The Teenage Engineering OP-1 is a tiny, portable synthesizer loaded up with 4-track recording, a sampler, sequencers, and a quite good synthesis engine. It also fits in your pocket and looks like a calculator built in West Germany.
The process of connecting the Pi to the OP-1 is pretty simple. The Pi then synchronizes, changes the color of its character display from red to green, and becomes a web server available over WiFi where all the files can be accessed. This is the bare minimum tech required to get files into and off of the OP All you need is a bit of power and a USB connection, and all the files on the OP-1 can be backed up, transferred, or replaced without any other futzing around.
Like this? No one does. What drove adoption of the RPi was price and the support. Without the price you would not have got the support. Without the support it would not have won.
Price, release date, availability, eduction system, community support, media attention, etc. Of course having major partners to spoon feed them marketshare early on Farnell, RS components, Microcenter, Adafruit, etc.
The only other board that received even a fraction of that support was the Beaglebone, which has actually sold over a million units. Not bad. Everyone else has been going it pretty much alone. Does it really exist? Out of seven articles appearing today in my Hackaday feed, three are based on the Rasbperry Pi.
Just an observation. And the project is cute. I love Teenage Engineering. This site uses Akismet to reduce spam. Learn how your comment data is processed.
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Raspberry Pi Drum Machine
Looks beautiful and robust, but unfortunately is also surprisingly expensive…. Oh dear!! The RPi won, get over it. Teenage engineering — getting the clasp on a bra strap undone.
Leave a Reply Cancel reply.For the last 15 years or so, software synths have slowly yet surely replaced those beatboxes, drum machines, and true synthesizers.
The project is pretty far along, but the recent release of the Raspberry Pi 2 has thrown [Phil] for a loop. On one hand, the Pi 2 is much more capable than the original Pi in terms of hardware, and this lends itself to more sounds and a better GUI. On the other hand, there are millions of original Pi 1s out there that still make for exceptional synthesizers.
Well, to be fair, it is hard to comprehend the sound of a buttplug on molly outside of GarageBand. Ooh, nice.
Raspberry Pi Light Controller
Go buy random switches, pots, rotary encoders, etc… Wire them up to the Pi, and write a driver to interact with Piana. Boom, instant hardware synth. I googled Piana download, browsed various links. I see nothing. Kinda worthless. Both Pi 1 and Pi 2 are supported, the synth rendering is inherently multicore so it takes full advantage of Pi 2. Ugh, whatever?
This great work was written about 10 years ago. It would fit on a floppy. Lotsa knobs and sliders. Sampling is not synthesis. Not wave and definitely not phrases. That was on a first-gen mb pi, though. You might well be able to on the pi 2. That is a bit like saying that you could buy a private helicopter and fly to the shops instead of taking a 10 minute walk.
Buting a private helicopter is far more expensive and complex then walking to the shops. Old news but still interesting. The magic word however is latency: does it allow live playing without noticeable delay?
Which is cheaper than RPi. Of course to make a synth one needs some special chips, but who woudln,t want to make a stereo synth with 8 SIDs? Hello you lot.Did you ever go out and realised you left some of the lights on at home? Then this is project is something for you!
This light controller lets you control your lights through your smartphone or computer. Did you use this instructable in your classroom? Add a Teacher Note to share how you incorporated it into your lesson. If you have to buy everything your total cost will be around euros, this may be less or more. I used 2 batteries in the electric circuit but this should be replaced with the 12V power supply I wasn't able to find it on Fritzing.
I started out with drawing a plan of the house with the dimensions it should have to make sure everything would be alright. To start with the electric circuit you should start with wiring the cable connectors and the relay card.
For the cable connector it is pretty straight forward, at one side you connect everything with each other and the - side of the power supply like in the first picture. The 3th picture is how I placed everything in the junction box you may change this to however you like it. The first picture shows the login page, this is necessary so not everyone is able to turn your lights on and off. I used the user ' webuser ' with the password ' lightz '.
But if you click on register you can make new users if you have the register code that is displayed on the prototype you can change this in the code to whatever you like. The second picture shows the overview, the red dots mean the light is turned off. If a light is turned on you will see a green dot. The third picture shows the page to control each light individually, you can put a light on or off or you can turn all lights on or off, this feature is good if you are leaving the house and you only have to press one button to turn off all lights.
The fourth picture shows the page to setup some timers or periods to turn lights on. The first option allows you to select a light and give it a time to turn on the light and a time to turn it off again without you doing anything. The second option allows you to turn on a light a given time and turn off when that time is over. All the code for this project can be found on my Github. I was thinking of something similar, not with lights, but with computers. So you could see if a computer is turned on or not and being able to switch them on of off.
Reply 2 years ago. Introduction: Raspberry Pi Light Controller. By mathieubonte My site Follow. This is a prototype to represent a house to show how it would work. This project is an assignment for school. Add Teacher Note. For more information about where I bought my materials check out the Bill Of Materials.
You should be able to setup the MySQL database with the picture above. After I had all the dimensions I started cutting the pieces needed to build the walls. On the other side each hole is used to connect the ground of the LED.This is the home of the PlayPi and FluxPi sequencers! This is the home of the PlayPi Step Sequencer. A standalone sample sequencer based around the Raspberry Pi its not a controller.
Its end goal is to be a fully function live performance real time programmable sequencer and loop trigger.
Its designed to be easy to build and customise. Originally I started the project as a engine to learn python and some real world computing, but after posting about it on raspberrypi. Hence the site!
Its based around PYO dsp, and runs in python. Features, upcoming and current. Real time programming of Loop Trigger. Real time and programmable tempo changes. Multi track sequencing Up to 4 isolated patterns running to the same tempo Play samples in reverse. Play a portion of a sample. Pyo integration for custom and supplied effects modules. Sox integration for effects,output recording and sampling. Controlled via two adafruit trellis boards.
Real time programming during playback.
Build a polyrhythmic sequencer with Raspberry Pi
Mulitiple Oscillators via preset synths. Step and non Step synths. Built in Drone synths. Launch Mulitiple synths at once, but controller one at a time. Updated: Playpi - Hardware Version 3.It was good while it lasted.
Regular readers will know that my favourite Raspberry Pi projects are often the musical ones. SamplerBox has more than voices of polyphony which sounds like way too much until you consider things like sustain pedals on pianosand can load sample sets up to 1GB. Plus, it comes in a really cute laser-cut wooden box.
Thanks Joseph! In my great-great-grandfather was an organ-builder in Liverpool Maybe with this I can start to follow in his footsteps. Back in the very dim and distant past, I used to do editorial work on a magazine called Early Music Today. This is a nice substitute for the cack-handed, I feel. I was deputy ed on few of them, and used to write for all of them — what feels like a lifetime ago! Welcome back again Liz. I think Clive did a good job in your absence. He even posted something on a Bank Holiday Monday.
Thanks for passing it onto the Blog feed.Check active directory group membership java
Thanks Steve. Bank Hol Monday was a particular joy.Bustard head gps marks
Going to open it up tomorrow to see what I can do with this to hack it to make a standalone synth. A Pi-a-Synth. I am a member of a coderdojo class and we were wondering if you could help we have purchased 4 raspberry pi latest version and we are trying to teach the children the potential of the raspberry pi and its capabilities. We were wondering if you could let us know if possible were we could acquire the latest raspberry pi educational manual so we can give the children a copy to reference weather the are at the club or for home use so they can also learn about how to set up and use the raspberry pi as our classes are free.
We are trying to help the children to learn about code and data etc so that we will have coders of the future. This is clearly a first step! Raspberry Pi Blog All blog posts. Latest posts Working from home with your Raspberry Pi. Raspberry Pi puts the heart back in mid-noughties nostalgia tech. This clock really, really doesn't want to tell you the time. Digital Making at Home: Make us laugh! Hollywood, now with added Pi.
Emoti - Visualising our Emotions. Share this post Post to Twitter Post to Facebook. Kevin Hainsworth 28th Maypm. John Young 28th Maypm.Our mission is to put the power of computing and digital making into the hands of people all over the world. More from the blog.OP-1 05-28-17 (I Need U)
Code Clubs are free, extracurricular, in-school coding clubs for young people aged 9— Discover our free face-to-face professional development programme that supports educators. A set of resources, lesson plans, and training programmes that help educators teach computing with confidence. Our whole-day technology showcase celebrating young coders, designers and digital makers around the world.
Our science and coding challenge where young people create experiments that run on the Raspberry Pi computers aboard the International Space Station. CoderDojos are free, creative coding clubs in community spaces for young people aged 7— Meetups for people interested in making things with Raspberry Pi computers. Thanks to our community of thousands of volunteers around the world, over a million young people have already learned about digital making in a fun and accessible way.
We do this so that more people are able to harness the power of computing and digital technologies for work, to solve problems that matter to them, and to express themselves creatively. Raspberry Pi 4 Your tiny, dual-display, desktop computer Find out more. Support our work Our mission is to put the power of computing and digital making into the hands of people all over the world. Working from home with your Raspberry Pi 3.
Raspberry Pi puts the heart back in mid-noughties nostalgia tech 3. This clock really, really doesn't want to tell you the time 5. Digital Making at Home: Make us laugh! Picademy Discover our free face-to-face professional development programme that supports educators. Teach Computing A set of resources, lesson plans, and training programmes that help educators teach computing with confidence. Coolest Projects Our whole-day technology showcase celebrating young coders, designers and digital makers around the world.
Astro Pi Our science and coding challenge where young people create experiments that run on the Raspberry Pi computers aboard the International Space Station. Volunteer-led clubs CoderDojo CoderDojos are free, creative coding clubs in community spaces for young people aged 7— Raspberry Jams Meetups for people interested in making things with Raspberry Pi computers.
Find a club near me. Find s more books and magazines in the Raspberry Pi Press shop. Make something with code New to Pi? Rock band Make your own musical instruments with code blocks. Happy birthday Make an online birthday card on a webpage. Our Mission Our mission is to put the power of computing and digital making into the hands of people all over the world.The sequencer has 4 polyphony and allows the user to store and cue up 6 different sequences that they can alternate between in real time, and supports the ability to change between different samples, all mappable to your controller.
I wrote the script in a way that is totally operable with really any MIDI controller and sounds. Personally I use 18 different sound banks, 16 samples each, however adding or subtracting banks and samples is super easy and requires few modifications. If you have any trouble shoot me an email: auscarpenter gmail.Audi a3 wiring diagrams
Did you use this instructable in your classroom? Add a Teacher Note to share how you incorporated it into your lesson.
However, Mido throws some complications as Mido itself requires a few dependancies. The other modules can be installed normally. Within the main Python Script there exists an array called noteList that is comprised of 16 integers line Every midi controller is different though, so unless you also have an Akai LPD8 you'll most likely need to alter these values to match your device.
The Github repo also includes another script called " midihelp. All it does is print the input values from the first MIDI controller the computer recognizes to the console. All you'll have to do is replace these values in the array if they differ from the ones included in noteList.
The order to the notes also correlates to which sound effect per folder is played, so keep that in mind as well. Sample kits within the script are stored via folders in the same directory, set up exactly how the kit is within the GitHub file. This way I can have all sorts of different sample sets stored within folders that are easily organized and replaced. The only thing to change in the script itself is the variable foldNum which just tells the script how many folders of samples there are.
Currently the script has foldNum set to one because there is only one subfolder in the same directory the kit. The maximum folders the script can handle at the moment is 18, which is how many I am using, however it's fairly trivial to alter this, let me know if you need help.
The names of the folders don't really matter as long as they are all different as the Script just reads the amount of folders in the same directory and grabs the paths that way. The names of the files themselves is important though, more on that in the next step. Sounds are loaded into the sampler via folders in the same directory containing.
See the included folder for an example of this. EVERY subfolder with samples should look identical to one another. I did this in part so that every single MIDI controller could be set up easily to work with the script, and also so I could easy extend or limit the sample and input number, as well as organize the files and the script so the kick drum sounds, for instance, would always be saved as 0.
I've chosen 16 values somewhat arbitrarily to correspond to the 16 inputs on my controller, so if you would prefer to make a sequencer with only 1 sample, or with many more, all you would have to do is number the audio files accordingly and subtract or add the numbers stored within the noteList array to match.
If the included kit works properly but you have trouble with your own samples the solution would most likely be to alter the sample rate of the files to match PyGame's 22,khz sample rate and bit depth of You can do this in Audacity or any other Audio editing software.
They should work perfectly from there! Ok there is a lot of stuff going on within the sequencer, more than I initially had in mind, so I crammed quite a bit onto a Number Pad to match the increased functionality. As it happened, I had pretty much everything I needed close at hand.Bua ka pyar
Thanks for a fun morning at our house. Also, you might mention this seems to only work on Python 3 default on my distro was v2. Introduction: Raspberry Pi Drum Machine. By AustinC Follow.
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