Led Matrix: Unterschied zwischen den Versionen
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=== Medien === | === Medien === | ||
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− | == | + | == Real-time access == |
+ | |||
+ | === Raw protocol === | ||
+ | |||
72x48 = 3456 octets of pixel data followed by a terminating 0x80 octet. | 72x48 = 3456 octets of pixel data followed by a terminating 0x80 octet. | ||
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|________________________| | |________________________| | ||
</pre> | </pre> | ||
+ | |||
+ | === Using with C/C++ === | ||
+ | You can use the metalib library from here; it comes with a couple of demos: | ||
+ | |||
+ | https://whatever.metalab.at/projects/FPGAMatrix/client/ | ||
=== Using with Python === | === Using with Python === |
Version vom 16. Juni 2008, 18:17 Uhr
Medien
For the LED Matrix we want to build on the CCCamp2007 we decided to design a GNU LEDMatrix Controller/Driver setup. It will consist of two parts the FPGA board and a several driver electronics boards. Now almost one year later we're still working on it :)
see also: metalab led matrix - demo "die ewigkeit schmerzt"
Animations
Status
Everything is soldered and it works. We can stream videos via the parallel interface of the via board to the matrix with 72fps :)
- main svn: https://whatever.metalab.at/projects/FPGAMatrix/
- cliffords mplayer patch: http://svn.clifford.at/metaleds/
Usage examples
clifford/mplayer/mplayer-bin -vo metaleds:/dev/lp0 -framedrop -vf scale -zoom -x 72 -y 48 test.avi netcat -l -p 7000 > /dev/lp0
Format is: 72x48 bytes of pixeldata (ranging from 0x00 to 0x0F) followed by a single 0x80 (to flip framebuffers)
Real-time access
Raw protocol
72x48 = 3456 octets of pixel data followed by a terminating 0x80 octet.
Each pixel data octet represents one pixel's brightness, ranging from 0 (0x00, off) to 15 (0x0F, brightest).
The pixels start at the upper left corner and are numbered in row-major order (see the diagram below).
All output is double-buffered on the fpga, so you have to send a 0x80 after the pixel data to flip the frame buffers.
________________________ | 1 2 3 ... 72| |73 50 ... 144| |. | |. | |... 3456| |________________________|
Using with C/C++
You can use the metalib library from here; it comes with a couple of demos:
https://whatever.metalab.at/projects/FPGAMatrix/client/
Using with Python
You can use functions like getpixel, setpixel, submit with the python classes in https://whatever.metalab.at/projects/FPGAMatrix/python/
It supports the (now encouraged) way of using TCP. A example (Game of Life) is available.
Specs
72x48 pixels totals 3456 blue leds 54 column driver modules (current source). 1 row driver mudule (current sink)
The 8 rows are each connected to a powermosfet and are driven to ground one at a time (so the matrix is 8times multiplexed). For driving the mosfets we use two Quad-mosfetdriver which in turn are controlled by a 8bit shifting register.
For the columns we take almost the same components except that we have to source current. The mosfets can source up to 250mA but we limit it to about 20mA.
Used ICs
New MiniITX Board
VIA EPIA-M 1000G
1 Ghz 1 Gig RAM MPEG2 Decoderchipset