I wonder if that command alone would work, and if not how about the other one 0000 006D 000D 0000 0010 0021 0010 0021 0010 0010 0021 0010 0021 0010 0021 0010 0021 0010 0021 0010 0021 0021 0010 0021 0010 0021 0010 0021 0010 022B eleventh line
Here is the corresponding wave form to the first line (Hi line is on, low line is off) ____ ____ ____ ________ ________ ________ ________ ________ ________ ________ ____ ____ |_______| |________| |____| |____| |____| |____| |____| |____| |____| |_________| |________| |_______ Stop bit
Lets just work with the Mode code. Putting into burst pairs we get
0000 006D 000D 0000 0010 0021 Code bit 1 0010 0021 Code bit 2 0010 0010 Code bit 3 0021 0010 Code bit 4 0021 0010 Code bit 5 0021 0010 Code bit 6 0021 0010 Code bit 7 0021 0010 Code bit 8 0021 0010 Code bit 9 0021 0021 Code bit 10 0010 0021 Code bit 11 0010 0021 Code bit 12 0010 022B Stop bit
It is an interesting patternI do not believe i have seen it before. The last burst pair is probably the stop sequence with a long off time. This gives us 12 burst pairs or probably a 12 bit code. It is not a simple PCM code since niether the on time nor the off time is constant, and it does not appear to be a phase modulated code
The color change looks as follows; 0000 006C 009C 0000 Pronto preamble 0010 0021 Code bit 1 0010 0021 Code bit 2 0010 0010 Code bit 3 changed 0010 0011 t0 0010 0010, probably a noise error 0021 0010 Code bit 4 0021 0010 Code bit 5 0021 0010 Code bit 6 0021 0010 Code bit 7 0021 0010 Code bit 8 0021 0021 Code bit 9 0010 0010 Code bit 10 0021 0021 Code bit 11 0010 0021 Code bit 12 0010 0231 stop bit
As I said, I have never seen a pattern like this so I do not know how to help you.