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Eobody3 USB:MManual

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1. remember that in MIDI pitch bend is always 14 bits If you want to use your ribbon with a software like MAX MSP choose a real 12 bits as MAX can receive 12 bits data e Continuous controllers can be assigned to any sound parameters In your software sequencer assign it to the parameter of your choice and start playing Inputs are Neutrik TRS double jacks 6 35 TRS format has been chosen because this is a world wide used format that can be found anywhere and easily repaired On sensors inputs TRS jack tips are powered with 5V 0 5V inputs have a 1 pole low pass filter and a buffer to accept different signals and filter data before the A D conversion Plug amp play mode In most cases the editor is not required Connect a sensor to your Eobody3 input1 Connect your Eobody3 to your computer Open your MIDI compatible software Input1 is on CC1 per default input2 on CC2 Modulate your MIDI CC1 parameter with your sensor When do I need the editor then With the editor you will be able to Change de MIDI channel affectation e Process the in coming signal with pre processing tools to adapt it to your special use e Make settings and record them in the non volatile memory to use the Eobody3 without computer thru the MIDI output Tutorial 1 2 Modulate a parameter with a continuous controller with Ableton Live 6 Note that for this configuration you do not need Eobody3 Sensorbox Editor Connect your Eobody3 Sensorb
2. Portamento Control formerly Main Volume Undefined Effect 1 Depth Effect 2 Depth Effect 3 Depth Effect 4 Depth Effect 5 Depth Data entry 1 Data entry 1 Non registered Parameter Number LSB Non registered Parameter Number MSB Registered Parameter Number LSB Registered Parameter Number MSB Undefined Mode messages Value lt 63 off 264 on lt 63 off 264 on lt 63 off 264 on lt 63 off 264 on lt 63 off 264 on 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 Source Note 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB na na 0 127 LSB 0 127 LSB 0 127 LSB 7 Function Transmitted Recognized Remarks Basic Channel Default 1 16 Xx memorised changed 1 16 X default Mode 3 X Messages X X Altered X X Note Number True Voice 0 127 X memorised 0 127 X Velocity NOTE ON 1 127 X NOTE OFF 64 After Touch Key Channel Pitch Bender 10 bit resolution Control Change memorised Program number 1 128 Program Change System Exclusive System Common Song Pos Song Sel Tune System Real time Clock Commands AUX Messages Local ON OFF All Notes OFF Active Sense Reset le X X en Benger o e o o Conver Crane cor me ee e X X X X X X X X X X X X X X X X X X Mode 1 OMNI ON POLY Mode 2 OMNI ON MONO o Yes Mode 3 OMNI OFF POLY Mode 4 OMNI OFF MO
3. This is a basic configuration that can be used with any MIDI software sequencer e What is a ribbon controller e A ribbon controller is a ribbon shaped continuous controller Some synthesizer from the 70s and 80s had ribbons like the Yamaha CS 80 Ribbons allow playing in a Theremin style but in an easier way Nowadays ribbons or fingerboard synthesizers are still made the Persephone for example Today it is possible to make a ribbon controller with a position sensor and use it directly in your software sequencer with a Eobody3 USB sensor system Position sensors are also great to simulate faders e For this example connect the position sensor in Eobody3 Sensorbox input number 1 e Position sensors are very easy to configure as their range goes continuously from 0 127 It means that in most cases using the Eobody3 internal process is not necessary e In the Editor routing window you will be able to choose the destination pitch bend or others e Here is a basic configuration which should be fine with position pressure sensors or potentiometers to send 14 bits MIDI to any MIDI compatible software e Activate input number 1 in the editor in the processing window go to state on e In the routing window you can choose between Pitch Bend real 12 bits and a Pitch Bend mapped 14 bits This choice will depend on what on you want to use your ribbon controller with To use it with a MIDI sequencer choose a mapped 14 bits Pitch Bend
4. sure that your main adapter is compatible with the main supply e Never touch your Eobody3 or its adapter with wet hands when it is plugged in Never place heavy objects on your Eobody3 If the unit is not to be used for a long period disconnect the adapter from the main e Congratulations You now own a new Eobody3 sensorbox a versatile and plug amp play usb to sensor interface to use sensor directly with your sequencer softwares or with softwares like Cycling 74 Max MSP Jitter Eobody3 sensorbox is unique because it offers an internal powerful processing to shape the out coming sensor signal and get the best results in an intuitive and easy way No MIDI interface needed no skills in computer programming required Eobody3 usb 8 SensorBox is the first module of a very flexible amp versatile sensor system whom core is your computer More modules will be developed in a very near future Your Eobody3 package should include the following items Make sure everything is in the box e usb 8 inputs Eobody3 e First steps with your Eobody3 e 1 usb cable You may register on www eowave com register php by entering your Eobody3 serial number This number is located on a sticker on the back of the unit Download and install the editor Download the editor from www eowave com download page Click on Eobody3 editor Eobody3 usb sensorbox editor is Mac MacIntel and PC compatible Before launching the editor you need to download the Max5 player
5. MIDI interface on Macs Two or more Eobody3 can be connected directly to the USB inputs of your computer but they can also be connected via a USB hub When several Eobody3 are connected they will appear like different audio devices with PCs different Eobody3 MIDI interfaces on Macs When the units have been named their given name will appear My computer does not recognize my Eobody3 On PC On Mac MIDI configuration Per default input 1 is on CC1 input 2 on CC2 etc So in major cases your MIDI compatible software will recognize the Eobody3 as a plug and play device The Global parameter window will appear Inside the Global Parameters Editor Page the first three sections define the connection between Eobody3 interface and your computer select MIDI port name your eobody save load The fourth section is dedicated to Eobody3 internal memory configuration e Select Eobody3 MIDI port Eobody3 uses the MIDI protocol to transfer data which means it is compatible with almost every MIDI software As it is not using the MIDI standard data transfer rate of 32500 Hz but a much more faster rate it might cause some problems with some softwares e your eobody name displays the name of your Eobody3 unit This function is very useful when you use more than one Eobody3 This given name will appear as the name of the unit To rename your Eobody3 unit click on change name in the fourth section below e save to file Save configurat
6. NO X No 1 Important notice do not modify this unit This product when installed as indicated in the instructions contained in this manual is compatible with the CE norm amp FCC requirements 2 Important When connecting this product to accessories and or another product use only high quality shielded cables Cables supplied with this product must be used Follow all installation instructions Failure to follow instructions could void your FCC authorisation to use this product in the USA Note this product has been tested and found to comply with the requirements listed in FCC Regulations Part 15 for Class B digital devices amp in The European Standard EN 50081 1 on Electromagnetic Compatibility Generic emission standard on residential commercial and light industry Compliance with these requirements provides a reasonable level of assurance that the use of this product in a residential environment will not result in harmful interference with other electronic devices Development Team Marc Sirguy Eowave CEO micro controller programming PCB software specs and concept Emmanuelle Gallin Eowave specs and concept industrial design manual Thanks Many thanks to all Eobody users who have supported us and have realized fantastic creations and performances with Eobody and to all who have shown their interest since the very beginning of this project We hope that this new versions will fulfil all your needs even better t
7. QD butter ADC rivert offset ni noise me 27 router filter fiker gate MIDE other hardware Gevre Figure Signal path Signal from analogue inputs goes thru analogue filters and buffers before A D conversion Then pre processing tools are available to reshape the signal invert zoom offset digital filter noise gate wave shaper Pre mapping settings per sensors are included In the editor the Parameters window enables to adjust internal processing parameters for each input 1 to 8 9 to 16 Refer to the description of each parameter for use To increase or decrease parameter values click on the case you want to edit and slightly move up or down your mouse Note that all setting parameters changes are made in real time To save a configuration click on Save current parameters e Status on off The status field indicates whether the signal on an analogue input should be converted into a digital message or not This field may be set to ON or OFF If the field is set to OFF the input is said to be inactive and no message relating to that input will be generated even if a signal does physically enter the device If the field is switched back to ON the input is active and its associated message will be sent each time the signal connected to that input varies in level Note The smaller the number of active inputs is the less data will be transmitted avoiding processor computation e digital zoom and offset digital zoom max mid l
8. Table des mati res Word n a pas trouv d entr es pour votre table des mati res Dans le document s lectionnez les mots inclure dans la table des mati res puis dans 2 b 2 Palette de mise en forme sous Styles cliquez sur un style d en t te R p tez l op ration b pour chaque en t te inclure puis ins rez la table des mati res dans le document Vous pouvez galement cr er une table des mati res en cliquant sur l option Cr er avec mise en forme manuelle puis tapez les entr es manuellement e Before using your Eobody3 make sure you have read the following instructions carefully e Do not open or modify the unit or its main adapter when the unit is externally powered e During lightning unplug the unit make sure the main adapter if one is not plugged e Before cleaning your Eobody3 make sure the main adapter and or any external elements are disconnected from the unit e Do not try to repair the interface or the components inside of it Please contact eowave for technical support at sales eowave com e Do not use your Eobody3 nor store it in dusty areas damp areas extreme temperatures exposed to direct sunlight areas prone to strong vibrations e If you need to use a main adapter make sure of the adapter output polarity voltage and current are correct e Do not insert any objects nor pour any liquid into the unit Protect the unit against violent shocks e Before using Eobody3 in a foreign country make
9. alue MIDI message A noise gate threshold reduces the bit depth of the signal If the analogue signal moves inside the range of the noise gate no message will be sent This field enables the user to set the width of the range A large range will be very effective against strong noise but will make the values less sensitive to a relevant change of the analogue signal A threshold of 5 corresponds to 127 different possible values i e the analogue has to change at least of 32 from 4095 above or under its current position to be detected as changing A threshold of 11 corresponds to 2 bits useful for Switches or all on off sensors e curve Eobody3 has a new pre processing tool called curve for response curve This wave shaping new feature allows changing the curve of a signal For example the linear response of a volume pedal can be changed to a logarithmic or exponential response All Eowave sensors are ready to use with Eobody3 Sensorboxes They have been designed to get the best signal response with additionnal filters and amplifying circuitry They are calibrated for maximum bandwidth Many are plug amp play and do not need extra processing The following table is for Eowave sensors only More information on each sensor can be found in the sensors datasheet available on www eowave com Sensor type 2D GForce 3D GForce IR Light movement detection flexion footswitch joystick Expression pedal position press
10. annel Volume Balance Undefined Pan Expression Controller Effect Control Effect Control Undefined Undefined General purpose Undefined Bank Select Modulation Breath control Undefined Foot control Portamento time Data entry Channel Volume Balance Undefined Pan Expression controller Effect control 1 Effect control 2 Undefined Undefined General purpose controller 1 4 Undefined Damper pedal on off sustain Value 0 127 MSB 0 127 0 127 0 127 0 127 0 127 0 127 0 127 0 127 0 127 0 127 0 127 0 127 0 127 0 127 0 127 MSB MSB MSB MSB MSB MSB MSB MSB MSB MSB MSB MSB MSB MSB MSB 0 127 MSB 0 127 MSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB 0 127 LSB N 65 66 67 68 69 70 71 72 13 74 15 76 77 78 19 80 83 84 85 90 91 92 93 94 95 96 97 98 99 100 101 102 119 120 127 Function Portamento on off Sustenuto on off Soft pedal on off Legato footswitch Hold 2 Sound Controller 1 Sound Variation Sound Controller 2 Timbre Sound Controller 3 Release Time Sound Controller 4 Attack Time Sound Controller 5 Brightness Sound Controller 6 Sound Controller 7 Sound Controller 8 Sound Controller 9 Sound Controller 10 General Purpose Controller 5 8
11. er these sensors up to 250 mA When the total consumption from all the sensors plugged to Eobody3 is higher than 250 mA an additional external power supply is necessary There are mainly two wiring norms for pedals on the market the Yamaha norm and the Roland norm With your Eobody3 you may use directly all expression pedals or footswitches at the Yamaha norm To use pedals and footswitches which respond to the Roland norm you need to modify your pedals or build an adapter Before you decide to modify your pedal be aware that this is a hardware modification and that once modified your pedal won t work with other Roland type devices anymore Eowave declines all responsibility for your modification If you re not sure that you have the skills for doing this modification by yourselves ask a professional e Roland norm vs Yamaha norm Roland norm expression pedal connection 5v C0 lc ground input signal e To modify your pedal Open the jack Invert tip amp ring cables Leave the ground unchanged e To build an adapter You need one 3 wires cable one stereo jack connector one stereo jack female connector Solder Ground to ground Tip to ring Ring to tip e Standard wire footswitch You may check the ring tip with a multimeter if you re not sure most common footswitch CE pin 1 pin 2 Eobody connection 5v dq gt ground input signal e To modify your footswitch Cut the mono jack Replace it b
12. han before Contacts amp support Eowave La Cure 58110 Tintury France info eowave com
13. hreshold the note is maintained no new MIDI message is sent When the level falls beneath the NOTE OFF threshold point a MIDI NOTE OFF message is sent to turn the note off To sustain the note for a long period of time the NOTE OFF threshold point must be set on a small value Conversely to make the note stop shortly after the peak has been detected the NOTE OFF value must be higher This type of message is useful in using sensors to generate MIDI notes Signal NOTE ON message a NOTE ON threshold NOTE OFF message NOTE OFF threshold t NOTE ON t NOTE OFF t e Program Change message PC The analogue signal must correspond to an envelope changing with time and which has a maxi mum value You will have to specify 3 parameters Program Change sent higher threshold and lower threshold Eobody3 analyses this envelope once the envelope has reached the higher threshold a MIDI Program Change message is generated The Program Change contained within the message is adjustable by the user As long as the envelope stays above a threshold named lower threshold the Program Change is maintained no new MIDI message is sent When the level falls beneath the lower threshold the Eobody3 is ready to receive a new Program Change message e Pitch Bend PB This message allows an analogue signal to generate a MIDI message of the pitch change type pitch bend Pitch is usually coded over 14 bits If the 7 bits resolution is chosen the
14. ial response with the curve parameter Plug amp play Plug amp play Plug amp play Use a sensorbox with trigger inputs which are sensitive to the velocity A gate value of 11 will reduce noise to avoid uncontrolled triggering Plug amp play A gate value of 11 reduce will noise to avoid uncontrolled triggering Plug amp play Note that when using more than one they need to be synchronized Only with digital I O Eobody3 supports many kinds of sensors Most common sensors are switches and potentiometers but there are many other kinds of sensors e Making my own sensor switch Switch CA 3 5 Kohm ground 5V Signal Connecting the ground avoids antenna effect when the switch is off Sensors need a minimum of two cables ground and signal When 5 V is connected to the signal when using switches for ex ample it may create an antenna effect generating undesirable distortion This is the reason why the signal must be connected to the ground e Making my own sensor potentiometer Potentiometer SV MM ground Signal To use a standard potentiometer with Eobody3 connect both outputs of the potentiometer resistor to the ground and 5 V Connect the variable output of the potentiometer to the signal input e Making my own sensor with other kinds of sensors 5V or OV Sensor ground ground Signal Some sensors like distance sensors need an extra power supply Eobody3 delivers 5V and 9V to pow
15. ion inside your computer hard drive e load to file load configuration from your computer hard drive Eobody3 internal memory configuration e check current parameters check the internal memory of Eobody3 unit e save current parameters Save current parameters inside the Eobody3 internal memory Eobody3 has an internal memory to store parameters settings You may store an entire installation or performance configuration inside one or more Eobody3 and keep it or them as back up units for a future use e init all parameters initialize to factory settings e revert to save go back to the configuration saved last e all off disactivate all parameters e delay As USB is very fast some older computer can have problems to receive the high data flow Increasing the de lay will reduce the data flow It will make Eobody3 analyse the analogue input not every scan cycle e change name rename your Eobody3 unit The new name will be displayed in the section your Eobody name e check name check the name of the Eobody3 unit you are editing when you are editing more than one e print incoming messages print to screen incoming MIDI messages e type This is one of the most important configuration parameters since it determines which type of MIDI message the device is going to send in response to variations in a particular analogue input Eobody3 is capable of generating 5 different messages e CC Control number change Control cha
16. nge 7 bits CC Control number change Control change 12 bits the 5 LSB bits are mapped on CC number 64 e Note Note on Trigger e PC Program change e PB Pitch bend Variation in pitch real 12 bits e PB Pitch bend Variation in pitch mapped 14 bits e ATm Monophonic aftertouch Channel pressure e CC Control Change This is the type of message which will likely be most often used for controlling sound parameters The value of the analogue signal acts directly upon the value of a MIDI controller using a MIDI controller Value Change message control change The number of the controller can be set by users If 12 bits resolution is selected this message will actually send two Control Change messages The controller specified in the val field will send the 7 least significant bits whilst the controller specified in the low field will send the 3 most significant bits on the same MIDI channel e Note on message N ON trigger hi low The analogue signal must correspond to an envelope changing with time and which has a maximum value 3 parameters need to be specified note sent higher threshold and lower thresh old Eobody3 analyses this envelope once the envelope has reached the higher threshold a MIDI note on message NOTE ON is generated The velocity associated with the note is fixed to 127 The note number contained within the message is adjustable by the user As long as the envelope Stays above a threshold point named NOTE OFF t
17. ow off on 7 offset 127 to 127 Digital value 12 bits MIDI conversion zoom setting real sensor range Offset e inverse MIDI data 7 bits To be compatible with the 7 bit MIDI world Those two parameters digital zoom and offset specify how the real range of an analogue input can be mapped on a 7 bit MIDI value As a matter of fact a sensor does not necessarily have a range equal to the reference voltage of the Analogue to Digital Converter A custom scaled zoom has been implemented on the digital value to take advantage of the 12 bit resolution of the A D converter First the voltage reference has to be set to the largest range among the sensors connected to the unit Then the user can select the sensor s range within the 12 bits dynamic by specifying a window size and an offset The selected range can then be converted into 7 bits MIDI data without greatly increasing the quantification step as shown in the illustration The digital zoom amp offset parameters may be very useful to modulate a filter on a certain part of the amplitude 127 becomes 0 and 0 becomes 127 This way you may inverse the curse of a sensor With an expression pedal for example you ll be able to inverse its curse e filter 0 64 32 bits low pass filter that smoothes the signal for unstable sensors e gate noise gate 12 values 0 11 Sensor Noise band t 2 noise naan Sensor signal O Sampled value Sampled v
18. ox to your computer please refer to Tutorial T 0 1 What kind of continuous controller can I use Continuous controllers are potentiometers ribbons pressure sensors all sensors that have a range from O to 127 Configure your Eobody3 SensorBox in Ableton Live6 In Live in the Option menu go in the Preferences window In the MIDI sync file activate remote on as shown on the picture Now go back to Live main window Click on MIDI to launch MIDI automation parameters e Choose the parameter you want to pm oOo modulate ON Auto Filter e With your mouse click on the parameter you want to modulate with a sensor The selected parameter will turn purple Auto filter frequency in this example Slightly move your sensor e In the MIDI mapping window you can now read CCi mapped auto filter frequency Quit MIDI automation by clicking the MIDI button Pre processing tools for sensors Pre processing is the process of translating electric variations coming from a sensor into comprehensive and exploitable data Data from sensors can be processed using the pre processing tools to get the best exploitable signal for a specific use The 32 bit IC allows to have different processes according to the type of data standard sensors continuous controller triggers peak detection simple logic or more complex analysis like algorithms for certain sensors like gyroscopes for example te CAE al Sje Ou
19. trol Change 12 bits i MIDI port X PC Program Change PB Pitch Bend PB Pitch Bend ATm monophonic aftertouch O transmitted X not transmitted X e Plug the sensors to your Eobody3 USB8M USB16M SensorBox e Plug the MIDI out in the MIDI in of your MIDI device Note that there is no MIDI in This means that you cannot use Eobody3 USB8M as a MIDI interface to connect your MIDI synths to your computer e Plug the external power supply An external 9DC 250 mA power supply is delivered with your Eobody3 USB8M USB16M SensorBox If you are using another power supply make sure the polarity is correct Be aware that using a wrong polarity could cause irreversible damages to the unit e MIDI Continuous Controllers per default are e input 1 sends CC1 on channel 1 CC for continuous controller e input 2 sends CC2 on channel 1 e input 3 sends CC3 on channel 1 e input 4 sends CC4 on channel 1 e How to modify MIDI continuous controllers To modify MIDI continuous controllers you may use your Eobody3 USB8M USB16M SensorBox in its USB mode and use the editor To plug your SensorBox via USB to a computer amp launch the editor refer to the previous section ark WN O 10 11 12 13 14 15 16 19 20 31 32 33 34 39 36 37 38 39 40 41 42 43 44 45 46 47 48 51 52 63 64 Function Bank Select Modulation wheel Breath control Undefined Foot controller Portamento time Data Entry Ch
20. unless you already have a Max5 session On www cycling74 com download Max5 trial It s free Max5 runtime will remain on your computer when the trial is over Open Max5 runtime before launching the editor Maxers note that the editor collective file is also available to avoid having 2 Max apps running on the same computer When the installation is over a window pops up with a successful message When using usb or an external powering you need to set Eobody3 external switch to the right position USB powering Eobody3 is USB self powered Just plug the usb from Eobody3 to your computer usb in External powering You will need an external powering in the following cases e Some sensors need more than the usb 3 3V In this case you can power the unit externally with a 9 V DC 500 mA power supply Connect the 9 V DC 500 mA power supply into the power plug connector of Eobody3 An internal fuse is activated when not plugged right to avoid major internal damages How do I know that the sensors I use need an external powering All 5V sensors need external powering Eowave 5V sensors are distance sensors e You are using an Eobody3 with a MIDI output without a computer To connect your Eobody3 to your computer connect the USB cable to your computer USB in or to any USB hub connected to your computer You do not need any MIDI interface When connected to your computer Eobody3 will appear like a new audio device on PC like Eobody3
21. ure potentiometer Shock piezzo switch temperature ultrasonic Gyroscope 2 axis Gyroscope 5 axis sonometer Number of inputs 2 ee ee Continuous on off 0 127 0 127 0 127 0 127 On off On off 0 127 On off 0 127 0 127 0 127 0 127 0 127 On off On off 0 127 0 127 0 127 0 127 0 127 Active passive active active active passive passive active passive passive passive passive passive passive passive passive passive passive active passive passive passive Need ext power no no yes no no no no no no no no no no no no yes Integratedad ditionnal circuitry yes yes yes yes yes yes Yes External trimmer yes yes no yes yes no Yes amplifier no no yes yes yes Editor parameters setting Plug amp play Plug amp play the output signal can be amplified by setting the analogue zoom on 1 To reduce IR noise filter the signal in the editor by setting a high filter value Plug amp play Plug amp play A gate value of 11 will reduce noise to avoid uncontrolled triggering Plug amp play Sensitivity can be set with the external trimmer Plug amp play A gate value of 11 will reduce noise to avoid uncontrolled triggering Plug amp play Plug amp play Note that you can use the inverse feature the linear response of a pedal can be changed to a logarithmic or exponent
22. y a stereo jack Connect one wire to 5 V pin tip Connect one wire to the signal ring Connect one 3K resistor between ground and signal ring 3K Resistor the long pin is often ring the short pin is often tip e To build an adapter You need one 3 wire cable one stereo jack connector one stereo or mono jack female connector Solder ground from female to ring of male connector tip to tip 3K resistor between ring ground from male connector Amplification Some sensors have a weak signal out and need amplifying To avoid undesirable noises the amplifier should be placed as close as possible from the sensor NOISE Connection cable serlvoeh lt _ p gt d1 d2 Connection cable NOISE d1 d2 A di lt lt d2 gt TRS 1 4 jack 6 35 mm connectors ground 5V Tip 5V Ring signal signal Sleeve ground EOBODY3 SENSORBOX USER S MANUAL 15 e Eobody3 with MIDI output what s the difference Eobody3 USB8M and USB16M offer the possibility to control any MIDI hardware devices with sensors with no computer With Eobody3 USB8M and USB16M the data flow transfer rate has been reduced to be compatible with the MIDI standard Only MIDI compatible modes are transmitted via the MIDI output See table Eobody3 USB8M or USB16M can also be used with USB as Eobody3 without a MIDI output In this case they will react like models without MIDI output Type of messages Res CC Con
23. y will be mapped on the 7 most significant bits of pitch information controlled by the analogue signal However since Eobody3 does 12 bits conversions internally the whole 12 bits can be mapped to take better advantage of the pitch bend message This message is used to simulate the pitch changing wheels available on most MIDI keyboards e Monophonic Aftertouch ATm This message allows an analogue signal to generate a channel pressure type MIDI message chan nel aftertouch This pressure message affects a whole MIDI channel regardless of what note is played The user selects the channel number e message Channel 1 8 This field enables the user to select a MIDI channel to which the MIDI message will apply 1 to 8 e value val O 127 This field enables the user to set the fixed parameter of a MIDI message associated with an analogue input This parameter value may correspond to a MIDI note number a MIDI controller number or a MIDI program number depending on the type of MIDI message which is chosen Configuration map for analogue inputs se Note Note on trigger higher threshold lower threshold jr PC Program Change 7 bits PG value higher threshold lower threshold ATm monophonic aftertouch be i hae ones Eau tl ie nu fl Tutorial T 1 1 How to make a plug amp play ribbon controller Subject This tutorial will show you how to assign a pitch bend to a position sensor to make a ribbon controller

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