Once the board is removed the reverse engineering can begin. The pin-out is quite simple;
1. 5 Volts
2. Ground
3. Seven common Anode lines (5 volts to light up)
4. Seven common Anode lines (5 volts to light up)
5. Seven common Anode lines (5 volts to light up)
6. Seven common Anode lines (5 volts to light up)
7. Seven common Anode lines (5 volts to light up)
8. Seven common Anode lines (5 volts to light up)
9. Seven common Anode lines (5 volts to light up)
10. Ground
11. Data
12. Clock
These same 12 lines are available at both ends of the sign. I broke a couple of runs when removing the logic board. Maybe un-soldering it would have been a better idea?
My objective is to make a very simple straingtforward interface to run the sign from a PC. Perhaps use the PC's serial port directly, a 8051, a Basic Stamp or some other simple common controller.
Here is some of my old work on LED array signs;
http://sites.google.com/site/bobdavis321/led-array-projects
I have several posts on LED sign modifications.
Check this one out for more on the Silent Radio Modifications:
https://bobdavis321.blogspot.com/2013/05/silent-radio-led-sign-to-arduino.html
Here is part three on Silent Radio signs:
https://bobdavis321.blogspot.com/2011/05/silent-radio-led-sign-part-3.html
And here is part four:
https://bobdavis321.blogspot.com/2011/05/silent-radio-led-sign-part-3_16.html
Here is a simple column driver adapted from one of my old schematics. The problem with this setup is that you cannot turn off the columns while updating the shift registers. Perhaps another IC would work better?
This is the error message it displayed on arrival:
2 comments:
do you have a keyboard to this sign?
The wave of the future is in electronic LED signs. the web site is offering the LED signs are extraordinarily energy-efficient, brighter than neon, cool to the bit and easy to put in.
LED Sign Works
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