Filter capacitance-how does it relate to amplifier performance?


I have a Unison Research Due amplifier that drives my Totem Forest Signature with ease. It has 100wpc in 8ohm and 180wpc in 4ohm. It has a filter capacitance of 80,000uF

I previously had a Atoll in100 amplifier 100wpc in 8 ohm, 140wpc in 4 ohm Capacitance of 31,474 uFMoving up the Atoll line the in200 has 120wpc in 8 ohm and 200wpc in 4 ohm and filter capacitance of 62,000uF
The Atoll in300 has 150wpc in 8 ohm and 260 Epcot in 4 ohm with a filter capacitance of 81,600uF. These also had no trouble driving my speakers.

My understanding of capacitors is that they store energy. Does this mean that my Due amplifier is just as powerful  as the on paper more powerful Atoll in300?

For comparison sake with my Due amplifier I demoed a Plinius Hautonga integrated amp with 200wpc in 8 ohm and 280wpc in 4 ohm. I did not hear any appreciable difference in bass or other frequencies.

So 3 questions.

1) Is my Due amplifier much more powerful than the wpc  indicates?
2) How does filter capacitance relate to power in an amplifier?

3) Why do manufacturers rarely publish this spec? I could only find a few examples.

Thanks
128x128traceyc
If I was trying to sell you an amp, and that is what you wanted, wouldn't that be GOOD selling point?

If my product is VERY shiny, wouldn't that be what I would want to turn your eye towards?

The build quality, the noise floor, how fast, how slow, how big, how small are thing I look for. BUT I'm not a designer... The application, then quality control are KEY issues for me, from  REBUILD or repair perspective.

More is not always better, to much can be a problem too.. I've screwed around and doubled the capacitance in certain things...Power supplies in certain SS amps....
  
Tough to fire some of my contraptions up.... Fuse blowers...Room warmers. But once they are going.. LOL # 10 SC copper wire  (20 amp breaker and feed wire) fixed that.

A LOT of BASS a lot of CAP, kinda go hand in hand...

Look at my Mac valve amps... Caps aren't to big at all.. VTL, HUGE!!

Regard


My understanding of capacitors is that they store energy. Does this mean that my Due amplifier is just as powerful as the on paper more powerful Atoll in300?

For comparison sake with my Due amplifier I demoed a Plinius Hautonga integrated amp with 200wpc in 8 ohm and 280wpc in 4 ohm. I did not hear any appreciable difference in bass or other frequencies.
The ability for an amp to drive hard loads, also comes down to very much what the output stage is and how much current is availible (transistors amount if they are Bi-polar or mosfet, and yes capacitor storage amount ect ect)

If you look at old Mark Levinson ML2 monoblocks they are only 25w into 8ohm, yet can double into 4ohm (50w), double again into 2ohm (100w) and again into (1ohm 200w) This means they can drive ANYTHING to a certain volume level.

Too many of todays manufactures "under quote" their 8ohm wattage, so it looks like the 4ohm is doubling (this should be eradicated from the industry and advertising as it’s fraud!!)
That why it’s always good to read Stereophiles bench test as they expose this "under quoting" of the 8 ohm figure so the 4ohm looks much better.

Cheers George

My understanding of capacitors is that they store energy. Does this mean that my Due amplifier is just as powerful  as the on paper more powerful Atoll in300?
No. It just means that the energy storage for the output section will have less noise so less intermodulation at full power.

But one thing left out is the voltage of the power supply with all these different amps. Its important because in the formula for electron storage in a capacitor, the voltage dominates the equation


W (work) =1/2 (C xVsquared)

where C is capacitance  and V is voltage. So by raising the voltage a little, you raise the storage a lot!

BTW, its the storage in the supply that is usually what is being quoted when the manufacturer states the 'amps' it has- for example 80 amps. If we use that figure we see that its obviously not output power, since using the power formula

P=Isquared x R  (where P is power in watts, I is current in amps and R is resistance in ohms)


If we give the amp the benefit of the doubt and state a 1 ohm load, then the power is simply the current squared. No-one makes a 8400 watt amp. Into 2 ohms this would be 16,800 watts....

So a value like that is actually the current that flows for 10mS when the power supply is shorted out. Its an easier way of understanding the energy there instead of the 1st formula I showed above.

Our MA-2 amplifier has 72,000uf at 150 Volts... it can easily do that 80 amps and its a 220 watt tube amp. Capacitive values like this are there solely because the amp sounds better when they are.
OP, you ask logical enough questions. Except it doesn’t exactly work quite the way you think.

There’s two main ideas behind power supplies. The first one is the one people tend to get fixated on, power. To a certain extent this does work. Amps with big power supplies probably do tend to have better bass and slam and things you would expect to hear from a more powerful amp. I say "probably do tend" because there’s a lot more to it and no shortage of 30 watt tube amps that have more authority and control than 200 watt amps with monster power supplies. Hardly ever helps to focus too much on any one thing.

The other main reason is ripple. Not just with amps but with all components its vitally important to have a nice smooth steady supply of DC power. DC comes from running AC through rectifier diodes. These diodes don’t ever output nice smooth DC. They always have some spikes or ripple in their output. The idea is we use this ripply DC to fill the filter caps which then let out nice smooth DC. The water in a dam metaphor.

Which kinda sorta works. Problem being there are no caps that do this perfectly. This is why you see all these guys asking which caps to use to get what kind of sound in their crossovers, etc. No cap is perfect. They all have some kind of sonic signature.

Put it all together and you can see the way you’re looking at it is pretty much meaningless. First off since no caps are perfect the diodes have as much influence on the sound as the caps. Since ripple matters and ripple is minuscule compared to power then total capacitance hardly matters either. This is why you sometimes will find a tiny little high quality cap in there. The idea is the big caps provide the oomph, the tiny one smooths out the ripple.

Main thing to learn from all this: Its the sum total quality of the whole package that matters. Which you can only evaluate by listening.

The difference by the way with better caps and diodes is a deeper and much more focused image, with less grain and glare, greater resolution of subtle dynamic shadings, and a lowering of the noise floor that leads to a sense of greater power. Even though power as measured by standard measurements is the same.