Phatline

der schaut ja aus wie ein itt shadow DT6 nur Transparent mit LED eingebaut, bitte wo gibts den? https://www.reichelt.de/Eingabetaster-Digitast-/DT-6-SW/3/index.html?&ACTION=3&LA=2&ARTICLE=7241&GROUPID=3280&artnr=DT+6+SW

because of programming and messing arround, i have to press that button every programming session often... so you better wire a switch to the back off your device... Pin PA0 to 5V on the STM32F4 do the job... (the programming switch)

schreib den mal an, ober das projekt fertig gebracht hat: http://www.midibox.org/dokuwiki/doku.php?id=midiboxmixer

same Problem on MINT 17.3, which is based on Ubuntu 14.04. Host: daw Kernel: 4.2.0-30-generic x86_64 (64 bit) Desktop: Cinnamon 2.8.6 Distro: Linux Mint 17.3 Rosa

i measure 4 you : @J11 Core 5v between VS and 4,1V Pin (should be 5V thenthe pcb is already labeld with +5V,) between VS and MI1-4 i measure 3Vs (should 3,3 maybe - my displays consume much...) between VS and MO1-4 i measure 0,5V @a midiport which is sending > has on my board 3,9VDC which i assume should be 5V - so 5V then! i use an application which uses 2xMIO Boards

Music: Aphex Twin - Drukqs interesting aspect... i am most of time solder silent... time for thinking, let pictures come from the past...

ah ok in this way...that way i did not know...FILE_Browser_Handler ... cool ...

is it? which app (i need that)? the mass storage device app is written for stm32f10 and lpc17 only...

well then build the BLM first, and then Touch/feel the buttons, what do the feel for you ... for me it dont have the feel/touch to play melodys on it, i mean you have to play precisely o..., and touch it the right way in order to activate the right.. ... i am no keyboarder yet, i stell play the last year from time to time, and as techno musican it gets wild... being in beat, hitting in beat -its then a. good to have this big white and black keys to hit the right note... (i talk about size not, the arrangement off keys) & b. the feeling the instrument is built for that so you can really punch it.... with the BLM i ever have the feeling of "not touching it to much" ... i even thougt about it, to exclude my 16 ROLL buttons (which i use most and hard) from the BLM-XY-ExtraBtns and take some more robust one (i havnt found them yet), i have thougt about DIY optical ones with Diodes/fototransistors, and AIN moduels...

...a heavy metal midi robot....

for me i dont need Velocity on the Harmonic table... since in my concept the melody-velocity is overruled from the Drum-Sequence-Velocity (in fact they only sound when a drumtrigger comes in).... but for the Drumsequence (remoted from BLM) i will need 16x Velocity-sense Pads, to trigger the Drumsequence in, in my concept the DrumTriggerpads are next to the BLMs Tracks, like your picture only in 2 rows...

i am plaing something like this, but with a custom Sequencer software and hardware instead of Wilbas Frontpanel in my case the Frontplates are individual Plates for the different devices, mounted on trusses...in order to be modular in the future... the trusses are mounted in a road-Case, which i will order from Thoman.de i am interested in your Harmonic Table!!! good idea! If the Buttons can be illuminated - and you plan to order a PCB for that? (illumination to show currently played MelodySequence &or harmonic fitting Notes) - i am possibly in for that, or @ least interesting @ the way you going it on....

ah ok thx 4 info

YEAAAAH!

FYI i have uploadet the APP: mios32/trunk/apps/misc/usb_mass_storage_device/project.hex on a STM32F4.... MiosStudio then say: "[16004.284] SD Card has been connected!" but linux (Ubuntu 15.10) dont recognize a new Drive. i have already tryd a other STM32F4 board - still the same. maybe because the code was written for the stm32F10? > (stm32F4 has on board SD-Card slot) - i dont know, but the application recognize a sd-card. "Required hardware: o MBHP_CORE_STM32 or MBHP_CORE_LPC17 o a SD Card connected to J16 of the core modulRequired hardware: "

AutoQuantize, some Excel again: Base = 12tics * 8 = 96tics between 2 16th Steps TIC Quantize 64 Quantize 32 Quantize 16 if * && if * Tic Step if * && if * Tic Step if * Tic STEP 0 <= Base 1 0 Current <= Base 2 0 Current <= Base 4 0 Current 1 <= Base 1 0 Current <= Base 2 0 Current <= Base 4 0 Current 2 <= Base 1 0 Current <= Base 2 0 Current <= Base 4 0 Current 3 <= Base 1 0 Current <= Base 2 0 Current <= Base 4 0 Current 4 <= Base 1 0 Current <= Base 2 0 Current <= Base 4 0 Current 5 <= Base 1 0 Current <= Base 2 0 Current <= Base 4 0 Current 6 <= Base 1 0 Current <= Base 2 0 Current <= Base 4 0 Current 7 <= Base 1 0 Current <= Base 2 0 Current <= Base 4 0 Current 8 <= Base 1 0 Current <= Base 2 0 Current <= Base 4 0 Current 9 <= Base 1 0 Current <= Base 2 0 Current <= Base 4 0 Current 10 <= Base 1 0 Current <= Base 2 0 Current <= Base 4 0 Current 11 <= Base 1 0 Current <= Base 2 0 Current <= Base 4 0 Current 12 > Base 1 <= Base 2 Base*2 Current <= Base 2 0 Current <= Base 4 0 Current 13 > Base 1 <= Base 2 Base*2 Current <= Base 2 0 Current <= Base 4 0 Current 14 > Base 1 <= Base 2 Base*2 Current <= Base 2 0 Current <= Base 4 0 Current 15 > Base 1 <= Base 2 Base*2 Current <= Base 2 0 Current <= Base 4 0 Current 16 > Base 1 <= Base 2 Base*2 Current <= Base 2 0 Current <= Base 4 0 Current 17 > Base 1 <= Base 2 Base*2 Current <= Base 2 0 Current <= Base 4 0 Current 18 > Base 1 <= Base 2 Base*2 Current <= Base 2 0 Current <= Base 4 0 Current 19 > Base 1 <= Base 2 Base*2 Current <= Base 2 0 Current <= Base 4 0 Current 20 > Base 1 <= Base 2 Base*2 Current <= Base 2 0 Current <= Base 4 0 Current 21 > Base 1 <= Base 2 Base*2 Current <= Base 2 0 Current <= Base 4 0 Current 22 > Base 1 <= Base 2 Base*2 Current <= Base 2 0 Current <= Base 4 0 Current 23 > Base 1 <= Base 2 Base*2 Current <= Base 2 0 Current <= Base 4 0 Current 24 > Base 2 <= Base 3 Base*2 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 25 > Base 2 <= Base 3 Base*2 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 26 > Base 2 <= Base 3 Base*2 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 27 > Base 2 <= Base 3 Base*2 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 28 > Base 2 <= Base 3 Base*2 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 29 > Base 2 <= Base 3 Base*2 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 30 > Base 2 <= Base 3 Base*2 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 31 > Base 2 <= Base 3 Base*2 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 32 > Base 2 <= Base 3 Base*2 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 33 > Base 2 <= Base 3 Base*2 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 34 > Base 2 <= Base 3 Base*2 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 35 > Base 2 <= Base 3 Base*2 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 36 > Base 3 <= Base 4 Base*4 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 37 > Base 3 <= Base 4 Base*4 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 38 > Base 3 <= Base 4 Base*4 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 39 > Base 3 <= Base 4 Base*4 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 40 > Base 3 <= Base 4 Base*4 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 41 > Base 3 <= Base 4 Base*4 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 42 > Base 3 <= Base 4 Base*4 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 43 > Base 3 <= Base 4 Base*4 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 44 > Base 3 <= Base 4 Base*4 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 45 > Base 3 <= Base 4 Base*4 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 46 > Base 3 <= Base 4 Base*4 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 47 > Base 3 <= Base 4 Base*4 Current > Base 2 <= Base 4 Base*4 Current <= Base 4 0 Current 48 > Base 4 <= Base 5 Base*4 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 49 > Base 4 <= Base 5 Base*4 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 50 > Base 4 <= Base 5 Base*4 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 51 > Base 4 <= Base 5 Base*4 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 52 > Base 4 <= Base 5 Base*4 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 53 > Base 4 <= Base 5 Base*4 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 54 > Base 4 <= Base 5 Base*4 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 55 > Base 4 <= Base 5 Base*4 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 56 > Base 4 <= Base 5 Base*4 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 57 > Base 4 <= Base 5 Base*4 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 58 > Base 4 <= Base 5 Base*4 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 59 > Base 4 <= Base 5 Base*4 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 60 > Base 5 <= Base 6 Base*6 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 61 > Base 5 <= Base 6 Base*6 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 62 > Base 5 <= Base 6 Base*6 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 63 > Base 5 <= Base 6 Base*6 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 64 > Base 5 <= Base 6 Base*6 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 65 > Base 5 <= Base 6 Base*6 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 66 > Base 5 <= Base 6 Base*6 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 67 > Base 5 <= Base 6 Base*6 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 68 > Base 5 <= Base 6 Base*6 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 69 > Base 5 <= Base 6 Base*6 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 70 > Base 5 <= Base 6 Base*6 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 71 > Base 5 <= Base 6 Base*6 Current > Base 4 <= Base 6 Base*4 Current > Base 4 0 Next 72 > Base 6 <= Base 7 Base*6 Current >Base 6 0 Next > Base 4 0 Next 73 > Base 6 <= Base 7 Base*6 Current >Base 6 0 Next > Base 4 0 Next 74 > Base 6 <= Base 7 Base*6 Current >Base 6 0 Next > Base 4 0 Next 75 > Base 6 <= Base 7 Base*6 Current >Base 6 0 Next > Base 4 0 Next 76 > Base 6 <= Base 7 Base*6 Current >Base 6 0 Next > Base 4 0 Next 77 > Base 6 <= Base 7 Base*6 Current >Base 6 0 Next > Base 4 0 Next 78 > Base 6 <= Base 7 Base*6 Current >Base 6 0 Next > Base 4 0 Next 79 > Base 6 <= Base 7 Base*6 Current >Base 6 0 Next > Base 4 0 Next 80 > Base 6 <= Base 7 Base*6 Current >Base 6 0 Next > Base 4 0 Next 81 > Base 6 <= Base 7 Base*6 Current >Base 6 0 Next > Base 4 0 Next 82 > Base 6 <= Base 7 Base*6 Current >Base 6 0 Next > Base 4 0 Next 83 > Base 6 <= Base 7 Base*6 Current >Base 6 0 Next > Base 4 0 Next 84 > Base 7 0 Next >Base 6 0 Next > Base 4 0 Next 85 > Base 7 0 Next >Base 6 0 Next > Base 4 0 Next 86 > Base 7 0 Next >Base 6 0 Next > Base 4 0 Next 87 > Base 7 0 Next >Base 6 0 Next > Base 4 0 Next 88 > Base 7 0 Next >Base 6 0 Next > Base 4 0 Next 89 > Base 7 0 Next >Base 6 0 Next > Base 4 0 Next 90 > Base 7 0 Next >Base 6 0 Next > Base 4 0 Next 91 > Base 7 0 Next >Base 6 0 Next > Base 4 0 Next 92 > Base 7 0 Next >Base 6 0 Next > Base 4 0 Next 93 > Base 7 0 Next >Base 6 0 Next > Base 4 0 Next 94 > Base 7 0 Next >Base 6 0 Next > Base 4 0 Next 95 > Base 7 0 Next >Base 6 0 Next > Base 4 0 Next 96 Next 16th Note Next 16th Note Next 16th Note this code in a Function which delivers midi-input, writes on a specific STEP, a Sequencer-TIC-Offset, and a Velocity in specific Track, which means with that you have a stepsequencer with 96tic Resulution between 2 Step entrys....StepSend is the currently played step, TicSend the currently played 96th Tic which loops from 0-96 between 2 Notes //RECORD if(port == 1) { //MidiTrigger-Input (Real Drummer) if(Rec == 1) {//Record Switch Active //AutoQuantize OFF? if(AutQuntActive == 0) { Seq[note][StepSend] = velocity; // Write Velocity into current Step on Triggered Note SeqTic[note][StepSend] = TicSend;} // Write a "Time-Stemp" to realize Human Timing. (you can quantize later) //AutoQuantize ON? if(AutQuntActive == 1) {//Quantize while Recording is ON //32nd Quantize Mode if(QuantRate == 1) { //QuantRate0:16th,1:32nd, 2:64 //Write Velocity in currently played Step if(TicSend <= (BaseTic*6) ) { //12x6=72 (Tic 0-72) Seq[note][StepSend] = velocity; // Write Velocity into current sequenced Step with Triggered Note if(TicSend <= BaseTic*2) {SeqTic[note][StepSend] = 0;}//Straight 16th without delay if(TicSend > BaseTic*2 && TicSend <= BaseTic*4) {SeqTic[note][StepSend] = BaseTic*4;}//Delay 2 next 32nd Note if(TicSend > BaseTic*4 && TicSend <= BaseTic*6) {SeqTic[note][StepSend] = BaseTic*4;}}//Delay 2 previus 32nd Note else { //Write Velocity into Next note SeqTic[note][StepSend] = 0; // kick back to zero > straight machine time > no delay //Are we on Last Step of Loop? if(direction == 1) { //when in Forward Direction Sequencing Mode if(note == Last) { //when Last step is arrived Seq[First][StepSend] = velocity;} //then write Velocity in First Note of Loop if(note < Last) { //If not Last Step, then simply write in next Step: Seq[note][StepSend+1] = velocity;} //next step } if(direction == 0) { //when in Rewind Direction Sequencing Mode if(note == First) { //when First step is arrived (typical 0) Seq[Last][StepSend-1] = velocity;} //then write Velocity in Last Note of Loop (typical 16) if(note > First) { //If not First Step, then simply write in next Step: Seq[note][StepSend-1] = velocity;} //next step }} }

das schaut aus als wären die Kupferflächen raus gerissen + kleine drähte

exist a "old version" link?

upload neuer Software via MIOSStudio wird halt schiwerig(er) ;) das werd ich bei meinem Board auch gleich mal verkleben - danke für die Warnung, bei dem ganzen ein und ausstecken hatte ich schon öfters situationen wo ich mir gedacht - wass? die buchse ist noch dran, wie ich da angerissen habe.... ja am Montag 4x bei conrad in den Shop bestellt (zum hinterlegen), da hies es noch 1-2Tage Lieferzeit, bis heute keinen Anruf, und nun les ich da online 9-10 Tage... mouser eh wie du geschrieben, und Farnel verkauft nicht an den gemeinen Bürger...

force sensing resistor... He .https://hackaday.io/project/1601-diy-usb-midi-controller-mpc-style is talking about a copper Grid like this: (kicad files aviable) then a Layer ungluable "VELOSTAT" then the Physical PAD that transport the Force from Finger to Velostat.... The project looks good documented....and i could design the Triggerpads exact the size to fit well next to the BLM...without those expensive MPC PAds.

and in austria farnell only deliver to "Companys"... i will order @ conrad austria. thx

since my Steinberg PD is not working in HOST-Mode... i need some other way of sensors for my sequencer... since i programmed the sequencer in a logical "Matrix" way - it would be finde, if the triggers for the tracks are in a line to the tracks. would be nice if they are some kind of transparent to indicate drum trigger. but that is no must, the BLM Pads itself are already indicateing 3 Step Velocity (<=45 blue, >45&&<90 green, >90cyan) They must be velocity sensitive - and placed seperately (so i can choose the space between it) any idea? i know the Akai MPC replacement parts, but what i see the availables are 4x4s on a singel foil.... --- only to know > how can they be connected to a MIOS32 Core?. thx phat

i have testet the V01 Launchpad (the big old ones) they dont work with the Midibox USB-Host-Mode. (HostMode >>> No PC needet,) I dont know how it is with the new ones

Working: AKAI APC40 Stanton SCS.3D (daScrath) Not Working Novation Launchpad (Version01) steinberg CMC-PD (to bad i wanted to record drumlines...) Alesis Photon X25 (usb or ps supplied...dont matter) (setup: stm32F4 @ 5V 2A Power via J2, J17 bridged)