0 Members and 4 Guests are viewing this topic. Read 1088625 times.
Quick question: I've got a TKD stepped attenuator. Would that work instead of a single-source pre-amp?
I imagine that the output impedance for various dac's is similar. Is that right?
I've got a few transformers. One from a tubed Cary pre-amp. Could that be used to build a Class D brand amp or should I buy one of their transformers?
A power transformer from a tubed preamp won't have anything like the voltages (or current rating) needed.
Does anyone know what the power draw of the SDS amps is or where I can find it? My amp is 12 volt, but I assume the amp draw would be the same for a/c and d/c amps .Thanks, Mike
Hi all,I've got an SDS-470 I built, being powered with a Connex SMPS800R power supply (i.e., not the standard linear power supply that Tom/Class D Audio uses).It generally works great, except, I noticed that when I turn it off, there's a "thud" or "thump" that comes out of the speakers. This happens maybe a couple seconds after the power is disconnected. I assume this is the capacitors of the PSU discharging. But I have a second, complete pre-build SDS-470 (which uses the stock linear PSU), and it doesn't do this. Note that when I turn the amp on, there is no such noise. Why would the SMPS do this but the linear PSU not? Note that I've never tried this particular SDS-470 board with a linear PSU, so I suppose it could be a problem with the amp board itself as well.Some basic web searching on this kind of issues suggests it may not be a real problem, i.e. OK for my speakers. Can anyone confirm this? Even if it's OK for my speakers, it's disconcerting to hear it.Thoughts?Thanks,Matt
Hey matt, I read the christi's reply to your query. But I could not understand it. Could you explain it for the benefit for othe forum members.
Matt: The SMPS800R output voltage will slowly decrease during power off sequence to near zero if the amplifier has an idle current draw of at least 50-100mA. If there is no load or the amplifier consume much less, is possible that the output voltage to fall then when reach about half the power supply to restart switching for brief period, increasing the output voltage with 20-30%. this happens because at power down, the capacitors which store the energy for controller and driver section, will discharge much faster than the large caps, because is much smaller, 100 uF at 25V compared with two 1000uF at 200V, and since the large caps are still charged, the small cap will be recharged in about 2-3 seconds and restart the smps for a brief period till most of the stored energy from the large caps is consumed. On board there is a circuit to prevent the power supply restart, there is a resistor divider which supply one pin of the controller ic with a divided voltage from the mains DC bus, so when this voltage drops below ~240V DC the smps will shut-down and will not restart till the power is applied again. However, to be able to work properly in every corner of the world, where the mains voltage can be substantially lower, I decided to reduce this threshold to about 200V. this means that the smps should work also with 180V AC or 90V AC voltage. If the mains supply voltage is stable, over 200V or 100V then the initial values for the divider can be used, so the smps will not restart once is turned off. On the other hand, the amplifier itself must feature an UVP and OVP protection, not only for this issue but also to prevent erroneous switching frequencies and damage due to excessive bus pumping when is supplied with too low, and too high voltages. The threshold for UVP must be not lower than 70-75% of the nominal supply voltage and the threshold for OVP must be not higher than 120-125% of the nominal supply voltage for safe and reliable operation.
