Gene – This seems like a classic case of miscommunication.
I do not advocate using non-polar electrolytic (NPE) capacitors in speaker crossovers. And I don’t believe I ever said that in this thread.
There are several practical reasons against using them; they are often made with capacitance values outside their ±10% tolerance values; their capacitance can drift over time; and now, if I understand correctly, their ESR and DF values also argue against their use. There are plenty of metalized polypropylene (MPP) caps available, at moderate cost, which appear to avoid all these issues. I see no reason not to use them in passive crossovers.
Although I never tried to make a case for using NPEs, I did point out that in a controlled listening test, no listeners could successfully distinguish speakers with any of the caps that were used in the test. It was noted after that test that using NPEs (specifically those sold at the time under the brand name Dayton) posed a problem because as many as 10 or 20 caps of the same nominal value had to be tested before a pair could be found with matching capacitance at the target value. It was cheaper and easier to buy a single pair of MPP caps. I don't recall if the ESR or DF values of any caps were considered for that test.
All the listeners at the test were amateur DIY speaker builders of varying background and speaker designing experience. There were at least 3 individuals present who were involved in designing the test who had advanced degrees, either PhD or MSEE. However, none of them were rocket scientists
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The purpose of this and other similar tests (comparing various kinds of resistors) was to try to determine if various types of capacitors or resistors could make an audible difference when used in speaker crossovers. If I recall, the cap test was repeated 3 times in different locations with different participants, all with similar results. I don’t remember details of the resistor test.
Both versions of these test ended up exploring just what is the smallest change in otherwise similar speakers that listeners can reliably hear. What is the lower limit of detection in such a test? It was recognized that we didn’t know that. If we did know, we could directly compare that to the results with the caps and resistors.
Gene & Paul – I don’t doubt what you say about the ESR and DF measurements of NPE caps. I’m not an EE so I can’t discuss the significance of those measurements with you. But I am well versed in the subject of what is and isn’t valid scientific evidence. And further, I know what kind of conclusions can be made with various kinds of evidence. If you want to claim that capacitors with certain ESR and DF metrics make poor sounding crossovers, you have to perform listening tests with them. Short of that, if you want to claim that those poor metrics make a convincing argument against ever using NPEs, I have no problem with that.
It comes down to differences in philosophy. Some people prefer “the best available” materials regardless of cost, and others want to use what is “good enough without being overkill”. Both are valid approaches.
