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the fact is that, for trying to determine whether or not an active x-over is better than a passive x-over, using the nao & the ht3 makes the experiment 100% totally flawed on its face, from the outset. not one statement above, re: my experience, whether or not i've heard these speakers, etc., contradicts this fact.
it's poor science, plain & simple.
Quote:the fact is that, for trying to determine whether or not an active x-over is better than a passive x-over, using the nao & the ht3 makes the experiment 100% totally flawed on its face, from the outset. not one statement above, re: my experience, whether or not i've heard these speakers, etc., contradicts this fact.What you don't know, because you haven't experienced, measured or tested any of these drivers, is how they are similar or different. What you further don't know is how a dipole is similar or different than a box speaker. Your assertion about this a/b being completely flawed on its face comes from you lack of knowledge, experience, and exposure to nearly all aspects of this a/b test. If you would like to maintain your assertion given your lack of knowledge concerning these speakers, okay.
Also, I think the "v" key types a "w" on your keyboard. You consistently type the word "wariables"?
Quote:it's poor science, plain & simple.I do have some understanding of the scientific method, and do understand the flaws in the Iowa a/b test (i.e. 2 variables). However, this is the very best test that you or I know about. There are no better data points for high-end speakers in an active versus passive configuration.
Guys,Please understand that I really thought the active crossover would sound better. It "should" sound better. I almost wanted the active projects from John K to sound better. It had... more of everything. It had more drivers, more surface area, more complexity. It was a dipole! It even had an active crossover! John K's speaker should have sounded better, considerably better, than Jim Salk's Veractiy 3.My current decision NOT to implement an active crossover now is purely and simply because ...
Hey guys,Is there an extensive discussion somewhere online about bi-amping and active crossovers? I would likely to openly pose a question to the "audience" at-large.
funny you should mention this; i was yust reading this thread & was thinking about you. a coupla speaker mfr's seem to be interested in the deqx...
Things like DEQX are interesting because they allow for a x-over thathas the benefits of 1st-order, yet with much steeper slopes.DEQX can do a 300 dB/octave crossover, yet the outputs sum perfectly like a 1st-order crossover. Phase is corrected by the DSP. You can even add enough delay to compensate for the different acoustic centers of a woofer and tweeter, with the high-pass being delayed the proper amount.
It, of course, is an active crossover, so you get benefits from that. With the newer Class D amps, you can pack a lot of channels of amplification in a small package, so going active isn't as big an issue as it used to be. (I haven't heard any of these new amps, so I don't know if they're good or not. My gut instinct is that they're not, but plenty of people are very excited by them.
The primary advantage of a 1st order crossover is that both drivers (upper and lower) cover the same frequencies for an extended range. Since an instrument/voice covers a range of frequencies, a 1st order crossover provides a very broad overlap. The result is a very connected sound between the woofer and tweeter.
Any respectable passive crossover will be correct with respect to phase and amplitude.
Funny, that's normally seen as their one disadvantage. The overlap produces comb-filter effects, IM, and pronounced lobing of the directivity pattern
Speakers with 1st-order crossovers do tend to sound less like a bunch of drivers in a box, but this may also be due to other factors.
Then only 1st-order crossovers are "respectable." 2nd, 3rd, and 4th-order crossovers do horrible things to the signal, and can't properly pass a transient to save their lives. Even something as well-behaved as the Linkwitz-Riley alignment screws up the phase.
There is disagreement on how important phase "coherency" is, and none of the tests I've seen have been worthwhile. I feel it is very important, and the step function test reveals why most speakers can't pass a transient properly.
I'm not as concerned with power and frequency response, nor with distortion. (They're important, but they don't tell the whole story,
Personally, I hope to reduce reflected sound from the room. Also, if you can delay the sound enough, it will be perceived as separate from the original event and your ears can sort it out. Basically, you need a large room that isn't too "live."
Power response is a tricky one. The claim is that much of the sound a listener perceives is a blend of direct and reflected (from the room boundaries) sound. If the off-axis response of a speaker isn't flat, then the reflected sound won't be either.