HWce User Manual
Contents
1. Each non wired key button switch input will be read as being open contact break Each potentiometer input left unconnected will be read as potentiometer left in Max position A key button switch input connected to GND will be read as being closed contact make In case potentiometer input is grounded it will be read as potentiometers left in Min position The proper Control Change or other programmed by user messages for each button switch and potentiometer will be transmitted once upon on initializing starting up info midiboutique com www midiboutique com mpc64up JDP MMX MIDI Gadgets Boutique Inc 5 Technical specification eS eS ae NER Power supply voltage v Any adapter transformer capable to z i i m E Source 50mA or more at 9 ower supply curren m 12V AC DC can be used Number of contact inputs scan points lly open or normally closed Each key contact is being scanned Scan rate for contacts 3Od Rumes per second Number of analog potentiometer inputs 10 100 kOhm linear potentiometers preferably 10kOhm Scan rate or potentiometers Each potentiometer is being Scanned 50 times per second Defined per MIDI event single MIDI string can contain MIDI messages going on various MIDI channels 256 byte buffer Approx D 3 x3 3 1 MIDI channels User defined MIDI Merge Weight Ez 2 MIDI defi MIDI messages User defined Vp to 32. merging with 256 byte buffer allowing other software applications to be cascaded to mpc64up without additional virtual merging software The MIDI input is also used for programming MIDI events in mpc 64up 2 How it works In mpc6 4up internal program memory there is a table of MIDI bytes For each of key inputs there are two entries strings containing 32 MIDI bytes one string for On event and the other string for Off event For each of potentiometers there is an 32 byte entry string containing 32 MIDI bytes that are sent upon each potentiometer position change Hence there is a table of totally 64 7 8 79 MIDI strings each 32 bytes long Each of these strings can be reprogrammed by user for any MIDI content The string can contain MIDI status bytes MIDI Data bytes System and Realtime MIDI messages etc It is entirely up to the user what MIDI string will be sent by triggering changing each of mpc64up inputs The programming is done by uploading the specific MIDI string to specific table entry via mpc64up MIDI input An special Windows based application was designed for this purpose called mpc64upprg exe It is available for free download on our site follow links on mpc64up product page The mpc64up can be programmed using other Windows or non Windows applications providing that they can send user defined System Exclusive messages and user defined MIDI strings The programming sequence and messages protoco
3. 72 1 38 momentary contact switch NoteOn 73 NoteOff 73 1 39 momentary contact switch NoteOn 74 NoteOff 74 1 40 momentary contact switch NoteOn 75 NoteOff 75 1 41 momentary contact switch NoteOn 76 NoteOff 76 1 42 momentary contact switch NoteOn 77 NoteOff 77 1 43 momentary contact switch NoteOn 78 NoteOff 78 1 info midiboutique com www midiboutique com mpc64up JDP MMX MIDI Gadgets Boutique Inc 44 momentary contact switch NoteOn 79 NoteOff 79 1 45 momentary contact switch NoteOn 80 NoteOff 80 1 46 momentary contact switch NoteOn 81 NoteOff 81 1 47 momentary contact switch NoteOn 82 NoteOff 82 1 48 momentary contact switch NoteOn 83 NoteOff 83 1 49 momentary contact switch NoteOn 84 NoteOff 84 1 50 momentary contact switch NoteOn 85 NoteOff 85 1 51 momentary contact switch NoteOn 86 NoteOff 86 1 52 momentary contact switch NoteOn 87 NoteOff 87 1 53 momentary contact switch NoteOn 88 NoteOff 88 1 54 momentary contact switch NoteOn 89 NoteOff 89 1 55 momentary contact switch NoteOn 90 NoteOff 90 1 56 momentary contact switch NoteOn 91 NoteOff 91 1 57 momentary contact switch NoteOn 92 NoteOff 92 1 58 momentary contact switch NoteOn 93 NoteOff 93 1 59 momentary contact switch NoteOn 94 NoteOff 94 1 60 momentary contact switch NoteOn 95 NoteOff 95 1 61 momentary contact sw
4. special considerations Footer message This is obligatory 10 byte System exclusive message that passes to mpc64up the table entry number to be programmed and invokes the memory write routines to copy the input buffer content to proper table entry Footer message 10 bytes all shown in HEX format FO SysEx start 00 first ID 21 sec ID MGB 7F thd ID OD Device ID mpc64up 01 Device sub ID message ID 01 Store buffer 11 Entry number LSB 7 bit value 00 7F mm Entry number MSB 7 bit value 00 07 Xx Bytes in buffer 00 20 F7 SysEx end info midiboutique com www midiboutique com mpc64up JDP MMX MIDI Gadgets Boutique Inc Appendix B mpc64up factory MIDI implementation Keys Key Control type MIDI message MIDI message MIDI channel Comment on make on break 1 momentary contact switch NoteOn 36 NoteOff 36 1 2 momentary contact switch NoteOn 37 NoteOff 37 1 3 momentary contact switch NoteOn 38 NoteOff 38 1 4 momentary contact switch NoteOn 39 NoteOff 39 1 5 momentary contact switch NoteOn 40 NoteOff 40 1 6 momentary contact switch NoteOn 41 NoteOff 41 1 7 momentary contact switch NoteOn 42 NoteOff 42 1 8 momentary contact switch NoteOn 43 NoteOff 43 1 9 momentary contact switch NoteOn 44 NoteOff 44 1 10 momentary
5. 2 byte ne string per event Approx 2 5 oz info midiboutique com www midiboutique com mpc64up JDP MMX MIDI Gadgets Boutique Inc 4 Appendix A mpc64up Programming Step by step programming sequence 1 Download the mpc64upprg zip file from our site www midiboutique com The actual link can be found on mpc64up product page Copy and unzip the downloaded file to dedicated folder Connect computer s MIDI output to mpc64up MIDI input using standard MIDI cable Power up the mpc64up Run the unzipped mpc64upprg exe utility uS Mane I mpe64up Programmer utility e e www midiboutique com MIDI Output port mpc dup Input EVENT Kev Input 1 ON Event MIDI content HEX Bytel Empty Bytel7 Empty Ie Byte2 Empty ie Byte18 Empty ied Byte3 Ei Empty M Gyte13 Empty f Byte Empty M Byte20 Empty 18 Bytes Byte21 Empty I8 Bytes Byte22 Empty Ie Byte Empt Byte23 Empty PA Bytes Empty A Byte24 Empty lei Byte3 Empty amp Byte25 Empty Ie Byte10 Empty M Byte26 Empty Ie Byte11 Empty Byte27 Empty Ie Byte12 Empty ie Byte28 Empty le Byte13 Empty d Byte29 Empty i Bytel4 Empty M Byte30 Empty Ie Byte15 Empty Fe Byte31 Empty Ie Bytel6 Empty ie Byte32 Empty
6. 20 ON Event MIDI content HEX Bytel 90 Status 1 el Bytel 7 Empty Hj Byte2 Byte18 Empty Ie Bytes Bytels Empty Ve Byte4 ty Byte20 Empty 8 Bytes Empty M Byte21 Empty M Byte amp Empty WP Byte22 Empty D Byte Empty HM Byte23 Empty Fe Bytes Empty WP Byte24 Empty WM Byte9 Empty Byte25 Empty He Byte10 Empty Hj Byte26 empty i8 Bytell Empty He Byte2 Empty m Bytel2 Empty m Byte28 i Empty M Byte13 Empty HW Byte29 Empty He Bytel4 Empty HM Byte30 Empty Ie Byte15 Empty Fe Byte31 Empty m Byte16 Empty Hj Byte32 Empty M E 10 Repeat steps 6 9 as many times as necessary for programming desired events 11 The unit is programmed and can be used NOTES The programmed MIDI strings will be permanently kept in non volatile power independent memory and won t change until next programming More than one mpc64up unit can be chained together and will be programmed simultaneousness as each mpc64up would retransmit whatever MIDI traffic it gets Programming protocol The programming protocol includes three parts Header message This is optional 10 byte System exclusive message that only causes reset of program input queue the 32 byte input buffer that receives the MIDI string to be programme
7. contact switch NoteOn 45 NoteOff 45 1 11 momentary contact switch NoteOn 46 NoteOff 46 1 12 momentary contact switch NoteOn 47 NoteOff 47 1 13 momentary contact switch NoteOn 48 NoteOff 48 1 14 momentary contact switch NoteOn 49 NoteOff 49 1 15 momentary contact switch NoteOn 50 NoteOff 50 1 16 momentary contact switch NoteOn 51 NoteOff 51 1 17 momentary contact switch NoteOn 52 NoteOff 52 1 18 momentary contact switch NoteOn 53 NoteOff 53 1 19 momentary contact switch NoteOn 54 NoteOff 54 1 20 momentary contact switch NoteOn 55 NoteOff 55 1 21 momentary contact switch NoteOn 56 NoteOff 56 1 22 momentary contact switch NoteOn 57 NoteOff 57 1 23 momentary contact switch NoteOn 58 NoteOff 58 1 24 momentary contact switch NoteOn 59 NoteOff 59 1 25 momentary contact switch NoteOn 60 NoteOff 60 1 26 momentary contact switch NoteOn 61 NoteOff 61 1 27 momentary contact switch NoteOn 62 NoteOff 62 1 28 momentary contact switch NoteOn 63 NoteOff 63 1 29 momentary contact switch NoteOn 64 NoteOff 64 1 30 momentary contact switch NoteOn 65 NoteOff 65 1 31 momentary contact switch NoteOn 66 NoteOff 66 1 32 momentary contact switch NoteOn 67 NoteOff 67 1 33 momentary contact switch NoteOn 68 NoteOff 68 1 34 momentary contact switch NoteOn 69 NoteOff 69 1 35 momentary contact switch NoteOn 70 NoteOff 70 1 36 momentary contact switch NoteOn 71 NoteOff 71 1 37 momentary contact switch NoteOn 72 NoteOff
8. d During reset all the 32 bytes of Program buffer are set to HEX value of FF If the string to be programmed is 32 bytes long the header message can be omitted as the input queue will be updated entirely The format of this message is Header message 10 bytes all shown in HEX format FO SysEx start 00 first ID 21 sec ID MGB 7F thd ID MGB OD Device ID mpc64up 00 Device sub ID message ID 0 Reset buffer XX future use byte set to 00 XX future use byte set to 00 XX future use byte set to 00 F7 SysEx end The MIDI string itself It can be between 0 and 32 bytes long In case of 0 bytes the MIDI string for the programmed event is considered empty and this event won t be producing any MIDI output This has the same effect as programming HEX FF value to all 32 bytes of this info midiboutique com www midiboutique com mpc64up JDP MMX MIDI Gadgets Boutique Inc string This feature is suitable for programming switches that would transmit Program change messages upon contact make and nothing upon contact break If an MIDI string is longer than 32 bytes only the last 32 bytes will take place Any MIDI bytes of any order can be transmitted The only two values that have special meaning are HEX FF MIDI Reset and HEX F6 Tune Request These are used for inserting special parameters in MIDI string Refer to notes after the Step 8 of step by step programming sequence described above about these
9. itch NoteOn 96 NoteOff 96 1 62 momentary contact switch NoteOn 97 NoteOff 97 1 63 momentary contact switch NoteOn 98 NoteOff 98 1 64 momentary contact switch NoteOn 99 NoteOff 99 1 Buttons Button Control type MIDI message MIDI message MIDI channel Comment on make on break 1 momentary contact switch CC 80 On CC 80 Off 1 2 momentary contact switch CC 81 On CC 81 Off 1 3 momentary contact switch CC 82 On CC 82 Off 1 4 momentary contact switch CC 83 On CC 83 Off 1 5 momentary contact switch CC 84 On CC 84 Off 1 6 momentary contact switch CC 85 On CC 85 Off 1 7 momentary contact switch CC 86 On CC 86 Off 2 Potentiometers Pot Control type MIDI message on change MIDI channel Comment potentiometer or control 1 voltage 0 5V CC7 Volume potentiometer or control CC7 Volume 2 voltage 0 5V 2 potentiometer or control CC7 Volume 3 voltage 0 5V 3 potentiometer or control CC7 Volume 4 voltage 0 5V 4 potentiometer or control CC7 Volume 5 voltage 0 5V 5 potentiometer or control CC7 Volume 6 voltage 0 5V 6 potentiometer or control CC7 Volume T voltage 0 5V 7 8 potentiometer or control CC7 Volume 8 info midiboutique com www midiboutique com mpc64up JDP MMX MIDI Gadgets Boutique Inc 10 voltage 0 5V info midiboutique com www midiboutique com mpc64up JDP MMX MIDI Gadgets Boutique I
10. l and format are described in Appendix of this document 3 MIDI implementation Appendix B shows the factory programmed MIDI implementation of mpc64up This MIDI implementation can be used as it is and can be changed by user when if necessary In it each of scan points triggers NoteOn NoteOff messages on separate channel per scan matrix MIDI Channel 1 is covered The note range is MIDI notes 36 99 The additional switch button inputs trigger Control Change messages CC80 CC86 on MIDI channel 1 The info midiboutique com www midiboutique com mpc64up JDP MMX MIDI Gadgets Boutique Inc N continuous potentiometer inputs trigger continuous controller CC7 Volume on MIDI channels 1 8 4 Wiring diagrams Normally the mpc64up is used in systems with passive GND keying It can be confuigured for active positive or active negative keying viltage upon request Unless other requested th unit is supposed to work with passive keying An unit configured for passive keying MUST NOT Be used insystems with active keying Applying keying voltage in such unit would damage it the keying voltage can be configured for Key inouus only The additional switch button inputs cannot be configured for anything than GMD keying The wiring diagram showing all cases of wiring can be foiund in Appendix C The key switch button and potentiometer control inputs should be connected to keys switches buttons and potentiometers as shown on Schematic
11. m C Send 3 6 Select the proper MIDI output port from MIDI Output drop down list NOTES Some systems may have more than one MIDI output there could be hardware and virtual ports as well Make sure you have selected the hardware port that is connected to mpc64up in previous steps mpc84up Programmer utility eo e www midiboutique com Microsoft MIDI Mapper ut To MIDI Yoke 5 MIDI Output part mpcb4up Input EVENT Event MIDI content Bytel Empty Byte2 Empty Byte3 Empty Byte4 Empty e Byte5 Empty le Byteb Empty le Byte7 Empty dH Byte8 Empty e Byte24 Empty ie Byte8 Emptr Byte25 Empty Byte10 Empty ej Byte26 Empty ie Bytell Empty M Byte27 empty I8 Bytel2 Empty E Byte28 Empty iJ Byte13 Empty D Byte23 Empty Ie Byte14 Empty e Byte30 Empty ie Byte15 Empty E Byte31 Empty 5 Bytel amp Empty M Byte32 Empty Ie 4 Send info midiboutique com www midiboutique com mpc64up JDP MMX MIDI Gadgets Boutique Inc 5 7 Select the event you want to program All user programmable MIDI events are listed in mpc64up Input EVENT drop down list There are three groups of events ON event for contact inputs OFF event for contact inputs and CHANGE events for potentiometer inputs x
12. mpc64up JDP MMXIII MIDI Gadgets Boutique Inc mpc 64up Universal MIDI keyboard encoder user s guide 1 What is this mpc64up is the user programmable successor of one of our best selling units mpc64xr and covers its entire functionality adding better performance wider capabilities within smaller size and lower cost mpc64up is capable to scan and encode to MIDI up to 64 key contacts or general contacts configured for passive or active keying It has 7 additional switch button inputs as well as 8 analog inputs where potentiometers can be wired directly for allowing Continuous control by faders pedals etc Hence mpc64up has the capability of encoding up to 64 7 71 contacts and 8 potentiometers This is enough for most typical keyboard or control applications involving standard 5 octave keyboard and expression controls faders pedals The most important capability of this unit though is its user programmability Each of contacts can be programmed to send any combination of up to 32 MIDI bytes upon engaging and up to 32 MIDI bytes upon releasing Each of potentiometers can be programmed to send up to 32 MIDI bytes upon position change where one or more of these bytes can carry the data about potentiometer s position number between 0 and 127 The support of user programmability allows using mpc dup for controlling virtually any MIDI controllable software Last but not least mpc64up has MIDI Merge input capable of full
13. mpc64up Programmer utility e0e wwmidiboutique com MIDI Output port SB Live MIDI Port B800 A mpc64up Input EVENT Key Input 1 ON ey Input 16 ON A ey Input 17 ON ey Input 18 ON Event MIDI content Bytel Empty Byte2 Empty Byte3 Empty Byte4 Empty Empty Bytes Empty le Byte21 Empty Fe Byte amp Empty Fe Byte22 Byte Empty Fe Byte23 Empty He Byte8 Empty Fe Byte24 Empty Fe Byte9 Empty i Byte25 Empty Byte10 Empty He Byte26 Empty He Byte11 Empty Fe Byte27 Empty Fe Byte12 Empty Fe Byte28 Empty Fe Byte13 Empty le Byte29 Empty Fe Byte14 Empty Fe Byte30 Empty Fe Byte15 Empty m Byte31 Empty Fe Bytel6 Empty Fe Byte32 Empty Fe Send 8 Choose desired event content byte by byte by selecting byte values NOTES Bytes that have assigned Empty will be reset to value of FF For any event each byte that has been assigned HEX value of FF will be ignored and won t be producing MIDI output traffic For potentiometer events each byte that has been assigned HEX value of F6 will be replaced by potentiometer data in range 0 127 as read from potentiometer Hence System Reset MIDI message HEX FF cannot be programmed in a
14. nc 11 Appendix C Wiring diagram 3 El E 1 5 S E E 2 F v o o he gt amp E 3 S E E Py S ES amp Z 3 F Mr 3 EL on I E e eno ri FE ae a H BS g A a 29 6 i H a BP AER m 2 ag T9 fo ae E 94 fol B des KEY INPUTS 49 64 POWER MIDI OUT KEY INPUTS 33 48 KEY INPUTS 17 32 Status LEDs MIDI IN all potentiometers 1 0 kOhm linear POTS 2 z I m m 4 Pal wW m 8 o Le A B8 8 A a ENS NOTE More detailed copy of this diagram is available on our site in pdf format info midiboutique com www midiboutique com
15. ny event and Tune Request MIDI message HEX F6 cannot be programmed in potentiometer events info midiboutique com www midiboutique com mpcB4up Programmer utility ee www midiboutique com MIDI Output part SB Live MIDI Port B800 FA mpc64up Input EVENT Key Input 20 ON m Event MIDI content HEX Bytel Empty Bytel Empty Ie D Status NoteOff Chan 14 oteOff Chan 15 Byte2 Byte3 Byte4 E Status Ni LN Byte5 2 Status NoteOn Chan 3 B3 Status NoteOn Chan 4 Byte6 B4 Status NoteOn Chan s Byte7 Empty M Byte23 empty I Bytes Empty Fe Byte24 Empty i Byteg Empty He Byte25 Empty Byte10 Empty ie Byte26 Empty i Bytell Empty 5 Byte27 Empty Z Byte12 Empty i Byte28 Empty 75 Byte13 Empty ie Byte29 Empty 8 Byte14 Empty i Byte30 Empty i Bytel5 Empty j Byte3l Empty Ie Byte16 Empty ie Byte32 Empty 5 Send mpc64up JDP MMX MIDI Gadgets Boutique Inc 6 9 After the MIDI string has been configured press once the Send button at the bottom n A mpc64up Programmer utility e e www miciboutique com MIDI Output port SB Live MIDI Port B800 A mpc64up Input EVENT Key Input
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