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Korg Polysix MIDI Interface

Korg Polysix MIDI Interface

Korg Polysix MIDI Interface

Korg Polysix MIDI Interface  

 P6

 P6

 P6

 P6----M

M

M

M Owner‘s

 Owner‘s

 Owner‘s

 Owner‘s Manual

 Manual

 Manual

 Manual    

8

88

8----427 / v. 1.00

427 / v. 1.00

427 / v. 1.00

427 / v. 1.00

  

 

 

 

Copyright © 2021 CHD Elektroservis.  All rights reserved.  

No part of this publication may be reproduced in any form without the written permission of CHD Elektroservis.

 

9

99

9

Fig. 7 

Fig. 7 

Fig. 7 

Fig. 7 –

––

– MIDI Notes Shift parameter

 MIDI Notes Shift parameter

 MIDI Notes Shift parameter

 MIDI Notes Shift parameter

 

4.2.3

4.2.3

4.2.3

4.2.3     VCF CUTOFF M

VCF CUTOFF M

VCF CUTOFF M

VCF CUTOFF MODULATION (CC #18)

ODULATION (CC #18)

ODULATION (CC #18)

ODULATION (CC #18)    

 

The  parameter  affects  basic  VCF  cutoff 
frequency  set  by  VCF  CUTOFF  knob  on 
instrument's panel.  It can be changed by MIDI 
CC Nr. 18 - see chapter 5.1.2.2. 

The parameter  value is 0 to 127. For 64 value, 
the  VCF  cutoff  frequency  isn’t  affected.  For 
parameter  values  from  65  to  127,  the  VCF 
cutoff frequency is increased and it is decreased 
for parameter values from 63 to 0. 

Remark:

Remark:

Remark:

Remark: IIf you want to use  full control range of 
this  CC,  it  is  recommended  to  set  the  VCF 
CUTOFF  knob  on  instrument  panel  to  the 
middle position. Note that VCF fcM IN socket on 
the  Polysix’s  rear  panel  is  disabled  when  the 
parameter is  set to any other value than 64. A 
pedal  plugged  to  this connector is disabled  in 
this case! 
 
4.2.4

4.2.4

4.2.4

4.2.4     VCF VELOCITY MO

VCF VELOCITY MO

VCF VELOCITY MO

VCF VELOCITY MODE (CC #19)

DE (CC #19)

DE (CC #19)

DE (CC #19)    

 

This parameter is active only for MIDI Notes. It 
doesn't work with instrument's keyboard! 

The  parameter  selects  type  of  the  VCF  cutoff 
frequency modulation by received MIDI Notes 
Velocity. It can be temporarily changed by MIDI 
CC Nr. 19 - see chapter 5.1.2.2. 

The parameter value is 0 to 3. Four modes are 
available thus (see also fig. 8 on next page): 

• 

Æ

Æ

Æ

Æ

  Average 

  Average 

  Average 

  Average  ----  Positive:

  Positive:

  Positive:

  Positive:  The  VCF  cutoff 

frequency 

is 

modulated 

directly 

proportionally to average velocity valueof all 
active MIDI Notes. 

• 

Æ

Æ

Æ

Æ

  Average 

  Average 

  Average 

  Average  ----  Negative: 

  Negative: 

  Negative: 

  Negative:  The  VCF  cutoff 

frequency 

is 

modulated 

inversely 

proportionally to average velocity value of all 
active MIDI Notes. 

• 

Æ

Æ

Æ

Æ

  Last  Note 

  Last  Note 

  Last  Note 

  Last  Note  ----  Positive: 

  Positive: 

  Positive: 

  Positive:  The  VCF  cutoff 

frequency 

is 

modulated 

directly 

proportionally  to  velocity  value  of  last 
received MIDI Note. 

• 

Æ

Æ

Æ

Æ

  Last  Note 

  Last  Note 

  Last  Note 

  Last  Note  ----  Negative: 

  Negative: 

  Negative: 

  Negative:  The  VCF  cutoff 

frequency 

is 

modulated 

inversely 

proportionally  to  velocity  value  of  last 
received MIDI Note. 

 

Summary of Contents for 8-427

Page 1: ...Korg Polysix Synthesizer Korg Polysix Synthesizer Korg Polysix Synthesizer Model 8 Model 8 Model 8 Model 8 427 427 427 427 Version 1 0 Version 1 0 Version 1 0 Version 1 0 Owner s Manual Owner s Manual Owner s Manual Owner s Manual 2021 CHD Elektroservis 2021 CHD Elektroservis 2021 CHD Elektroservis 2021 CHD Elektroservis ...

Page 2: ...UTOFF MODULATION CC 18 9 4 2 4 VCF VELOCITY MODE CC 19 9 4 2 5 VCF VELOCITY AMOUNT CC 20 10 4 2 6 VCF CHNL AFTERTOUCH AMOUNT CC 21 10 4 2 7 VCF LFO WAVEFORM CC 22 10 4 2 8 VCF LFO SYNC CC 23 11 4 2 9 VCF LFO RATE CC 24 12 4 2 10 VCF LFO DELAY CC 25 12 4 2 11 VCF LFO AMOUNT CC 26 12 4 2 12 VCF LFO MODULATION WHEEL CC 27 12 4 2 13 VCF LFO CHNL AFTERTOUCH CC 28 13 4 2 14 ARPG CLOCK SYNC CC 29 13 4 2 ...

Page 3: ...ol elements keyboard switches knobs etc are not transmitted as a MIDI data and their status cannot be saved in the interface s memory as a program Almost all functions of the interface are simply controlled by standard MIDI Control Changes CCs and Program Change MIDI commands Some special functions controlled by SysEx messages are available for advanced users 2 2 2 2 CONNECTION TO MIDI SYSTEM CONN...

Page 4: ...set controlled by MIDI commands only Working status of the interface is indicated by bi color LED The indication LED is off in reset status of the interface when the interface doesn t affect the instrument The interface indication LED lights red inMIDImode when the interface takes control over an instrument circuit If the LED indication function of the interface is enabled for details see chapter ...

Page 5: ...1 KEY ASSIGN MODE buttons on fig 3 and 4 are controlled by MIDI CCs Control Changes in parallel manner both instrument s buttons and MIDI CCs can be uses simultaneously see chapter 5 1 2 2 PROGRAMMER buttons on fig 3 and 4 are controlled by MIDI Program Change command in parallel manner both instrument s buttons and MIDI Program Change can be uses simultaneously see chapter 5 1 5 VCF fcM IN input ...

Page 6: ...Range of valid values and facory preset values of global parameters Range of valid values and facory preset values of global parameters Range of valid values and facory preset values of global parameters Range of valid values and facory preset values of global parameters Factory reset Factory reset Factory reset Factory reset Parameter name Parameter name Parameter name Parameter name Valid range ...

Page 7: ...on Function Function Function CC CC CC CC Nr Nr Nr Nr Chapter Chapter Chapter Chapter MIDI Notes Shift Transpose 1 1 1 1 0 67 Transposes MIDI Notes over the keyboard range 16 4 2 1 Pitch Bend Range 1 1 1 1 0 24 Adjusts MIDI Pitch Bend maximal range 17 4 2 2 VCF Cutoff Modulation 0 127 Direct VCF cutoff frequency increasing decreasing 18 4 2 3 VCF Velocity Mode 1 1 1 1 0 3 Selects type of VCF modul...

Page 8: ...ee chapter 5 1 2 3 The parameter value can be from 0 to 67 If value 0 is set the lowest key on the keyboard corresponds to MIDI Note Nr 0 and the highest key corresponds to MIDI Note Nr 60 If value 1 of the parameter is set the lowest key on the keyboard corresponds to MIDI Note Nr 1 and the highest key corresponds to MIDI Note Nr 61 Etc up to value 67 of the parameter when the lowest key of the k...

Page 9: ...VCF fcM IN socketon the Polysix s rear panel is disabled when the parameter is set to any other value than 64 A pedal plugged to this connector is disabled in this case 4 2 4 4 2 4 4 2 4 4 2 4 VCF VELOCITY MO VCF VELOCITY MO VCF VELOCITY MO VCF VELOCITY MODE CC 19 DE CC 19 DE CC 19 DE CC 19 This parameter is active only for MIDI Notes It doesn t work with instrument s keyboard The parameter select...

Page 10: ...nel Aftertouch VCF modulation by Channel Aftertouch This parameter is active only for Channel Aftertouch MIDI command It doesn t work with instrument s keyboard The parameter sets the modulation amount of the VCF cutoff frequency by MIDI MIDI Channel Aftertouch It can be temporarily changed by MIDI CC Nr 21 see chapter 5 1 2 2 The parameter value is 0 to 127 For 64 value VCF isn t affected by the ...

Page 11: ...oise 5 28 Peak 37 5 55 Groove 1 29 Peak 50 56 Groove 2 30 Peak 62 5 57 Groove 3 31 Peak 75 58 Groove 4 32 Sink 25 59 Groove 5 33 Sink 37 5 60 Groove 6 34 Sink 50 61 Groove 7 35 Sink 62 5 62 Groove 8 36 Sink 75 63 Random The Groove waveforms parameter values 55 to 62 simulate a rhythmic sequences for the VCF modulation They are primarily designed for synchronization with MIDI Clock chapter 4 2 8 an...

Page 12: ...only for MIDI Notes It doesn t work with instrument s keyboard The parameter sets the delay before launching the additional LFO after a key is pressed It can be temporarily changed by MIDI CC Nr 25 see chapter 5 1 2 2 The parameter value is 0 to 127 Table 11 in chapter 6 5 shows conversion of the parameter value to the delay time for both Fixed and MIDI synchronization modes choosen by VCF LFO SYN...

Page 13: ...s are available 0 0 0 0 Æ Æ Æ Æ Normal Normal Normal Normal The arpeggiator rate is controlled by Polysix internal rate generator ARPEGGIATOR SPEED knob ARPG Clock Rate parameter see chapter 4 2 15 and CC 29 are ignored in this mode 1 1 1 1 Æ Æ Æ Æ Fixed Fixed Fixed Fixed The arpeggiator rate is controlled by interface clock generator The fixed tempo is set by ARPG CLOCK RATE parameter directly se...

Page 14: ...hannel commands13 13 13 13 All MIDI channel commands are received on the MIDI channel defined by the MIDI CHANNEL global parameter see chapter 4 1 1 5 1 1 5 1 1 5 1 1 5 1 1 NOTE ON OFF NOTE ON OFF NOTE ON OFF NOTE ON OFF The interface accepts Note On and Note Off commands in the range of max 61 notes 5 octaves If more than 6 MIDI Notes are active the last received Notes have higher priority Accept...

Page 15: ...127 29 3 ARPG Clock Sync Controls interface parameter 0 31 Normal 32 63 Fixed 64 95 MIDI 96 127 CC 30 3 ARPG Clock Rate Controls interface parameter 0 127 31 3 Indicator Mode Controls interface parameter 0 31 Off 32 63 LFO Clock 64 95 ARPG Clock 96 127 MIDI Event 40 2 Arpeggiator Arpeggio Remote control of the ARPEGGIO button 0 63 none function 64 127 Push 41 2 Key Assign Mode Hold Remote control ...

Page 16: ...Modulation Æ off value 0 CC 64 CC 64 CC 64 CC 64 Hold Æ off value 0 Pitch Bend Pitch Bend Pitch Bend Pitch Bend Æ middle position value 4096 CC 122 Local Off On CC 122 Local Off On CC 122 Local Off On CC 122 Local Off On The CC 122 with value from 64 to 127 Local On executes reset of the interface It is equivalent to pressing of the interface s Reset button or to the Reset common system MIDI comma...

Page 17: ...OR INTERFACE PATCH PARAMETERS EDITING AND SAVING CONTROLLERS FOR INTERFACE PATCH PARAMETERS EDITING AND SAVING CONTROLLERS FOR INTERFACE PATCH PARAMETERS EDITING AND SAVING CONTROLLERS FOR INTERFACE PATCH PARAMETERS EDITING AND SAVING This group of CCs adjusts values of the interface patch parameters in edit buffer and allows to save edited parameters to a patch in interface user memory see fig 5 ...

Page 18: ... parameter VCF LFO Amount see chapter 4 2 11 The CC 26 value from 0 to 127 corresponds to the parameter value directly CC 27 VCF LFO Modulation Wheel CC 27 VCF LFO Modulation Wheel CC 27 VCF LFO Modulation Wheel CC 27 VCF LFO Modulation Wheel Controls the parameter VCF LFO Modulation Wheel see chapter 4 2 12 The CC 27 value from 0 to 127 corresponds to the parameter value directly CC 28 VCF LFO Ch...

Page 19: ...erface has no direct access to CV of individual VCOs it controls only the keyboard matrix The tones are not bended continuously but in semitone steps only thus 5 1 5 5 1 5 5 1 5 5 1 5 PROGRAM CHANGE PROGRAM CHANGE PROGRAM CHANGE PROGRAM CHANGE Table 5 Table 5 Table 5 Table 5 Conversion of Program Change numbers to sound patch Bank Program Conversion of Program Change numbers to sound patch Bank Pr...

Page 20: ...he arpeggiator can work irregulary some clock pulses will be ommited if the tempo of played song and value of the ARPG CLOCK RATE are too high 5 2 2 5 2 2 5 2 2 5 2 2 RESET RESET RESET RESET When the Reset MIDI system command is received the interface is forced to the reset status same as instrument is switched on or the interface s Reset button is pressed see chapter 3 1 5 3 5 3 5 3 5 3 SYSTEM EX...

Page 21: ... memory archive The utility can be downloaded from our web site Support Manuals Support Software P6 M page Detailed description how to use the utility is available in the Support Software Patch Memory Organizer manual 5 3 3 5 3 3 5 3 3 5 3 3 SUPPORT FOR SYSEX MESSAGES C SUPPORT FOR SYSEX MESSAGES C SUPPORT FOR SYSEX MESSAGES C SUPPORT FOR SYSEX MESSAGES CREATION REATION REATION REATION As a suppor...

Page 22: ... LOOP When the P6 M interface is controlled by a sequencer HW or SW and the devices are connected bi directionally with both MIDI cables see fig 2 and the sequencer isn t set correctly communication loop might occur and the entire MIDI system freezes All MIDI data incoming from sequencer to interface s input are transferred to interface s output THRU function and again back to the sequencer in thi...

Page 23: ...Key s Channel s X X X X X X X X X X X X O O O O Pitch Bender X X X X O O O O Control Changes 1 16 to 31 40 to 44 64 119 120 121 X X X X X X X X X X X X X X X X X X X X X X X X X X X X O O O O O O O O O O O O O O O O O O O O O O O O O O O O Modulation Own controllers see description Own controllers see description Hold Own controller see description All Sound Off Reset All Controllers Program Chang...

Page 24: ...sion of CC 17 value to PITCH BEND RANGE parameter value Conversion of CC 17 value to PITCH BEND RANGE parameter value Conversion of CC 17 value to PITCH BEND RANGE parameter value CC value CC value CC value CC value Param Param Param Param value value value value CC value CC value CC value CC value Param Param Param Param value value value value CC value CC value CC value CC value Param Param Para...

Page 25: ...gth length length 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 0 100 0 104 0 108 0 111 0 116 0 120 0 124 0 129 0 134 0 139 0 144 0 149 0 155 0 160 0 166 0 172 0 179 0 185 0 192 0 199 0 207 0 214 0 222 0 230 0 239 0 248 0 257 0 266 0 276 0 286 0 297 0 308 0 319 0 331 0 343 0 356 0 369 0 383 0 397 0 411 0 427 0 442 0 459...

Page 26: ...eriod sec sec sec sec Period Period Period Period ticks ticks ticks ticks Note Note Note Note length length length length 90 91 92 93 94 95 96 97 97 97 97 98 99 100 101 102 103 104 105 105 105 105 106 107 108 2 614 2 711 2 811 2 915 3 022 3 134 3 249 3 369 3 494 3 623 3 757 3 895 4 039 4 188 4 343 4 503 4 670 4 842 5 021 0 383 0 369 0 356 0 343 0 331 0 319 0 308 0 297 0 286 0 276 0 266 0 257 0 248...

Page 27: ... 8 9 10 11 12 13 14 15 16 16 16 16 17 18 19 20 21 22 23 24 24 24 24 25 26 27 28 29 30 31 32 32 32 32 33 34 35 36 37 38 39 40 41 42 0 000 0 100 0 179 0 257 0 336 0 414 0 493 0 571 0 650 0 729 0 807 0 886 0 964 1 043 1 121 1 200 1 279 1 357 1 436 1 514 1 593 1 671 1 750 1 829 1 907 1 986 2 064 2 143 2 221 2 300 2 379 2 457 2 536 2 614 2 693 2 771 2 850 2 929 3 007 3 086 3 164 3 243 3 321 0 0 0 0 1 1...

Page 28: ... length length length length 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 32 32 32 33 34 35 36 37 38 39 40 41 42 43 44 0 400 0 415 0 430 0 446 0 462 0 480 0 497 0 516 0 535 0 554 0 575 0 596 0 618 0 641 0 665 0 689 0 715 0 741 0 768 0 797 0 826 0 857 0 888 0 921 0 955 0 990 1 027 1 065 1 104 1 145 1 187 1 231 1 276 1 324 1 372 1 423 1 476 1 530 1 587 1 6...

Page 29: ...th length length length The The The The param or param or param or param or CC 81 CC 81 CC 81 CC 81 value value value value Freq Freq Freq Freq Hz Hz Hz Hz Period Period Period Period sec sec sec sec Period Period Period Period ticks ticks ticks ticks Note Note Note Note length length length length 90 91 92 93 94 95 96 96 96 96 97 98 99 100 101 102 103 104 104 104 104 105 106 107 108 10 456 10 843...

Page 30: ...Y CONDITIONS IONS IONS IONS The equipment is provided with thirty thirty thirty thirty months warranty months warranty months warranty months warranty starting from the date of the equipment take over by the customer This date must be specified on warranty list together with dealer s confirmation During this period of time all defects of equipment or its accessories caused by defective material or...

Page 31: ...exit from the appliance SERVICING SERVICING SERVICING SERVICING To reduce the risk of fire or electric shock the user should not attempt to service the appliance beyond that described in the operating instructions All other servicing should be referred to qualified service personnel FOR UNITS EQUIPPED WITH EXTERNALLY ACCESSIBLE FUSE RECEPTACLE FOR UNITS EQUIPPED WITH EXTERNALLY ACCESSIBLE FUSE REC...

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