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GL,> I was told that for a 4 X 20uf lineup, they would charge up faster, hence a faster response time <You were told wrong. Especially for a crossover (as opposed to bypass capacitors on a circuit board), all that matters is the total capacitance. However, all capacitors are not the same, and some types are better than others for different applications. But that's a different issue from what you asked.--Ethan
Hi all... learning about speaker crossovers. Here's my question for this time: for a capacitor need of say 80 uf, is it better to have one (1) single 80uf cap or, for that matter, 4 X 20uf + a 0.1uf, or even 30+20+20+0.1uf kind of combination? Which is better? Are there any merits for the multiple caps vs a single higher value one? I was told that for a 4 X 20uf lineup, they would charge up faster, hence a faster response time, etc. Any expert advice is appreciated.
Bypassing with smaller caps has never worked for me in the past. However, I hate to an infomercial, but the Chis VenHaus Teflon V-caps really do work as bypass caps, so I've changed my mind on this.
Quote from: audioengrBypassing with smaller caps has never worked for me in the past. However, I hate to an infomercial, but the Chis VenHaus Teflon V-caps really do work as bypass caps, so I've changed my mind on this.Steve, can you list what other types of caps you've tried that definitely did not seem effective as bypass caps?Thanks!
I would not put a whole lot of faith in capacitor comparison articles based on listening; especially when one simply installs the cap in a component.
Oh yea. We certainly wouldn't want to test AUDIO components by listening to them!">> No offense taken Jeff. In different components, some caps will sound better than others. As a simple example, a component sounding bright with a "perfect" cap installed May sound better if a "darker" sounding cap is installed to even out the tonal balance. But that "darker" sounding cap isn't better, it is just compensating for a bright sounding component. I think it would be much better to have a tonally balanced component with a tonally balanced capacitor. Below will explain more fully my point.<<"Pray tell, Steve--why not? That seems to me like saying we wouldn't want to determine which IC cable sounds best in our systems by inserting them into our systems and listening carefully.">>Agreed. Same with ICs. If tonally bright components were connected by tonally "dark" sounding ICs, the components Might sound ok. But I would rather have tonally balanced components with tonally balanced ICs.Again these are just simple examples.<<Perhaps there were flaws in his testing methodology?>> I think that is right. He was only testing the caps in one, I believe, component. How it will sound in a different component will depend on the next component's sonic signature. For example, the author gave a pretty high score to one cap, but when I tested it (awhile back) to a straight wire (which is tonally balanced), the cap was waaaaaay off, very bright sounding. That told me the authors component was way off, very dark sounding. I think that skews the results of all the capacitors tested.<<"If your objection is based on the fact that some of us make conclusions FAR too quickly and NOT carefully, I agree, but did that person commit those sins.">>Right, I think sometimes we all judge far too quickly and not carefully enough. I know I have been guilty of that. As we find component designs that sound superior to other designs, the need for sonic correction is lessened. Then I think our results with testing capacitors, or other parts, are worth more. Unfortunately, most don't have the facilities or expertise to test parts, so they have to go by others reviews. I am just saying to be careful when reading posts, articles etc.
