Thank you Ghunter. Both excellent links. The first one did help me understand it better and is well-written...the Benchmark data was a bit more 'academic content-rich' and I need to read it again with more time. I guess I've got the basics down, but mine is far from an authorative knowledge on the subject. That simple illustration of amplitude error caused by jitter in the first link says a lot. I wasn't getting that clocking information is sent with the signal via S/PDIF. I didn't see Toslink mentioned in my quick read of the first link, though they do mention S/PDIF optical...are they one and the same? Here's a passage from that first link:
My understanding is that Toslink is the least desirable of the ways to transfer digital information...would the clocking have something to do with that? If not, what is it about Toslink that is frowned upon? Seems like it would be favored being so inexpensive. Or am I just wrong there?
Marco
Remember that you can synchronise clocks in digital equipment with more than just the classic BNC cable. Both AES-EBU and S/PDIF (coax and optical) signals carry clock information within the audio data stream, for example, and so recorders can often be synchronised using their input signals, rather than having to use dedicated word-clock cables.
My understanding is that Toslink is the least desirable of the ways to transfer digital information...would the clocking have something to do with that? If not, what is it about Toslink that is frowned upon? Seems like it would be favored being so inexpensive. Or am I just wrong there?
Marco