![]() This time we will have to drill 4 holes on the bottom cover to use M2 screws to attach both covers. But this time we will be using some brass hex M2 standoffs.Īgain use wood metal glue and attach brass standoffs on each corner to the top cover. The same technique can be used to attach top and bottom cover together. This will be visible only inside, no holes need to be drilled so nothing will be visible outside. ![]() The only thing we need to do is to use some universal (wood/metal/glass) glue to attach some M2 screws for each mounting bracket. Fortunately LCD has a mounting brackets that we can use. ![]() Next we need to attach LCD screen to the cover. I used the same technique for the bottom cover. I used drill to make a lot of small holes and then it was easier to cut rest with the saw. I want to have much work space as possible in the SunVox GUI. I’m using 7″ touch sensitive HDMI LCD panel. Next we need to cut a hole for the screen on the top lead. I cut about 2 cm from the bottom to match the original openable lead from the box, I have removed the metal hinges and clasp. Here is my choice, a Tetley wooden tea box! Why? Simple, it’s a garbage! Yes I had this empty box that I was about to throw away but I noticed that the wood is easy to work with, that means it has high wood density, not too soft not too hard, so you can cut various shapes in it like in metal.īox dimensions are almost perfect to fit LCD screen, only we need to cut on height. To do that we need a case to be able to fit LCD screen, Raspberry PI and all peripherals like sound card and MIDI interface. I want this to be full fledge SunVox standalone synth with all possible features. There is a lot of examples on YouTube how to run SunVox headless on Raspberry PI Zero. I want this to be standalone SunVox Raspberry Pi synth and be portable and independent from the computer as much as possible, let just say DAWless style or rather portable DAW? And it’s free for most of the systems, except the Android and iOS. It is a tool for those people who like to compose music wherever they are, whenever they wish. ![]() SunVox is a small, fast and powerful modular synthesizer with pattern-based sequencer ( tracker). Hey Pros! - Using Python you can make Piano HAT output regular MIDI commands via a USB to MIDI adapter and take control of your hardware synth gear.First of all if you don’t know what the hell is SunVox then here is official information from the source: We've included a MIDI example which lets you play music with Sunvox, Yoshimi and others, plus a PyGame example that includes a few octaves of glorious piano and some drums for good measure. wav samples with PyGame, or create your own Piano-controlled contraptions. Such sounds, very wow - Use with a variety of synths, both hardware and software, play. All you need is a little Python glue!ġ6 LEDs - Ever seen on one of those learn-to-play keyboards with light-up keys? Take command of the LEDs and walk yourself through your favorite tunes, or use them as a visual metronome. Instrument Cycle Button - Synth heads will be pleased to hear that it's totally possible to make this button send a patch change event to synths like Yoshimi. Octave up/octave down buttons - Expand your playing horizons with two dedicated buttons you can use to shift up or down an octave, or - you know- raise and lower the drawbridge to your fortress. Tickle-the-ivories and create a symphony of servos or a concerto of. motors.
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