Wow now that is cool, I must have watched every DHO series vid on here, and these are the coolest.. Thanks for discovering this. I suspect that you saved one arb signal and then modified it in a spreadsheet?... I looked at the 50Mhz signal on a spec anal, and its surprisingly "clean", I saw no harmonics at 100 or 150 Mhz etc. I looked out to 500Mhz and saw only some close in noise at 6 Mhz away and -50db down... Nice work... Thanks, your videos are very interesting, as they depart from the usual material you can read in the manual... Great work...
Hi, is it possible to have it output a signal, connect that to a breadboard then also connect a channel to the breadboard to measure the signal. So you can use it as a signal generator and oscilloscope at the same time. E.g I don't need another oscilloscope to monitor the signal?
@@stevelevesque939 Thanks so much for sharing this. On the your github page it looks like it was clipping at +-0.312 Volt. As long as you adjust the AMP figure in the header to allow exactly for the +- peaks, it is possible to go way beyond this voltage.
Thanks for showing us how to extend the range of the generator.
Wow now that is cool, I must have watched every DHO series vid on here, and these are the coolest.. Thanks for discovering this. I suspect that you saved one arb signal and then modified it in a spreadsheet?... I looked at the 50Mhz signal on a spec anal, and its surprisingly "clean", I saw no harmonics at 100 or 150 Mhz etc. I looked out to 500Mhz and saw only some close in noise at 6 Mhz away and -50db down... Nice work... Thanks, your videos are very interesting, as they depart from the usual material you can read in the manual... Great work...
Hi, is it possible to have it output a signal, connect that to a breadboard then also connect a channel to the breadboard to measure the signal. So you can use it as a signal generator and oscilloscope at the same time. E.g I don't need another oscilloscope to monitor the signal?
yes , however the function generator is not a very powerful one. Depending on the loads you may want to buffer it with a gain of one in an op amp.
I did not see any Rigol-related files on your GitHub page. Can you please provide a link?
h t t p s : / / github.com/levesqs/Rigol924s-ARB-file remove spaces
Thanks!@@stevelevesque939
Thanks very much for these files, it saved me a lot of time trying to work out how to do it with the sparse documentation.
@@stevelevesque939 Thanks so much for sharing this. On the your github page it looks like it was clipping at +-0.312 Volt. As long as you adjust the AMP figure in the header to allow exactly for the +- peaks, it is possible to go way beyond this voltage.