0 Members and 1 Guest are viewing this topic. Read 1085121 times.
Mintzar, I do not see a R9 or 10, On my boards it seems to be 60-61
Just a few simple hints...1. Make the power supply as large as possible (big electrolytic caps especially) and as high voltage as specs allow
Picked up a loaner from fellow ACer Shadowlight. However, I think I am hearing a kind of 'ringing' on the edges of some notes, and after a while(about 30minutes) the sound bordered on the irritating...I think I am "hearing" ultrasonic ringing, the only way I can describe it is visually, like seeing a 'flare' after the flame has passed. I think I ended up a 'headache'(?) which I almost never get. So I thought, maybe I should plug it into my conditioner. And that seem to tame it some, there was less 'flaring' (though not completely gone, but reduced)and the notes had a fuller body, overall it was an improvement, smoother and more warm. But it does have a nice dynamic kick to mid bass notes, and good drive with the lower bass notes, which was my intent for this amp. After an hour and half I switched over the a Jolida102b for comparison, and yes, I didn't get that impression of mid/upper notes 'ringing/flaring'. So I do wonder if Digital amps tend to have some kind of ultrasonic ringing, which can cause piano notes or percussive instruments to sound "blaring"
So I do wonder if Digital amps tend to have some kind of ultrasonic ringing, which can cause piano notes or percussive instruments to sound "blaring"?
Are there coupling caps, or any caps in the signal path of these amps?
I am running it full range with my back up speakers, VMPS626R.
Not questioning what you heard. However, did you make any adjustments to the 626? Midrange and/or tweeter controls?Paul
A bigger power supply is ALWAYS a good thing. It will allow for more reserve power, which means larger dynamic peaks. That also means that the amplifiers themselves will be more stable, thus lower the noise. A well designed power supply will make a larger difference in a component than any other mod you will do. The power is what is used to CREATE the audio signal... better power = better audio signal. The voltage at 100v is just fine for the voltage needed by the amp boards, but the capacitance could be higher. In a perfect world you would use small capacitors, but hundreds of them to get very high level of storage capacitance. By using multiple resistors you are lowering the series resistance. That means less noise and more extension, basically. You can also replace the caps on the power supply with Nichicon Muse (anywhere from $40-$80 per 100v capacitor)... compared to the cheap caps currently on the board you'll find a very nice upgrade. The R9 and R11 resistors are SMDs on the bottom of the board near the inputs. VERY small. If you're not confident with your soldering abilities I would send it back to Tom to have him replace them.
I had that dialed in previously using RS SPL meter and pink noise. I even backed off some more on the mid panel and tweeter, didn't help...what I was hearing came from the amp...confirmed when I switched amps. (long time VMPSer here, so really familiar with all the 'knobs' )
I do have some suggestions for Shadowlight which I think would improve his build, some of which I see AmpDesigner333 has already noted. The power leads are too long and are routed past the RCA inputs, and same with the speaker leads and RCA input leads. With a different layout these connection can be 70% shorter. And of course a better grounding scheme.
Thanks Shadowlight for the opportunity.
AmpDesigner and mintzar are correct about power supplies . . . it is hard to imagine a serious argument (other than cost) against larger caps in an amplifier power supply, especially for half-bridge Class D amps. You may have to use a higher current bridge rectifier (or a slow start circuit) to keep from blowing diodes on startup, but that’s minor. Good design practice would also include bypass caps and snubbers at least on the supply output, but snubbers especially must be “tuned” to the transformer/capacitors used, and the load, which combined with cost is probably why they are not present on the “general purpose” classDaudio supply boards. It’s another opportunity for DIYers to improve an already good amp with relatively simple mods.
You think swapping out the 3300ufs w/ the 250w IR w/ 6800uf would be too much for the diodes?
Don't know. The web site says that the diodes in the "heavy duty" supply have a higher rating, but not by a lot. I'm putting 30,000 mfd on a couple of my boards, so I'll probably change the bridge "just in case". The inrush current can be quite high . . . the caps start out as a dead short, and almost the only thing limiting current is the (quite low) impedance of the transformer secondaries. The bigger the caps the longer the inrush lasts, so the question really is "how many cycles can those diodes handle 10 times (or more) their continuous rating?". 25-35 Amp bridges are cheap . . . and cheap insurance.
Hello,Any new info on the custom case that was being built for these amps?Thanks
