This is all very good to know, and that guide about misconceptions in crossover design was very helpful. I'd actually wondered about the second point he made. Unfortunately, I don't really have much of a way to determine the response of my speakers (drivers).
The weird thing is, the way a lot of tutorials on the matter of crossovers are written...I often get the impression that I've learned a clearly defined chunk of information that is in itself useful and directly applicable. Then, as I read more, I find that's not the case, as there's seemingly always something new to be learned. Then sometimes, new information conflicts with old information and it's not always easy to know what to do.
None of this dampens my spirits on DIY audio; this has always been a passion of mine, I just haven't had a chance to really get into the serious stuff until now. In that regard, I am new to this, "this" being the craft of highly specialized circuitry.
Someday I'd like to be advanced enough to check the frequency responses of my own drivers and tailor crossovers directly to the needs of those drivers. I regret that today isn't that day, however I've gotta start somewhere.
It might help to unveil the whole scope of my project....what I have are some broken M-Audio Studio Pro 3s. The sense in which they are broken only means that a single capacitor on the main power board has bulged out and died. Surely, replacing that cap with one of equal value would return the set to their original state. However, while I was looking at the main board for the primary speaker, I noticed there must have been no less than 60 individual components on that board.
I remembered back to the DIY schematics I'd seen online and thought...between the power supply, the crossovers, and the amplifiers, there can't be more than 30 parts in total. This was the point at which I decided I wanted to take it upon myself to rip out M-Audio's circuitry and try to construct my own.
The entire speaker set only contains two circuit boards, the main board which includes both amps, a power supply, a crossover and a bass boost switch, and then the other board is the crossover for the satellite speaker.
As I recall, these speakers produced a fair amount of hissing even when they were new and I wanted to see if I could fix that. It also seemed reasonable that the power supply should at the very minimum be isolated from the amp/crossover circuits instead of crowded together like sardines.
So, at the very least, I wanted to build a different power supply for it.
Another point of interest in the design of the set was that the capacitors used don't seem special at all, they're just run-of-the-mill electrolytic capacitors, 50V....18u or 47u.....I wonder if sound quality couldn't be improved by replacing them with nicer caps with the same ratings?
The same ought to go for the resistors and coils, yes?
Essentially, what I want to know there is....are the printed values of the components isolated from their function. In other words, could someone see a crappy 50V 18u capacitor, and simply swap it out for a nicer one that was also 50V 18u?
I also wanted to shield and ground the speaker cabinets more effectively, the only part that's shielded in the entire set is the woofer of each cabinet. I wanted to put magnetic/radio shielding in there to see if that helps solve the hissing problem.
I also wanted to replace the opamps with something a bit nicer, the OPA627 is pretty far out of my price range, but I'm open to suggestions.
Thanks for all the input so far.
