Thanks for the great video series on ADC ! I wonder if the mentioned ADC architectures are valid only for audio signals as the exemples are given in this range. What about ADCs used in RF Digitizers for example ? Regards
These basic topologies can be found in a variety of applications. The example of the delta-sigma ADC is for audio signals, because CD players are the best known application of these converters. For RF applications, flash converters are often used in stages because they are very fast, which is the main concern in RF ADC design.
OMG dat iz da best explanation of Delta Sigma concept i have seen so far on da internets
Thank you very much! If you are interested in more tutorial videos about electronics, we have a new channel:
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thank you for this amazing video
Wow this made it so much easier to understand! Thanks!
Thanks a lot for the great series. Loved every bit(pun intended) of it ^_^
Thank you for this ADC series, it cleared a lot of my doubts :)
Awesome! Side note: if coffee in germany costs that much, a Portuguese engineer would most certainly die there!! Cheers!
Thanks a lot for well defined explanation.
Thanks for the great video series on ADC ! I wonder if the mentioned ADC architectures are valid only for audio signals as the exemples are given in this range.
What about ADCs used in RF Digitizers for example ? Regards
These basic topologies can be found in a variety of applications. The example of the delta-sigma ADC is for audio signals, because CD players are the best known application of these converters. For RF applications, flash converters are often used in stages because they are very fast, which is the main concern in RF ADC design.
@@michaelfuchs441 I see. Thanks