ideas research movies instruments
we have been busy developing a new musical instrument for lo-fi 8bit cranky sounds. nnnnnnniiice.
all the work was done during the SGMK workshopin lenk in collaboration with c. haberer and c. stähli.
thanx also to dani reichmuth for all the help using the eagle software.
just had my first performance as a member of the diy kamikazee group.
at les digitales in la chauds-de-fonds
or listen to the sound on the namshub page soon. (go downloads diy-k...)
there is gonna be another opportunity to see our LIVE-Soldering action in zurich, walcheturm. on the 26th of september. go to ganzerplatz for more infos
We have been working on a business plan for the SGMK, Schweizerische Gesellschaft für Mechatronische Kunst. For that we went to Hagen, get a forest style ad-hoc wlan running and put together some ideas how to continue with SGMK and how to get funded.
i hope i can soon post the new wikistyle homepage, so the mechatronical art society can finally get connected, share ideas and start rocking!
Juuuhhhhuuuuuuuuu!
i won the first prize in the category of 10 seconds silent movie at the competition of the 5-10-20.ch festival.
unbelievable. I even got money for it (2500 SFr, all wasted on paying my tax bills), the original file was 14 kb and it took me 1 day to create it. thanks to the organizers! they even managed to talk about 5 minutes about the 10 seconds movie, something like the "dramaturgiescher Bogen" and stuff about visualized violence in modern media.
anyway, lets wait for next year!
just did a new instrument. its a 4093 chip with an oscillator and another one serving as LFO.
all packed together in a tupperware with a little lm386 amp and a speaker.
and it has a sequencer in and that turns it into a great noisy thingy i have never expected.
in fact i planned to create a sonator to check room Eigen-frequencies, but when i found all these noisy bits and pieces in it i wanted it myself... so felix has to wait.
Many times I asked myself how to control my simple noise-electronic-circuits by a computer. Most of these instruments are hacked toys or small circuits on which i can either switch on and off an effect or change one by the use of a potentiometer.
and it would be great to have them played by a midi-clocked software or to create fancy high speed effects on the potis/resistors, which no human fingers could ever do.
So what we need is an Digital to Potentiometer/Resistor device.
The Arduino board suits perfect for that! because it already has several Digital-to-Analog inputs and outputs and vice-versa. There is many tutorials out there, but I couldnt find what i wanted.
So how can we use the Arduino's outputs to control a resistor?
The answer is pretty simple: we can use one of the PWD analog outputs to control an LED, which is situated next to a photoresistor.
The picture shows such an example. its generally better though to put it inside a opaque casing, tape or some shrinkable wire, but to show it here i have ommited the case.
Remember to put a resistor in series with the LED to keep it alive. Of course some tuning needs to be done, by choosing the right LED/photoresistor pair . There are really bright LEDs or cheap ones and the photoresistors have different ranges and finally also the distance and the casing are crucial.
Using any software to control the Arduino PWD output we can dimm the LED and thus we can now change the resistivity of the photoresistor.
I used PureData to control the arduino outputs. and made a simple patch to oscillate the resistivity of the photoresistor.
finally i used the resistor in a very simple circuit using a CMOS chip (40106). by a resistor and a capacitor a square wafe oscillator can be built, where the resistance controls the pitch/frequency.
funded by:
KulturRaum Stadt und Kanton Schaffhausen
Migros Kuturprozent
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