On test server
Improvised mudguard
Test ride under harsh conditions
Test ride under harsh conditions
Test ride under harsh conditions
Tektronix 314 - back cover removed
Almost looks like a little car
Water level sensor
Water level sensor
Happy New Year 2010
Happy New Year 2010
Happy New Year 2010
Happy New Year 2010
Happy New Year 2200 !
Sparkfun 100k$ free day
Arduino.cc - new server load test
Dead oleander
Wanna be LIDAR
POV and scattering on water droplets. Lissajous Fi…
Inexcusable loss of intensity
Snow again...
Temperature enhanced POV using self stabilizing mu…
Tape-hacked washing machine
Stupid intelligent washing machine schematic
Pimped tail lights
Step-up converter with LT1618
Step-up converter with LT1618
XMAS time
MSOP10/TSSOP8 - DIP adapters
MSOP10/TSSOP8 - DIP adapters
MSOP10/TSSOP8 - DIP adapters
MSOP10/TSSOP8 - DIP adapter
MSOP10/TSSOP8 - DIP adapters
LT1618 on DIP adapter
Logic vs. transistor driver
Logic vs. transistor driver
Logic vs. transistor driver
Logic vs. transistor driver
schematic
SMD RGB LED - failure mode
RGB LED Ring - assembled
RGB LED Ring - assembled
RGB LED Ring - Real PCBs
RGB LED Ring - Real PCBs
RGB LED Ring - Real PCBs
RGB LED Ring - Real PCBs
Keywords
Authorizations, license
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Pimped tail lights
2x RGB LED Ring, 2x AA, 1x MAX756, 1x 1N5817, 1x 22µH 3A, 1x 220µF, 2x 47µF, 1x 100nF and lots of patience.
No test drive yet. It has snowed a lot and it feels like -20°C outside. My fingers almost fell off.
And the best thing, as usual, it works with the Arduino IDE. Just pull off the cpu modules and reprogram them as you like. A 6pin FTDI compatible header is on their backsides. There's also an ICSP header, but that can only be used once to program a bootloader. After that MOSI/MISO/SCK are used for the LEDs (whole PORTB of the chip). The backplane provides power (5V) and a common bus consisting of 2 GPIO pins and of course the I2C lines. In this case I use one line for a trivial syncing routine. The boards run with the internal oscillator and that seems to vary quite a low between these two chips. Without syncing after each run, there would be significant dephasing.
Now I should really get some mudguards. Getting a wet but is one thing, but deliberately exposing hand-made electronics to a mixture of salty, dirty and half molten snow is unheard of.
No test drive yet. It has snowed a lot and it feels like -20°C outside. My fingers almost fell off.
And the best thing, as usual, it works with the Arduino IDE. Just pull off the cpu modules and reprogram them as you like. A 6pin FTDI compatible header is on their backsides. There's also an ICSP header, but that can only be used once to program a bootloader. After that MOSI/MISO/SCK are used for the LEDs (whole PORTB of the chip). The backplane provides power (5V) and a common bus consisting of 2 GPIO pins and of course the I2C lines. In this case I use one line for a trivial syncing routine. The boards run with the internal oscillator and that seems to vary quite a low between these two chips. Without syncing after each run, there would be significant dephasing.
Now I should really get some mudguards. Getting a wet but is one thing, but deliberately exposing hand-made electronics to a mixture of salty, dirty and half molten snow is unheard of.
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