How important is the transport when using a DAC?

Very much a function of the overall architecture. With reclocking and asynchronous DACs, the difference are definitely a lot smaller then with a traditional synchronous architecture. It is still a bit of a mystery to me why a transport would make any difference if the bits are fed into a buffer and then completely reclocked, but I guess they still do.

We are dealing with "systems" and like all systems, they are only as good as the weakest component. The answer to your question is going to require listening and comparing different components in your system. The effort should give you what you are looking for.

Newbie chip in here: normally when using standalone DAC, I would think people have a pure digital system, with some sort of transport like a computer or squeezebox to feed into the DAC to play the ripped lossless files. Alternative path would be a decent CD player with DAC built in. What the advantage of having a standalone DAC but still use CD player instead of lossless files ?

02-14-13: Edorr
Very much a function of the overall architecture. With reclocking and asynchronous DACs, the difference are definitely a lot smaller then with a traditional synchronous architecture. It is still a bit of a mystery to me why a transport would make any difference if the bits are fed into a buffer and then completely reclocked, but I guess they still do.

Good comment; good question. I suspect that one reason a transport can still make a difference if the data is completely reclocked is that digital noise associated with the low-to-high and high-to-low transitions (i.e., the risetimes and falltimes) of the signal that is received from the transport can to some degree couple past the buffer circuitry and contribute to jitter at the point where D/A conversion is performed. The coupling occurring via grounds, stray capacitances, and other possible paths through the circuitry.

The magnitude and character of that kind of effect figures to be dependent on unspecified and/or unspecifiable design characteristics of both components, and also the interconnect cable, and to not have a great deal of predictability.

Regards,
-- Al

Almarg is correct. What he is referring to is sometimes called a glitch. it can create noise modulation and time smearing that is not corrected for by resampling. Also since the signal from transport to dac is an analog signal (not digital as most people think) the cable can introduce noise that is not totally removed by reclocking
Alan