Hello Andy,
Thanks for Interesting recent post. Both you and I find my results with invention crossover a mystery. Earlier infinite-slope crossovers worked nearly "perfectly" (maybe just OK) inside each other's band-pass, as characteristic to "brick-wall" filters make each other's loads (the drivers in speaker system) operate completely independent from each other. There is no acoustic interference among drivers in infinite-slope systems which eliminates "sweet-spot" errors acoustically. Amplitude response is flat all over listening space, dependent only on the polar response of each driver. However phase response is another problem which in my earlier work I either ignored or tried to fix with only slightly improved results. FFT analysis showed group-delay "bumps" at crossovers over a narrow frequency range around each crossover, I left things alone as an unsolvable problem believing error was inaudible. Many nears ago in Grad School during a course in acoustics I attempted to devise an experiment to determine if we were able to hear "phase" as we hear "amplitude". It became a difficult problem; I could not even devise a methodology to formulate an experiment which would result in useful data. I got a "B" for trying! Thus I became sure that we were "deaf" to absolute phase, or phase errors in reproduced sound over speakers. I know we hear relative phase in midrange very well with out 2 ears, as God designed us.(to avoid danger, etc.) However FFT analysis on my new invention reveals clean waterfall plots and seamless amplitude and delay at crossovers! I assume without proof that accidental combination of constant-resistance with infnite-slope compensates for "bumps" at crossovers. Everyone who listens to invention describes sound as "coherent" or "all-there", etc. Everyone listening for first time immediately states that they have never heard a speaker system sounding like real music as this one! Square waves maybe??? System test reveals good square-waves well over range 150Hz to 2.5Khz, at higher frequencies the 3rd and 5th harmonics become weak and waveform degenerates into sine wave. Square waves not too pretty having ragged edges due to edge diffraction from box.
A weak hypothesis regarding loss of group-delay "bumps" is somehow due to an adjustment of "overlap" at crossover frequency which compensates for delay bumps. Maybe you have an idea in this regard! If so your name can go on patent!
RIMO.
Thanks for Interesting recent post. Both you and I find my results with invention crossover a mystery. Earlier infinite-slope crossovers worked nearly "perfectly" (maybe just OK) inside each other's band-pass, as characteristic to "brick-wall" filters make each other's loads (the drivers in speaker system) operate completely independent from each other. There is no acoustic interference among drivers in infinite-slope systems which eliminates "sweet-spot" errors acoustically. Amplitude response is flat all over listening space, dependent only on the polar response of each driver. However phase response is another problem which in my earlier work I either ignored or tried to fix with only slightly improved results. FFT analysis showed group-delay "bumps" at crossovers over a narrow frequency range around each crossover, I left things alone as an unsolvable problem believing error was inaudible. Many nears ago in Grad School during a course in acoustics I attempted to devise an experiment to determine if we were able to hear "phase" as we hear "amplitude". It became a difficult problem; I could not even devise a methodology to formulate an experiment which would result in useful data. I got a "B" for trying! Thus I became sure that we were "deaf" to absolute phase, or phase errors in reproduced sound over speakers. I know we hear relative phase in midrange very well with out 2 ears, as God designed us.(to avoid danger, etc.) However FFT analysis on my new invention reveals clean waterfall plots and seamless amplitude and delay at crossovers! I assume without proof that accidental combination of constant-resistance with infnite-slope compensates for "bumps" at crossovers. Everyone who listens to invention describes sound as "coherent" or "all-there", etc. Everyone listening for first time immediately states that they have never heard a speaker system sounding like real music as this one! Square waves maybe??? System test reveals good square-waves well over range 150Hz to 2.5Khz, at higher frequencies the 3rd and 5th harmonics become weak and waveform degenerates into sine wave. Square waves not too pretty having ragged edges due to edge diffraction from box.
A weak hypothesis regarding loss of group-delay "bumps" is somehow due to an adjustment of "overlap" at crossover frequency which compensates for delay bumps. Maybe you have an idea in this regard! If so your name can go on patent!
RIMO.