Yes, spherical need as much BSC,
with spherical the baffle step frequency response behavior is gradually, see the graphs in Elliott's article
with spherical the baffle step frequency response behavior is gradually, see the graphs in Elliott's article
Yes, spherical need as much BSC,
with spherical the baffle step frequency response behavior is gradually, see the graphs in Elliott's article
Got it, thank you. Do you think it's a bad idea to test tweeter/woofer balance with ears alone? I do have a measurement microphone that I use to setup my recording studio monitors' response to my music mixing room. However, I'm not familiar with testing software, and am more used to using my ears to understand balanced audio.
Bottom line, can I tune driver balance in a 2-way enclosure without the use of testing equipment/software?
Use both, read this post of me.
Especially since you already have a measurement microphone.
Just install REW and you're ready.
Especially since you already have a measurement microphone.
Just install REW and you're ready.
Bottom line, can I tune driver balance in a 2-way enclosure without the use of testing equipment/software?
are you trying to spark an objectivist subjectivist debate with those words?
will you like it?...sure, will it be accurate or correct?...likely not.
Use both, read this post of me.
Especially since you already have a measurement microphone.
Just install REW and you're ready.
Thank you, that makes sense, it's just an illusion that I actually considered it might be easy enough. But of course it's a bit of rocket science.
5 db tweeter is ok.
First, you need to do a computer simulation with parameters and box shape
Second try the XO in real. Then measure with microphone.
Steps are easy: topology of XO try. measure with microphone , confirm by ear problems, go back to simulation to fix it.
then listen a/b if b is better if not, fix other problems of the response, if problems persists or sound worst, change topology, compare topology a/b...
XO are way more complex that they seem.
They involve delays, resonances, band-pass, band-stop, order 1 to 4, different types of frequency crossings, they affect phase, polar response, and speaker damping/under-damping/overdamping time margins etc. This is why you need computer simulation to get the best possible XO.
First, you need to do a computer simulation with parameters and box shape
Second try the XO in real. Then measure with microphone.
Steps are easy: topology of XO try. measure with microphone , confirm by ear problems, go back to simulation to fix it.
then listen a/b if b is better if not, fix other problems of the response, if problems persists or sound worst, change topology, compare topology a/b...
XO are way more complex that they seem.
They involve delays, resonances, band-pass, band-stop, order 1 to 4, different types of frequency crossings, they affect phase, polar response, and speaker damping/under-damping/overdamping time margins etc. This is why you need computer simulation to get the best possible XO.
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