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I have my own unsophisticated ideas of what's happening, but really I don't know. I've broken in so far Dayton, Sonicap Gen II, ClarityCap MR, and now Jupiter Beeswax and Mundorf Silver in Oil. Each one has been different. The Dayton/Sonicap Gen II combo in my monitors had a very mild break in, but it was noticeable. The ClarityCap MR's in my amp seemed to have little to no break in behaviour, it was ready to go (really like these caps!), but the Jupiter Beeswax/Mundorf SiO combo in my planars is very very much the rollercoaster experience I'd read about. Some have told me to expect 4-700 hours before final settling. What's going on here? What's the physical process?
Nobody has an explanation that will satisfy an audiophile and an engineer simultaneously.
http://sound.westhost.com/articles/capacitors.htm
Enjoy! http://sound.westhost.com/articles/capacitors.htm
Now that was an interesting/informative read.
Inform me then. <big snip> If you have a parallel circuit of resistors a proportional amount of current will travel through each resistor based on the resistance value, but the most current will travel down the lowest resistance path. It's ohm's law.
the plot thickens!
Ain't that the truth. Audiophiles (should) understand that the gear they love is designed by engineers. So why reject engineering explanations?Most excellent. --Ethan
1) First off, there is disagreement between engineers. And many on both sides have conflicts of interest, either manufacturers or industry.2) You should be asking physicists and chemists since they are more knowledgeable on the subject of molecular changes. However, listening tests in research do show sonic changes as well as changes in DA and its affects.3) Some of the same who complain on other forums have been caught falsifying data/graphs, altering a test/study to discredit it in order to push their agenda since they could not refute the measurements, and attacking competitors of friend's companies. Refer back to point 1, conflicts of interest.So what evidence would be credible to these gentlemen. Well of course none. So the string is not about science, but manipulating public opinion for other reasons. 4) There are other recent strings in the wastebin, with the same participants, using the same arguements used last week. So what is the motive to constantly start these strings? To sum up, we have those who have not performed any research yet claim to be experts, cannot even discuss the subject in the correct fields of science, and yet claim they know the science while while we are crooks.Looks like time for the waste bin JohnR.Cheers.
Over twenty years ago a good friend of mine was in the business of selling capacitors to both the OEM market and DIYers. His OEM customers were some of the major players in the tube sector of the marketplace and they desired good sounding coupling capacitors. In order to meet this demand he worked closely with the Reliable Capacitor Co. There was no magic involved in what he was doing just many sessions of trial and error testing. As a rule capacitors with lower dielectric constants sounded better. In order to lower the ESR of his metalized caps he had RelCap run the film as slow as possible during the metalization sputtering process, just short of the melting point of the plastic film. This produced the thickest layer of deposited metal possible on the film. This reduces speed at which capacitors can be produced by a fair amount and increased the cost of the caps. At the time he was paying for both the materials in the caps and the time it took on the machines to build them. In order to make a cap with more consistent winding tension and tighter wound layers the speed at which the caps were wound was also reduced which meant slower production again. For some reason when caps of equivalent values were compared the long skinny caps sounded better than the shorter larger diameter caps. Obviously the changes he had Reliable Capacitors make in their production processes were based completely on how the capacitors sounded in listening tests. I know that he made production decisions on feedback from his OEM customers but I don't know what kind of breakin time was put on them. Scotty
Check post #34 for at least one explanation. The change was less than 0.2%. A capacitor in a component will change more than that over a period of time, let alone multiple capacitors.Hope this helps.
Sorry, #34 was of no help WHAT SO EVER. This thread is about capacitors, reply #34 was about resistors.Of course component values change with use, because of changing temperature. Hopefully you know what positive and/or negative temperature coefficients are.
