You might already know, as your pull-up line in the D+ is already tied to the micro, but be sure not to pull it up to soon, or bam fried PCM for dinner.
I haven't had any problems yet on the breadboard, but I will keep it in mind - thanks.
You may be interested to look at the HPDAC designs here: http://www.ecpaudio.com/diy.shtml . The HPDAC 2 in particular is very similar to your design.
Great, thanks. I have a look at it!
As far as comments on your posted schematic:
- LM317 has not very good high frequency rejection, and is kind of mediocre anyway. I would both use a modern low noise regulator instead and include some kind of choke-based filter after the switcher
- Similarly I would add ferrite chokes in the power lines of the digital stuff
- +5V regulator should probably be referenced and decoupled to AGND
- I don't mind the use of the datasheet I/V converter, it will perform well if you have room for it.
- This amp is apparently somewhat unstable, read carefully the application section and follow the recommendations for decoupling, feedback components etc. and regular best practice, and minimize stray capacitance in the feedback loop
- Obviously if you plan to sell these you should care about USB spec compliance, but if this is a one off I wouldn't waste your time, it will work fine
thank you for your input. I will optimize the filtering before I go any further - probably make a pcb for the PSU and optimize it before implementing it. Also I will find replacements for the LM317s.
I have made a small breakout board for the output stage, and I haven't had any major problems with it yet, but I have read that it can be difficult to keep it stable, as you say.
I don't plan to sell it - I just thought it could be a fun project to do
I have had a play with the Sample Rate Converter (with the same aim as you - jitter reduction) but haven't really had time to get it working properly. It does have a good reputation. I would use a TCXO with as low a jitter spec as you can find.
I have it running on the breadboard, but I don't know if it's worth it or not. Haven't played with all the configuration registers yet. Currently I'm just using a 25ppm crystal oscillator as the prices go up pretty fast with better specs.
As mentioned, I don't know if I want to go with it or not.
I realise it is getting into Audiophool territory, but if you are doing the job, do it properly. Similarly, I would use separate packages for each of the op-amp pairs rather than a single 4-in-1 package.
I'm trying to make a design with fairly high specs, but I still want to keep it out of the audiophool territory. Do you really think it will have a significant impact on the performance, if I use for single opamps? I'm trying to keep the size down, so I don't know if thats even possible yet.
I wouldn't power it from USB, at least not the analogue section, it deserves better. The output amplifier is a current feedback amp, with a huge gain at wide bandwidth. This means it can tend to go into oscillation at RF frequencies, and so needs careful attention paid to the physical layout of the PCB.
I see your point, but my initial requirements was an amplifier without external psu and if I can keep it that way, I will prefer that.
I will update the design, and upload the new schematic later. I really appreciate the inputs from all of you. Thanks!
BR Jonas
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