Detlof, the thing with live acoustic instruments is that all of the sound is initially reproduced in phase and then is "distorted" or "delayed" by room acoustics & reflections. A single full range driver that radiates omnidirectionally in phase follows the same basic principles of the instrument it is trying to reproduce AND falls prey to the same culprit i.e. "room reflections" in like manner. In direct comparison, a dipolar driver is already distorted in comparison since it is contributing out of phase output at the same time it is in phase. It only gets worse from there in terms of the even greater problems associated with room reflections, etc...
I wonder what a panel type speaker sounds like with the back wave effectively nulled ? I've heard of guys building carefully thought out "enclosures" onto the back of them and being VERY happy with the results. This would give you the excellent transient response associated with these designs, get rid of the out of phase contribution that the back wave produces, increase low frequency output due to the lack of cancellation, should make placement a little easier, etc...
My thoughts are that a relatively deep "D" shaped cabinet with a curvature at the top and bottom would work best for something like this. That type of a design would not have any corners to produce standing waves nor have any parralel surfaces to aid internal reflections. An open "pocket" directly behind the panel would act as air spring tensioning, maintaining the panels linearity. The walls of the cabinet would be lined with a thick layer of insulation for internal absorption purposes.
I know that Newform markets ribbons something like this ( not sure EXACTLY how they are built ), so that may be something to look into. I don't think that any of them offer enough surface area to do low frequencies though, so it somewhat defeats the purpose of what i had in mind. Then again, we would end up with a front firing design that would probably lack the dimensionality, space and air that multi-directional designs seem to offer. Oh well.... Sean
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I wonder what a panel type speaker sounds like with the back wave effectively nulled ? I've heard of guys building carefully thought out "enclosures" onto the back of them and being VERY happy with the results. This would give you the excellent transient response associated with these designs, get rid of the out of phase contribution that the back wave produces, increase low frequency output due to the lack of cancellation, should make placement a little easier, etc...
My thoughts are that a relatively deep "D" shaped cabinet with a curvature at the top and bottom would work best for something like this. That type of a design would not have any corners to produce standing waves nor have any parralel surfaces to aid internal reflections. An open "pocket" directly behind the panel would act as air spring tensioning, maintaining the panels linearity. The walls of the cabinet would be lined with a thick layer of insulation for internal absorption purposes.
I know that Newform markets ribbons something like this ( not sure EXACTLY how they are built ), so that may be something to look into. I don't think that any of them offer enough surface area to do low frequencies though, so it somewhat defeats the purpose of what i had in mind. Then again, we would end up with a front firing design that would probably lack the dimensionality, space and air that multi-directional designs seem to offer. Oh well.... Sean
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