Copper vs Optical Fibre


Can anyone answer me (especially the equipment manufacturers) why copper connected components can have signal clarity and capacity to 32bit/768kHz, DSD 128, 256 etc, while optical fibre connections (toslink and the like) are restricted to 24bit/96, DSD over DOP, PCM if you are lucky to them up-sampled. In Australia, the National Internet being rolled out has very high up/download speeds on fibre is you can get it, and lousy speeds on copper. Why is optic fibre not used more extensively (between components and speakers if possible) as it does not suffer the maladies of copper connections?
128x128Ag insider logo xs@2xamg56
History really. In terms of analog transmission of audio, copper is good enough, and plenty easy to modulate. Fiber is relegated to digital only. 

So there's that. Next, if we are talking digital, while the USB standard evolved, the S/PDIF spec got stuck in the mud. Unlike S/PDIF, USB has asynchronous data transmission, allowing the DAC to drive the train, and not the source. Most modern DAC's include galvanic isolation, so the noise stays on one side of the connector. 

Best,

E
It offers the WORST connection and the MOST Jitter...thats why. And as you pointed out its limited in resolution and bit rate. Utility companies love them because they are light weight and 100% isolated from electrical interference.

Matt M
Hmmm....  so far so good. I can accept those explanations. If there is a (mild) expansion in self powered speakers, as per the new Dynaudio Focus 60XD, I would have thought there would have been a higher resolution on the digital side, but the copper cables to each produce a higher reproduction, according to the report. I honestly thought that optic cable would have the purist (albeit digital) transmission. It would certainly be cheaper than some of the big brand copper cables.
@amg56 You might want to check out Meridian and see what they are offering lately. They have always been at the bleeding edge of digital, powered speakers.