I have a few basic computer questions.
1. I know a DAC is a digital to analog converter. Is it the same thing as a computer interface?
2. I have an RME Baby Face (considered a very good interface) as my home recording studio computer interface.
3. Do I still need to purchase a DAC for my audio system?
4. What is a multi bit DAC? How is it different from a DAC?
5. When do you need a multi bit DAC?
Thank you!
Just to add to what Bill said, multibit DACs is a different engineering and mathematical (the digital "filter") approach to convert digital music files to analog. The vast majority of DACs are not multibit DACs, but "delta-sigma" DACs (with all due respect to Bill, I don't think D/S DACs are "single-bit"). These DACs use an "approximation" in the "math" to convert digital bitstream into analog output signal. Companies that make multibit DACs, notably MSB, Chord, Schiit, etc, are of the general view that multibit DACs provide a more "analog than digital" musical presentation than D/S DACs.
In my personal experience, I would agree; I considerably prefer multibit DACs to D/S DACs, they sound more "analog" to me, on the whole. That does not mean I've not heard D/S DACs that I did not like; in particular, the Bricasti M1 is a very good-sounding DAC.
For a thread on Head-Fi (that is closed now); you can read this:
http://bit.ly/2McXEzi
I also found this on Linus Tech Tips:
"Our music is encoded using pulse-code modulation (PCM), which represents audio as samples of the signal amplitude. However, the vast majority of DACs these days actually perform their decoding using a pulse-density modulation (PDM) signal, using a technique called delta-sigma modulation. These kinds of DACs are commonly referred to simply as "delta-sigma" to differentiate from multibit.
The supposed problem is that delta-sigma DACs, in order to do their decoding, much discard the original PCM samples when they convert to PDM. Further, delta-sigma DACs are typically 1-5 bits, making up for the lost dynamic range with extremely high oversampling - e.g. in the MHz range.
Multibit solutions overcome these supposed drawbacks by decoding the audio signal with a true 16+ bit DAC, preserving the original PCM samples.
On top of this, Schiit has layered a proprietary closed-form, frequency- and time-domain optimized digital filter. Digital filters are necessary to perform upsampling of the audio signal, which moves aliasing distortion out of the audible band. Some typical methods for this are the minimum-phase and linear-phase filters. Some people claim that minimum phase filters are better because they avoid pre-ringing, while other prefer linear phase because they avoid phase-distortion. I'm not sure how Schiit's closed-form filter differs from linear-phase, other than it is supposed to preserve all of the original samples."
