 8 9 value with the send level âS1 (Send1(MFX)), â âS2 (Send2(MFX))â (PROG 8â2a) for each oscillator of the program selected for the timbr e. â 8â1: UTILIT Y â âW rite Combination,â âSolo Selected T imbreâ (0â1) Co py Inser t Effect â PROG 8â1 However , the MIDI control channel speciďŹed for ?[...]
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52 8â3: IFX (Inser t Effect) Here you can adjust the parameters for the IFX that was selected in the Setup page ( â p.104â). â 8â3a: UTILIT Y â âW rite Combinationâ (0â1) C OMBI 9: EdâMasterFX â For details on master effects, r efer to p.97 â6. Effect Guide.â 9â1: S etup Here you can select the type of each master ef fec[...]
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Seite 60
53 C OMBI 0 1 2 3 4 5 6 7 8 9 9â1d: MEQ Ctrl MEQ Ctrl (MEQ Con trol Ch) [Ch01...16, G ch] Selects the MIDI channel that will control dynamic modulation (Dmod) for the master EQ. G ch : The global MIDI channel âMIDI Channelâ (GLOBAL 1â1a) will be used for control. Normally you will set this parameter to G ch . â 9â1: UTILIT Y â âW ri[...]
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54[...]
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Seite 62
MUL TI 0 1 2 3 4 5 6 7 8 9 55 3. Multi mode In Multi mode, the X50/microX functions as a 16-part multi- timbral MIDI tone generator that can receive and play multi- ple channels of MIDI messages from an external MIDI sequencer . Y ou can also make the arpeggiator play in syn- chronization with an external MIDI sequencer . A âMultiâ has sixteen [...]
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Seite 63
56 Co nt r ol T r ack [ T01âŚT16: name] This selects the track that will be played by the keyboard of the X50/microX and that will be contr olled by the various controllers of the X50/micr oX. T rack names can be speciďŹed in Utility âRename T rackâ (0â1). When you play the keyboard or operate the contr ollers of the X50/microX, the interna[...]
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Seite 64
57 MUL TI 0 1 2 3 4 5 6 7 8 9 GM Initialize This command transmits a GM System On message to Multi mode, resetting all tracks to the GM settings (r efer to the table below). In Multi mode when a GM System On message is received fr om an external device or the tone generator will be reset to the GM settings in the same way as when this command is ex[...]
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Seite 65
58 ⢠Press the center of the ClickPoint to highlight the field in the display, use [ Ď ][ â ] to make your choice, and press the center to confirm. ⢠Use PROG BANK [A]â[GM] to select a bank ( â p.1) ⢠Use âSelect by Categoryâ to choose from the desired category ( â p.36) ⢠Receiving a MIDI program change message can also be use[...]
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59 MUL TI 0 1 2 3 4 5 6 7 8 9 â 0â4(5): UTILIT Y â âW rite Multi,â âCopy From Combi,â âGM Initializeâ (0â 1), âSelect by Categoryâ (0â2(3)) microX: 0â6: Ex t. C ontrol The external control function lets you use the REAL TIME CONTROLS knobs to control an external MIDI device. Y ou can assign a MIDI control change and MIDI[...]
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60 âDestination 1â6â and â V alue 1â6â The parameters that can be controlled and their range of val- ues are as follows. LPF Fc (Low P ass Filter C utoff Frequency) [â99âŚ+00âŚ+99] Adjusts the low pass ďŹlter cutoff fr equency of pr ogram OSC 1/2. This will affect the brightness of the sound. The param- eter will be controlled in t[...]
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Seite 68
61 MUL TI 0 1 2 3 4 5 6 7 8 9 Rev erse [Off , PRG, On] Controls the âRev (Reverse)â parameter (1â1b â p.8, GLO- BAL 4â1b â p.87) for each Multisample or Drumsample of program OSC1/2. If you turn this On , all multisamples and drum samples will play backward. If you turn this Of f , all multisamples and drum samples will play normally . [...]
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Seite 69
62 MIDI Channel [01âŚ16] SpeciďŹes the MIDI data that the track will use to transmit and receive MIDI data. T racks set to INT which have the same MIDI channel will sound and be controlled identically when they receive MIDI data. Bank(EX2) MSB [000...127] Bank(EX2) LSB [000...127] When âStatusâ is set to EX2 , this sets the bank number that w[...]
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Seite 70
63 MUL TI 0 1 2 3 4 5 6 7 8 9 This setting can be controlled and changed by r eceived MIDI RPN Pitch Bend Range messages. (These mes- sages will not be received if the setting is PRG .) This is controlled on the MIDI channel speciďŹed for each track by âMIDI Channelâ (2â1a/2a). â 2â5(6): UTILIT Y â âW rite Multi,â âCopy From Comb[...]
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Seite 71
64 MUL TI 3: MIDI F ilter1 Here you can select whether or not to apply ďŹltering to the MIDI data received by tracks 1â16. For example, even if two tracks are r eceiving the same MIDI channels, one can be made to respond to damper pedal activity while the other does not. These settings affect the MIDI messages that ar e trans- mitted when you ad[...]
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Seite 72
65 MUL TI 0 1 2 3 4 5 6 7 8 9 â 3â5(6): UTILIT Y â âW rite Multi,â âCopy From Combiâ (0â1) 3â7: 1â4..8 (MIDI Filter2â2 T01â08) 3â8: 1â4..16 (MIDI Filter2â2 T09â16) 3â7(8)a: JSX/PBend as AMS, Ribbon C C#16 JSX/PBend as AMS [Off , On] X50: SpeciďŹes whether MIDI pitch bend messages (move- ment of the X50âs Pitch w[...]
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66 4â3: 2â2..8 (MIDI Filter2â2 T01â08) 4â4: 2â2..16 (MIDI Filter2â2 T09â16) 4â3(4)a: Realtime Contr ol Knob 3, 4 Knob3 [Off , On] SpeciďŹes whether or not the A-mode [3] knob MIDI control change message #79 (ďŹlter EG intensity) and the B-mode [3] knob MIDI control change message will be r eceived. Knob4 [Off , On] SpeciďŹes wh[...]
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67 MUL TI 0 1 2 3 4 5 6 7 8 9 MUL TI 5: Ke y Zone Here you can specify the range of keys that will be sounded by each track. T op/Bottom Key settings specify the range of notes that will be sounded by tracks 1â8, 9â16, and T op/Bottom Slope set- tings specify the range from the top/bottom key until the original volume is reached. This setting d[...]
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Seite 75
68 MUL TI 6: V el Zone (V elocity Zone) SpeciďŹes the range of velocities that will sound each track. Set the T op/Bottom V elocity parameters to set the range of velocities that will sound tracks 1â8 and 9â16, and set the T op/Bottom Slope parameters to specify the range over which the volume will change. These settings do not affect MIDI tra[...]
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Seite 76
69 MUL TI 0 1 2 3 4 5 6 7 8 9 MUL TI 7: Arp/Ctrls (Arpeggiator/C ontrols) Here you can specify how the arpeggiator will operate in Multi mode. These settings can be made for each multi set. In Multi mode (as in Combination mode), you can run the two arpeggiators simultaneously . This allows you to apply differ ent arpeggio patterns to two tracks, o[...]
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Seite 77
70 7â3: Arp . A (Arpeggiator A) 7â4: Arp . B (Arpeggiator B) Indicates settings for arpeggiator A in the Arp. A page, and for arpeggiator B in the Arp. B page. Y ou can use the âCopy Arpeggiatorâ utility to copy set- tings from another mode such as Pr ogram mode. 7â3(4)a: ArpeggiatorâA (B) Setup Pa ttern [Pr eset-0...Preset-4, U000...U2[...]
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Seite 78
71 MUL TI 0 1 2 3 4 5 6 7 8 9 7â6: Contr ols When you operate these controllers on the MIDI chan- nel of the âControl T rack,â the MIDI messages assigned here will be transmitted (if âStatusâ 2â1a/2a is EXT , EX2 , or BTH ). X50 microX 7â6a: Knob B Assign Here you can set the B-mode functions (mainly various con- trol changes) that th[...]
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Seite 79
72 MUL TI 8: Inser tFX â For details on insert effects, r efer to p.97 â6. Ef fect Guide.â 8â1: BUS..8 (BUS T01...08) 8â2: BUS..16 (BUS T09...16) SpeciďŹes the bus to which the program oscillator(s) of each track 1â8, 9â16 will be sent. Y ou can also set the amount of signal that will be sent to the master effects. 8â1(2)a: BUS Sel[...]
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Seite 80
73 MUL TI 0 1 2 3 4 5 6 7 8 9 8â3b: Contr ol Channel Co nt r ol Channel [Ch01...16, All Rt.] Indicates the MIDI channel that will control ef fect dynamic modulation (Dmod), pan following the insert effect âPan (CC#8),â âSend1(MFX1),â and âSend2(MFX2).â An asterisk â * â will be displayed at the right of the channel number Ch01â1[...]
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Seite 81
74 9â1d: MEQ Ctrl MEQ Ctrl (MEQ Con trol Ch) [Ch01...16, G ch] SpeciďŹes the MIDI channel that will control dynamic modulation (Dmod) for the master EQ. G ch : The effect will be contr olled on the global MIDI chan- nel âMIDI Channelâ (GLOBAL 1â1a). â 9â1: UTILIT Y â âW rite Multiâ (0â1), âSelect by Categoryâ (PROG 9â1) C[...]
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Seite 82
GL OBAL 0 1 2 3 4 5 6 75 4. Global mode In Global mode you can make settings that affect the entir e instrument, such as master tuning, MIDI, and memory pro- tect. Y ou can also edit user scales, drum kit setups, and user arpeggio patterns. If you want the settings you make in Global mode to be backed up when the power is turned off, you must write[...]
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76 In Program, Combination and Multi modes, MIDI RPN ďŹne tuning messages can be received to adjust the tun- ing of the program, the timbr es (in Combination mode), or the tracks (in Multi mode) relative to the Global mode âMaster T uneâ setting. In Program mode, MIDI RPN ďŹne tune messages will be received on the global MIDI channel that you[...]
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Seite 84
77 GL OBAL 0 1 2 3 4 5 6 To write a drum kit or user arpeggio pattern, execute the appropriate utility . ( â 4â1 âW rite Drum Kits,â 5â1 âW rite Arpeggio Patternsâ) L oad Pr eload Data This command loads the preload data into internal memory . Before loading this data, you must uncheck the âMem- ory Protectâ (0â2b) setting for t[...]
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78 0â2: Pref . (System P referenc e) X50 microX 0â2a: System P refer ence Multi Mode [for Ext-Seq, for Master] This speciďŹes how MIDI data will be transmitted in Multi mode. for Ext-Seq: Normally , you will use Multi mode when using this instrument as a multi-timbral sound module with an external MIDI sequencer . In this case we recommend tha[...]
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79 GL OBAL 0 1 2 3 4 5 6 X50 microX List: The pages will appear as a tabbed list. Use the Click- Point [ Ď ][ â ] to select the page you want to view , use [ ÂŽ ] to move to a tab ([ â ] to move to a page), and use [ Ď ][ â ] to select the tab you want to view . Then press the center of the ClickPoint to access that tab. The page you had se[...]
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Seite 87
80 microX: Ext. Control Setup [Off , On] This protects the external contr ol set memory of the microX. On (checked): The external control set memory of the microX will be pr otected, and the following writing opera- tions will not be possible. ⢠Writing an external control set ⢠Receiving external control set data via MIDI data dump Off (unchec[...]
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Seite 88
81 GL OBAL 0 1 2 3 4 5 6 GL OBAL 1: MIDI 1â1: MIDI Here you can make MIDI-r elated settings that affect this instrument. 1â1a: MIDI Setup MIDI Channel [01âŚ16] Sets the global MIDI channel. The global MIDI channel is used in the following cases. ⢠When transmitting and receiving performance data in Program mode (PROG 0: Play). ⢠When selec[...]
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Seite 89
82 RT (Realtime Command) [Off , On] Off (unchecked): MIDI common messages and r ealtime messages (Start, Stop, Continue, Song Select, Song Position Pointer) will not be received if âMIDI Clockâ is set to Ext- MIDI or Ext-USB , or if it is set to Auto and MIDI clock mes- sages are being r eceived from an external sour ce. (Song select messages w[...]
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Seite 90
83 GL OBAL 0 1 2 3 4 5 6 Af terT (After T ouch) [Off , On] On (checked): MIDI after touch messages will be transmit- ted and received. Off (unchecked): MIDI after touch messages will neither be transmitted nor received. This setting affects the operation when GLOBAL 0â3: Foot âFoot SW Assignâ or âFoot Pedal Assignâ is set to After T ouch.[...]
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Seite 91
84 When you save data dumps from this instrument to a MIDI data ďŹler , do not save multiple data dumps together . If this data is saved together , there will be insufďŹcient time for this instrument to write each r eceived portion into memory befor e the next portion of data arrives, so that it will be impossible to receive all of the data corre[...]
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Seite 92
85 GL OBAL 0 1 2 3 4 5 6 GL OBAL 2: User Scale Here you can cr eate sixteen User Octave Scales and one User All Notes Scale. The user scales you create her e can be selected in the PROG 1â1, COMBI 2â4, MUL TI 2â7(8). If you wish to keep an edited user scale after the power is turned off, be sur e to write (save) your settings. This data is wr[...]
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Seite 93
86 GL OBAL 3: Category Name 3â1: P .0..7 (Prog .00...07) 3â2: P .8..15 (Prog .08...15) 3â3: C.0..7 (Comb .00...07) 3â4: C.8..15 (Comb .08...15) Here you can r ename the categories for programs and com- binations. Use the ClickPoint [ â ][ ÂŽ ][ Ď ][ â ] to select the category you want to rename, pr ess the center of the Click- Point to[...]
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Seite 94
87 GL OBAL 0 1 2 3 4 5 6 X50 microX Key [Câ1...G9] Indicates the key to which you will assign a drumsample (and its settings). All 4: DKit parameters except for âDrum Kitâ will apply to the key you assign here. T wo drumsamples, High and Low , can be assigned to each key , and you can switch between them by velocity as you play . X50: Y ou ca[...]
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Seite 95
88 Wr i t e Drum Kits This command writes all drum kits 00 (INT)â48 (User). 1 Select âW rite Drum Kitsâ to access the dialog box. 2 To execute the W rite command press the [MENU/OK] button. T o cancel, press the [EXIT/CANCEL] button. Rename Drum Kit This command renames the selected drum kit. Y ou can input a name of up to sixteen characters.[...]
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Seite 96
89 GL OBAL 0 1 2 3 4 5 6 played monophonically with last-note priority . For example you might assign closed and open hi-hat sounds to the same group so that two or mor e hi-hat sounds can not sound simultaneously . Off: Keys will not be gr ouped. Normally you will set this Off . Enable Note On (Note On Receiv e) On (checked): Note-on messages will[...]
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Seite 97
90 Pat (Pattern) [Preset-0...P reset-4, U000...U250] Selects the pattern that you wish to edit. î (T empo) [040...240, EXT ] This speciďŹes the tempo. This can also be adjusted by the REAL TIME CONTROLS C- mode [TEMPO] knobs. If âMIDI Clockâ (1â1a) is set to Ext-MIDI or Ext-USB , or set to Auto and operating as a slave, this will indicate [...]
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Seite 98
91 GL OBAL 0 1 2 3 4 5 6 W ith a setting of T rigger All T ones , playing one key is sufďŹcient to sound all thr ee; T one 1 (kick), T one 2 (snar e), and T one 3 (hi-hat). If the âV el (V elocity)â of each T one is set to Key , the T ones will be sounded at the correspond- ing velocity each time a key is pressed. T one No . [00...11] This is [...]
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Seite 99
92 Gt (Gate) [Off , 001...100%, L GT ] Off: That step will not sound even if T ones have been speci- ďŹed. LGT : Notes will continue sounding until the same T one is sounded next, or until the pattern returns to the beginning. At this time, the display will change to â â â or â .â This setting is valid when the Program, Combination, or m[...]
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Seite 100
93 GL OBAL 0 1 2 3 4 5 6 microX: GL OBAL 6: Ex t. C ontr ol External Control lets you use the REAL TIME CONTROL knobs to control external MIDI devices. Y ou can assign a MIDI control change and MIDI channel to each of the four knobs, and switch between three such settings (A, B, C) to control an external device. This means that each set-up lets you[...]
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Seite 102
DEMO 95 5. Demo Song Demo Song The X50/microX contains demo songs. Her eâs how to listen to the demo songs. 1 Hold down the [CA TEGOR Y] button and press the [AUDITION] button to enter the Demo Song Player page. 2 Press the [AUDITION] button to start the demo song. 3 Press the [AUDITION] button to stop the demo song. Alternatively , you can exit [...]
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96[...]
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EFFECT 97 6. Effec t Guide Ov er view The effects section of X50/micr oX consists of a single chan- nel Insert Effect , two-channel Master Ef fects , a single-chan- nel Master EQ (stereo, thr ee-band EQ) and a Mixer section that controls the ef fect routings. The insert effect and master ef fects can be chosen from 89 types of full-digital effect, [...]
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Seite 105
98 Inser t Effec t (IFX) 1. In/Out Insert Effect ( IFX ) have a stereo input and a stereo output . If you select Dry (no effect) for the âW/Dâ parameter , the stereo input signal will be output in ster eo without being processed by the ef fect. If you select We t (ef fect applied), the processed signal will be output in one of the following way[...]
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Seite 106
99 EFFECT â Settings for drum Pr ograms â If a drum Program (âOSC Modeâ Drums ) is selected for tim- bres in Combination mode and for tracks in Multi mode , you can select â DKit â for âBUS Select.â If you select âDKit,â the âBUS Selectâ (GLOBAL 4â3a) settings for each key become effective, and each drum instr ument sound [...]
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Seite 107
100 3â2. BUS S elect This parameter enables you to specify the destination bus for the post-IFX signals. â L/R â is a common setting to send signals to the Master EQ before they ar e routed to the OUTPUT L/R outputs. Select 1 , 2 or 1/2 to route the signals to (INDIVIDUAL OUT - PUT) 1 or 2 ( â p.103 âIndividual Outputsâ). Select â Off[...]
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Seite 108
101 EFFECT Separately from this âOn/Of fâ setting, MIDI control changes CC#94 (MFX1) and CC#95 (MFX2) can be received to turn each master ef fect off. A value of 0 is off, and a value of 1â127 r estores the original setting. Y ou can also use âFX SWâ (GLOBAL 0â1b) to turn of f MFX1 and MFX2 in the same way . This is controlled on the gl[...]
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102 â Setting for drum pr ogram â If a drum program has been selected for a timbr e in Combi- nation mode or for a track in Multi mode, you will be able to select DKit for the âBUS Selectâ parameter . If this is selected, the âBUS (BUS Select)â (GLOBAL 4â3a) settings for each individual key will be used, and will be sent to the bus fo[...]
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Seite 110
103 EFFECT Master EQ The Master EQ (stereo, thr ee-band EQ) is located right before (MAIN OUTPUT) L/MONO, R. Low and High EQs are of the shelving type, and Mid EQ is a peaking type equalizer . Y ou can control the Low Gain and High Gain parameters using the Dynamic Modulation function. The Master EQ (stereo, thr ee-band EQ) is applied to the sig- n[...]
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Seite 111
104 F ilter/D ynamic F ilter and dynamics c ontrol eff ects 00: No Effec t Select this option when you do not wish to use any effects. The Insert Effect section outputs unpr ocessed signals and the Master Effect section mutes the output. 01: St.Amp Sim (Stereo Amp Simulation) This effect simulates the fr equency r esponse characteristics of guitar [...]
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Seite 112
105 EFFECT a: En velope When L/R Mix is selected for this parameter , the left and right channels are linked to contr ol the Limiter using the mixed signal. If L Only (or R Only ) is selected, the left and right channels ar e linked, and the Limiter is controlled via only the left (or right) channel. W ith L/R individually , the left and right chan[...]
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Seite 113
106 e: Low Offset, f: Mid Offset, g: High Offset These parameters set the gain of the trigger signal. For example, if you do not want to apply compr ession to the high range, reduce the âHigh Of fsetâ value down below the âThr esh- oldâ level. In this way , the high range limiter will not respond, and compression will not be applied. 05: St[...]
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Seite 114
107 EFFECT a: W ah The W ah parameter switches the wah effect on/off. a: (Sw) This parameter sets how the wah effect is switched on and of f via the modulation source. When âSwâ = Mmnt (Moment) , the wah effect is usually turned off. It is turned on only when you pr ess the pedal. When a value for the modulation source is less than 64, âoff?[...]
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Seite 115
108 d: B2 Dyn.G Src, d: (Amount), f: G Y ou can control the gain of Band 2 using the modulation source. 08: St.Graphic7EQ (Stereo Graphic 7-Band EQ) This is a stereo 7-band graphic equalizer . The bar graph of the gain setting for each band gives you a clear , visual idea of fre- quency responses. Y ou can select a center frequency setting for each[...]
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Seite 116
109 EFFECT a: FreqBottm, a: FreqT op The sweep width and direction of the wah ďŹ lter are determined by the âFreqBottmâ and âFr eqT opâ settings. b: Swp Mode This parameter changes the wah control mode. Setting âSwp Modeâ to Auto will select an auto-wah that sweeps accor ding to envelope changes in the input signal level. Auto-wah is f[...]
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Seite 117
110 When âLFO W aveâ is set to Random , the âStepâ parameter uses a random LFO cycle. b: LFO Phase Offsetting the left and right phases alters how modulation is applied to the left and right channels, cr eating a swelling affect. f: BPM, g: StepBase, g: Times The width of an LFO step, or a cycle of random LFO, is obtained by multiplying the[...]
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Seite 118
111 EFFECT a: OSC Mode, b: Note Interval, c: Fine The âOSC Modeâ parameter selects the oscillator operation mode. When Note (Key Follow) is selected, the oscillator âs frequency is determined based on the note number , allowing you to use it as an octaver . The âNote Intervalâ parameter sets the pitch offset from the original note number [...]
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Seite 119
112 14: St.Decimator (Stereo Decimator) This effect cr eates a r ough sound like a cheap sampler by low- ering the sampling frequency and data bit length. Y ou can also simulate noise unique to a sampler (aliasing). a: Pre LPF If a sampler with a very low sampling frequency r eceives very high-pitched sound that could not be hear d during playback,[...]
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Seite 120
113 EFFECT Pitch/Phase Mod . Pitch/phase modulation effects 16: St.Chorus (Stereo Chorus) This effect adds thickness and warmth to the sound by modu- lating the delay time of the input signal. Y ou can add spread to the sound by offsetting the phase of the left and right LFOs from each other . e: L Dly , e: R Dly Setting the left and right delay ti[...]
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Seite 121
114 g: Feedback Sets the feedback amount of the chorus block. Incr easing the feed- back will allow you to use the effect as a ďŹanger . 18: MltT ap ChoDly (Multitap Chorus/Delay) This effect has four chorus blocks with a dif ferent LFO phase. Y ou can create a complex stereo image by setting each blockâs delay time, depth, output level, and pan[...]
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Seite 122
115 EFFECT 20: St.Flanger (Ster eo Flanger) This effect gives a signiďŹcant swell and movement of pitch to the sound. It is more ef fective when applied to a sound with a lot of harmonics. This is a stereo ďŹanger . Y ou can add spread to the sound by offsetting the phase of the left and right LFOs from each other . a: Shape Changing the LFO wave[...]
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Seite 123
116 22: St.Env .Flanger (Stereo En velope F langer) This Flanger uses an envelope generator for modulation. Y ou will obtain the same pattern of ďŹanging each time you play . Y ou can also control the Flanger directly using the modula- tion source. e: Swp Mode, e: Src This parameter switches the ďŹanger contr ol mode. W ith âSwp Modeâ = EG , [...]
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Seite 124
117 EFFECT 24: St.Rndm Phasr (Stereo Random Phaser) This is a stereo phaser . The effect uses a step-shape waveform and random LFO for modulation, creating a unique phasing effect. 25: St.Env .Phaser (Stereo En velope Phaser) This stereo phaser uses an envelope generator for modula- tion. Y ou will obtain the same pattern of phasing each time you p[...]
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Seite 125
118 26: St.BiphaseMod (Stereo Biphase Modulation) This stereo chorus ef fect adds two differ ent LFOs together . Y ou can set the Frequency and Depth parameters for each LFO individually . Depending on the setting of these LFOs, very complex waveforms will create an analog-type, unstable modulated sound. 27: St.Vibrato (Stereo Vibrato) This effect [...]
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Seite 126
119 EFFECT The effect is of f when a value for the dynamic modulation source speciďŹed for the âAUT OF ADE Srcâ parameter is smaller than 64, and the effect is on when the value is 64 or higher . The AutoFade function is triggered when the value changes from 63 or smaller to 64 or higher . 28: St.AutoFd Mod (Stereo Auto F ade Modulation) This [...]
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Seite 127
120 a: Ctrl, e: V1 Reso, h: V2 Reso This parameter determines the resonance intensity . When âCtrlâ = Manual , the âResoâ parameter sets the intensity of resonance. If the âResoâ parameter has a negative value, harmon- ics will be changed, and resonance will occur at a pitch one octave lower . When âCtrlâ = LFO , the intensity of re[...]
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Seite 128
121 EFFECT 31: Scratch This effect is applied by r ecording the input signal and mov- ing the modulation source. It simulates the sound of scratches you can make using a turntable. a: Scratch Source, b: Response(Scratch) The Scratch Source parameter enables you to select the modula- tion source that contr ols simulation. The value of the modulation[...]
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Seite 129
122 Mod ./P .Shif t O ther modulation and pitch shift effects 32: St.T remolo (Stereo T remolo) This effect modulates the volume level of the input signal. The effect is ster eo, and offsetting the LFO of the left and right phases from each other pr oduces a tremolo ef fect between left and right. a: LFO Wa ve This parameter selects the LFO wavefor[...]
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Seite 130
123 EFFECT 34: St.Auto P an (Stereo A uto Pan) This Auto Pan effect pans sound between left and right. It is stereo, and shifting the left and right LFO phases fr om each other will simulate the sound of the left and right channels crossing over each other by turns, or chasing each other . a: Shape Y ou can change the panning curve by modifying the[...]
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Seite 131
124 a: Type, b: LFO Phase Select the type of phaser LFO and tremolo LFO for the âT ypeâ parameter . How the effect sound moves or r otates depends on the type of LFO. Selecting âLFO Phaseâ enables you to of fset the tim- ing of the phaser peak and control a subtle movement and r ota- tion of the sound. f: P W/D, i: W/D The âP W/Dâ param[...]
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Seite 132
125 EFFECT 37: Detune Using this effect, you can obtain a detune ef fect that offsets the pitch of the effect sound slightly fr om the pitch of the input signal. Compared to the chorus ef fect, a more natural sound thickness will be created. e: InLvl Mod, e: Src This parameter sets the dynamic modulation of the input level. 38: Pitch Shif ter This [...]
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Seite 133
126 39: PitchShf t Mod (Pitch Shift Modulation) This effect modulates the detuned pitch shift amount using an LFO, adding a clear spread and width to the sound by pan- ning the effect sound and dry sound to the left and right. This is especially effective when the ef fect sound and dry sound output from ster eo speakers are mixed. a: Pitch Shift [c[...]
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127 EFFECT When â(Sw)â = Mmnt (Moment) , the speaker is r otating. It stops only when you press the pedal. Rotation will occur when the value of the modulation source is less than 64, and will stop when the value is 64 or greater . b: (Sw) This parameter sets how the rotation speed (slow and fast) is switched via the modulation source. When â[...]
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128 42: Auto Rev erse This effect r ecords the input signal and automatically plays it in reverse (the ef fect is similar to a tape reverse sound). a: Rec Mode, b: Reverse Time When âRec Modeâ is set to Single , you can set up to 1320msec for âReverse T ime.â If recording starts during the r everse playback, the playback will be interrupted[...]
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Seite 136
129 EFFECT 44: St/Cross Dly (Stereo/Cross Dela y) This is a stereo delay , and can by used as a cross-feedback delay effect in which the delay sounds cr oss over between the left and right by changing the feedback routing. 45: St.MltT ap Dly (Stereo Multitap Dela y) The left and right Multitap Delays have two taps respectively . Changing the routin[...]
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130 46: St.Mod . Delay (Stereo Modulation Dela y) This stereo delay uses an LFO to sweep the delay time. The pitch also varies. Y ou will obtain a delay sound with swell and shimmering. Y ou can also control the delay time using a modulation source. b: Dmod When the modulation source is used for contr ol, this parameter reverses the left and right [...]
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131 EFFECT a: P ol, b: Threshold, b: Offset, c: Attack, d: Release The âOffsetâ parameter speciďŹes the value for the âCtrl T argetâ parameter (that is set to None), expressed as the ratio r elative to the parameter value (the âW/Dâ value with âCtrl T argetâ= Out , or the âFeedbackâ value with âCtrl T argetâ= FB ). When â[...]
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Seite 139
132 a: BPM, b: L Bs, b: Times, c: C Bs, c: Times, d: R Bs, d: Times The delay time is the length of the note obtained by multiplying the âBsâ parameter by the T imes value, in relation to the tempo speciďŹed by the âBPMâ parameter (or the MIDI Clock tempo if âBPMâ is set to MIDI ). f: Time Over? > Y ou can set the delay time up to 1[...]
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133 EFFECT a: BPM, a: Rhythm W ith the tempo speciďŹed by the âBPMâ parameter (or the MIDI Clock tempo if âBPMâ is set to MIDI ), the length of one beat equals the feedback delay time, and the interval between taps becomes equal. Selecting a rhythm will automatically turn the tap outputs on and off. When âBPMâ is set to MIDI , the lowe[...]
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Seite 141
134 Using the âPre Delay Thr uâ parameter , you can mix the dry sound without delay , emphasizing the attack of the sound. 56: Rev Room (Rev erb Room) This room-type r everb emphasizes the early reďŹections that make the sound tighter . Changing the balance between the early reďŹections and r everb sound allows you to simulate nuances, such a[...]
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Seite 142
135 EFFECT Mono â Mono Chain Effects that combine tw o mono effects con- nected in series 58: P4EQâExciter (Par ametric 4-Band EQ â Ex citer) This effect combines a mono-type four -band parametric equalizer and an exciter . 59: P4EQâW ah (Par ametric 4-Band EQ â W ah/Auto W ah) This effect combines a mono-type four -band parametric equali[...]
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Seite 143
136 60: P4EQâCho/Fl (Par ametric 4-Band EQ â Chorus/F langer) This effect combines a mono-type four -band parametric equalizer and a chorus/ďŹanger . h: Out When W et Inv is selected, the right channel phase of the chorus/ ďŹanger effect sound is inverted. This cr eates pseudo-stereo effects and adds spread. However , if a mono-input type eff[...]
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Seite 144
137 EFFECT 62: P4EQâM.Dly (Par ametric 4-Band EQ â Multitap Delay) This effect combines a mono-type four -band parametric equalizer and a multitap delay . 63: CompâW ah (Compr essor â W ah/Auto W ah) This effect combines a mono-type compr essor and a wah. Y ou can change the order of the connection. a [PEQ] T rim Sets the parametric EQ inpu[...]
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138 64: CompâAmpSim (Compr essor â Amp Simulation) This effect combines a mono-type compr essor and an amp simulation. Y ou can change the order of the ef fect connection. 65: CompâOD/HG (Compr essor â Overdriv e/Hi.G ain) This effect combines a mono-type compr essor and an over- drive/high-gain distortion. Y ou can change the order of the [...]
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Seite 146
139 EFFECT 67: CompâCho/F l (Compr essor â Chorus/Flanger) This effect combines a mono-type compr essor and a chorus/ ďŹanger . Y ou can change the order of the effect connection. g: Out, h: [Routing] When W et Inv is selected, the right channel phase of the chorus/ ďŹanger effect sound is inverted. This cr eates pseudo-stereo effects and add[...]
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Seite 147
140 69: CompâM.Dly (Compr essor â Multitap Delay) This effect combines a mono-type compr essor and a multitap delay . Y ou can change the order of the effect connection. 70: LimitâP4EQ (Limiter â Par ametric 4-Band EQ) This effect combines a mono-type limiter and a four -band parametric equalizer . Y ou can change the order of the effect co[...]
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Seite 148
141 EFFECT 71: LimitâCho/Fl (Limiter â Chorus/Flanger) This effect combines a mono-type limiter and a chorus/ ďŹanger . Y ou can change the order of the effect connection. 72: LimitâPhaser (Limiter â Phaser) This effect combines a mono-type limiter and a phaser . Y ou can change the order of the ef fect connection. a [LMT] Ratio 1.0:1...50[...]
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142 73: LimitâM.Dly (Limiter â Multitap Delay) This effect combines a mono-type limiter and a multitap delay . Y ou can change the order of the effect connection. 74: ExctâComp (Ex citer â Compr essor) This effect combines a mono-type exciter and a compr essor . Y ou can change the order of the effect connection. 75: ExctâLimiter (Ex cite[...]
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Seite 150
143 EFFECT 76: ExctâCho/Fl (Exciter â Chorus/F langer) This effect combines a mono-type limiter and a chorus/ ďŹanger . 77: ExctâPhaser (Exciter â Phaser) This effect combines a mono-type limiter and a phaser . 78: ExctâM.Dly (Exciter â Multitap Dela y) This effect combines a mono-type exciter and a multitap delay . a [XCT] Blend (Exci[...]
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Seite 151
144 79: OD/HGâAmpSim (Overdriv e/Hi.G ain â Amp Simulation) This effect combines a mono-type over drive/high-gain dis- tortion and an amp simulation. Y ou can change the order of the effect connection. 80: OD/HGâCho/Fl (Overdriv e/Hi.G ain â Chorus/Flanger) This effect combines a mono-type over drive/high-gain dis- tortion and a chorus/ďŹa[...]
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Seite 152
145 EFFECT 81: OD/HGâPhaser (Overdriv e/Hi.G ain â Phaser) This effect combines a mono-type over drive/high-gain dis- tortion and a phaser . Y ou can change the order of the effect connection. 82: OD/HGâM.Dly (Overdriv e/Hi.G ain â Multitap Delay) This effect combines a mono-type over drive/high-gain dis- tortion and a multitap delay . a [O[...]
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146 83: W ahâAmpSim (W ah/Auto W ah â Amp Simulation) This effect combines a mono-type wah and an amp simula- tion. Y ou can change the order of the ef fect connection. 84: DeciâAmpSim (Decimator â Amp Simulation) This effect combines a mono-type decimator and an amp sim- ulation. Y ou can change the order of the ef fect connection. 85: Dec[...]
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Seite 154
147 EFFECT 86: AmpSimâT rml (Amp Simulation â T remolo) This effect combines a mono-type amp simulation and a tr em- olo. 87: Cho/FlâM.Dly (Chorus/Flanger â Multitap Dela y) This effect combines a mono-type chorus/ďŹanger and a mult- itap delay . a [AMP] AmpliďŹer T ype Selects the type of guitar ampliďŹer SS, EL84, 6L6 b [TRML] LFO W av[...]
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Seite 155
148 88: PhasrâCho/Fl (Phaser â Chorus/Flanger) This effect combines a mono-type phaser and a chorus/ ďŹanger . 89: Rev erbâGate This effect combines a mono-type r everb and a gate. g: En velope, g: Src, f: In Rev Mix, h: Threshold The âEnvelopeâ parameter enables you to select whether turning the gate on and off is trigger ed by the inpu[...]
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Seite 156
149 EFFECT Master EQ Master EQ Use the 9â4 MasterFX MEQ page in the Program, Combina- tion, and Multi modes Y ou cannot use the Master EQ as the Insert Effect or as one of the Master Effects. a: Gain, b: Gain, c: Gain These parameters are linked with the âMaster EQ Gain [dB]â (9â 1c) parameter of the MasterFX. d: Low Gain Mod-Src For exampl[...]
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150[...]
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Seite 158
Ap pendices 151 7. Appendic es Al ternate Modula tion Sourc e (AMS) About Alternat e Modulation An Alternate Modulation Sour ce can be speciďŹed for each of the 55 Alternate Modulation destinations shown in the dia- gram below . (Pitch EG is common to OSC 1 and 2.) The AMS (Alternate Modulation Source) and amount can be selected independently for [...]
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Seite 159
152 AMS (Alternate Modula tion Sourc e) List In the above table, the parentheses ( ) indicate the type of sour ce that can be used for each AMS. For example, the âAMS (Pitch AMS)â value for OSC1 Pitch (PROG 2â1a) can be [Off, (FEG, AEG, EXT)] ( â p.10). This means that you can select Off, and (FEG), (AEG), or (EXT) sour ces. CC#: This is th[...]
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153 Ap pendices F lt KT +/+ (F ilter Ke yboard T rack +/+) F lt KT +/â (F ilter Ke yboard T rack +/â) F lt KT 0/+ (F ilter Ke yboard T rack 0/+) F lt KT +/0 (F ilter Ke yboard T rack +/0) A mp KT +/+ (Amp K eyboard T rack +/+) A mp KT +/â (Amp K eyboard T rack +/â) A mp KT 0/+ (Amp K eyboard T rack 0/+) A mp KT +/0 (Amp K eyboard T rack +/0[...]
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Seite 161
154 Al ternate Modulation settings When you operate an AMS (Alternate Modulation Source), the modulation destination will be affected as shown in the table below . By using alternate modulation, you can create complex sys- tems of modulation in which EG, LFO, keyboard tracks, and controllers work together . ⢠You can apply complex change to an LF[...]
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Seite 162
155 Ap pendices F ilter (C utoff ) F requenc y (PROG 4â1b , 5â1b) The cutoff fr equency of ďŹlter A/B can be controlled by the pitch/amp EG, controllers, or tempo. Set âAMS 1/2 (Filter A/B AMS1/2)â and âAMS 1/2 Intensityâ for Filter A or B. ⢠X50: If you set âAMS1 (Filter A AMS1)â to Pitch Bend , and set âIntensity (A AMS1 Inte[...]
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Seite 163
156 A mp (PROG 6â2(5)b) The volume can be controlled by the pitch/ďŹlter EG, con- trollers, or tempo etc. ⢠If an EG or controller that changes with a positive (+) value ( Amp EG , EXT(+) , EXT(SW) ) is selected as the âAMS (Amp AMS),â setting the âInt (AMS Intensity)â to +99 will allow you to increase the volume to a maximum of eight [...]
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Seite 164
157 Ap pendices LFO Fr equency (PROG 3â1b) The frequency of LFO 1 or 2 can be contr olled by EG, key- board tracking, contr ollers, or tempo etc., Y ou can even use the LFO2 frequency to modulate the LFO1 fr equency . If âInt (AMS 1/2 Intensity)â is set to a value of 16, 33, 49, 66, 82, or 99, the corresponding fr equency can be multiplied by[...]
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Seite 165
158 D ynamic Modulation Sourc e List CC#: This is the control change number . *: This indicates a controller not present on the X50/ microX that can be received via MIDI, such as the ribbon controller on the TRITON Extreme etc. The controller and the type of MIDI messages it transmits will depend on the type of connected MIDI instr ument or device.[...]
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Seite 166
159 Ap pendices Ga te1, G1+Dmp (Gate1+Damper) The effect is at maximum during note-on, and will stop when all keys are r eleased. W ith G1+Dmp , the effect will r emain at maximum even after the keys ar e released, as long as the damper (sustain) pedal is pressed. Ga te2, G2+Dmp (Gate2+Damper) This is essentially the same as for Gate 1 or G1+Dmp. H[...]
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Seite 167
160 About the BPM/MIDI SYNC func tion BPM/MIDI SYNC can be used for most effects that have an LFO, such as 09:St. W ah/Auto W ah, and for some delay- type effects such as 49:L/C/R BPM Delay . Y ou can apply modulation that is synchronized to the tempo, or specify the delay time in terms of a note value so that the effect will syn- chronize to the t[...]
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Seite 168
161 Ap pendices X50: SW1/2 Assign The following functions can be assigned to the assignable switches [SW1] and [SW2]. ⢠For a program, combination, or multi set make the settings in 7: EdâArp/Ctrls page âSW1/2 Assignâ (PROG 7â3a, COMBI 7â5b, MULTI 7â5b). This can be set for each program in Pr ogram mode, each combination in Combinatio[...]
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Seite 169
162 Knob 1...4 B Assign The following functions can be assigned to the REAL TIME CONTROLS [1]â[4] knobs in B-mode. ⢠For program, combination, or multi set, make these settings in 7: EdâArp/Ctrls page âKnob B Assign.â This can be set for each program in Pr ogram mode, each combination in Combination mode, and each multi set in Multi mode.[...]
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Seite 170
163 Ap pendices The A-mode functions of the REAL TIME CONTROLS are ďŹxed. Knob1-A: LPF Cutoff (Filter LPF C utoff : C C#74) Control the low pass ďŹlter cutof f frequency of the ďŹlter . Simultaneously , CC#74 will be transmitted. Knob2-A: Resonance/HPF (Filter Resonanc e/HPF Cutoff: C C#71) Control the r esonance level or the cutoff fr equency o[...]
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Seite 171
164 Fo ot Switch Assign Y ou can assign the function of an assignable switch (sepa- rately sold Korg PS-1 option) connected to the ASSIGN- ABLE SWITCH jack. ⢠This setting is made in GLOBAL 0: System Foot page âFoot SW Assignâ (0â3a). If you select a function that includes a CC#, that MIDI control change message will be transmitted each tim[...]
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Seite 172
165 Ap pendices Fo ot P edal Assign Y ou can assign the function that will be controlled by an assignable pedal (separately sold Korg XVP-10 or EXP-2 option) connected to the ASSIGNABLE PEDAL jack. ⢠This setting is made in GLOBAL 0: System Foot page âFoot Pedal Assignâ (0â3a). If you select a function that includes a CC#, that MIDI control[...]
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Seite 173
166 MIDI transmission when the X50/micr oXâ s con trol- lers are oper at ed The following table shows the relation between the MIDI messages that are transmitted when the X50/micr oXâs con- trollers ar e operated, and the AMS (alternate modulation source) or DMS (dynamic modulation sour ce) that corre- spond to each MIDI message. # indicates a [...]
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167 Ap pendices The following table shows the relation between the MIDI messages that are transmitted when the X50/micr oXâs con- trollers ar e operated, and the AMS (alternate modulation source) or DMS (dynamic modulation sour ce) that corre- spond to each MIDI message. # indicates a ďŹxed function, and â˝ indicates an assignable function. X50[...]
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Seite 175
168 X50/microX oper ations when c ontrol changes are transmitted/r ec eiv ed The following table shows the operations that the X50/ microX will perform when contr ol change messages are received, and the relation between settings and contr oller movements on this instrument CC# Control V alue Function 0 Bank select (MSB) 0...127 bank select message[...]
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Seite 176
169 Ap pendices Any control change number (CC#00â95) can be assigned as the B-mode function of a REAL TIME CON- TROLS knob. In this case, the transmitted values will all be 0â127. *1 Unlike conventional control changes, pitch bend range, ďŹne tune, and coarse tune settings are made using RPC (Registered Parameter Control) messages. In Program,[...]
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Seite 177
170 *5 Controlled on the global MIDI channel. *6 NRPN (Non Registered Parameter Number) and Data Entry can be used to control the following parameters. Ar peggiator on/off [Bn 63 00 Bn 62 02 Bn 06 nn] (nn:00â3F of f, 40â7F on) Ar peggiator gate con trol [Bn 63 00 Bn 62 0A Bn 06 nn] (nn:00â7F) Ar peggiator velocity c ontrol [Bn 63 00 Bn 62 0B [...]
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Seite 178
171 Ap pendices MIDI applications â Messages transmitted and rec eiv ed by this instrument [...] indicates hexadecimal notation MIDI channels MIDI messages can be exchanged when the transmitting and receiving devices ar e set to the same MIDI channel. MIDI uses sixteen channels, numbered 1â16. The way in which channels are handled will dif fer [...]
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Seite 179
172 Selec ting combina tions Y ou can use program change and bank select messages to select combinations in the same way that you select programs. ⢠Combinations 000â127 in banks A, B, and C correspond to program changes [Cn, 00]â[Cn, 7F]. ⢠Similarly as for program banks, the internal banks that correspond to each bank select number will d[...]
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Seite 180
173 Ap pendices joystick is operated. Normally , a wah effect (ďŹlter LFO) is applied. microX: When you move the microXâs joystick in the âY direction (down), Modulation 2 Depth messages will be transmitted. When these messages are r eceived, the same effect will be applied as when the X50/micr oXâs joystick is operated. Normally this will a[...]
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Seite 181
174 TROLS knob [1]â[4], operating that controller will transmit Effect Contr ol 1/2 messages, and the speciďŹed dynamic modulation will be controlled. When this message is r eceived, the r esult will be the same as when the controller is operated. Although various types of control change can be selected as dynamic modulation sources, Ef fect Con[...]
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Seite 182
175 Ap pendices sage is received, the r esult will be the same as when the con- troller is operated (OFF for vv=63 [3F] or below , and ON for vv=64 [40] or above). Soft pedal (CC#67) [Bn, 43, vv] If the above CC# is assigned as the function of the ASSIGN- ABLE SWITCH, the soft pedal effect will be turned on/of f. When this message is received, the [...]
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Seite 183
176 T uning RPN ďŹne tune [Bn, 65, 00, 64, 01] This RPN message can be used to adjust the detuning for a program or timbr e (in Combination mode), or for a track (in Multi mode). The procedur e is as follows. 1 [Bn, 65, 00, 64, 01]: Select RPN parameter 01. 2 [Bn, 06, mm, 26, vv]: Use data entry to set the value. A value of 8192 [mm, vv=40, 00] is[...]
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Seite 184
177 Ap pendices balance without changing the relative volume balance between timbres/tracks. When this message is r eceived, the result will be the same as when the contr oller is operated. Master balance [F0, 7F , nn, 04, 02, vv , mm, F7] (vv: lower byte of the value, mm: upper byte of the value, together indicating 16384 steps, where 8192 is the [...]
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Seite 185
178 When these messages are r eceived, the same editing opera- tion will be performed as on the transmitted device. After MIDI exclusive data has been received and pr ocessed, a Data Load Completed message will be transmitted. The control master device must not transmit the next message until this message is received (or until a suf ďŹcient interv[...]
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Seite 186
179 Ap pendices Local Control On : Notes from the arpeggiator will be trans- mitted from the MIDI OUT . Normally you will use this set- ting. Local Control Off : Notes fr om the arpeggiator will not be transmitted from the MIDI OUT . The arpeggiator will only sound the notes (on this instrument). Setting example 1 Record the note messages generated[...]
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Seite 187
180 Va rious messages A Are y ou sure? C Ca nâ t calibrate C ompleted M Memory protec ted MIDI data rec eiving error N Now Writing into in ternal memory ⢠While writing (updating) Programs, Combinations, Multi set, Multi set, Global Settings, Drum Kits, or Arpeggio Patterns â˘W hile receiving a MIDI data dump of Program, Combination, Multi set[...]
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Seite 188
181 Ap pendices 1-1 CHANNEL MESSAGES [H] :Hex, [D] :Decimal +------+---------+-------------------+-----------------------------------------------------------+----+ |Status| Second | Third | Description ( Transmitted by ....) |ENA | |[Hex] |[H] [D] | [H] [D] | | | +------+---------+-------------------+------------------------------------------------[...]
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182 2.RECOGNIZED RECEIVE DATA 2-1 CHANNEL MESSAGES [H] :Hex, [D] :Decimal +------+--------+--------------------+-------------------------------------------------------------+----+ |Status| Second | Third | Description ( Use ..... ) |ENA | |[Hex] |[H] [D] | [H] [D] | | | +------+--------+--------------------+-----------------------------------------[...]
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Seite 190
183 Ap pendices 2-2 SYSTEM COMMON MESSAGES [H] :Hex, [D] :Decimal +------+--------+--------------------+-------------------------------------------------------------+ |Status| Second | Third | Description ( Use for ..... ) | |[Hex] |[H] [D] | [H] [D] | | +------+--------+--------------------+---------------------------------------------------------[...]
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Seite 191
184 Index Numerics 10âs Hold ...................................... 2, 34 A Alternate Modulation ....... 13, 14, 15, 18, 20, 23, 151, 154, 174, 175 Alternate Modulation Source ..... 151 Amp Setup ............................................. 21 Amp EG ........................................... 23 Amp Level ................................... 4, [...]
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Seite 192
185 Ap pendices Global MIDI channel ......... 21, 28, 29, 30, 31, 35, 36, 40, 41, 52, 53, 74, 75, 81, 82, 84, 158, 166, 169, 170, 171, 173, 174, 177 Global mode .................................... 75 GM Initialize .................................... 57 GM System On message .............. 179 GS .............................................. 78, 1[...]
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186 S Scale ............................ 6, 42, 63, 75, 85 Arabic ............................................. 6 Copy Scale ................................... 85 Equal Temperament ..................... 6 Kirnberger...................................... 6 Pelog ............................................... 6 Pure Major ..........................[...]
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 2005 KORG INC. This product has been manuf actured according to strict specifications and voltage requirements that are applicable in the country in which it is intended that this product should be used. If you hav e purchased this product via the internet, through mail order, and/or via a telephone sale , you m ust ver ify that this product is[...]