It's described here: http://www.at-horns.eu/athex.html (below the waveguides)Hi Marcel,
what is the *.asc fil, e.g., ATHEX-460-36.asc?
Sorry to hear that but I'm afraid I can't help here.Also, I get errors opening the *.step in Solidworks.
Did you try to simulate with subdomains instead of external -domain-only approach ? Your results look rather suspicious, since the adapter increases the length of the horn quite a lot, while "the cutoff frequency" of the horn is almost not reduced. It looks to me not very correct and contradicts to some of my simulations results.
That was a good remark! Here it is with an internal subdomain added.Did you try to simulate with subdomains instead of external -domain-only approach ? Your results look rather suspicious,
Later I'm going to try to reverse the interface orientation, which also has an effect sometimes. (No NUC here.)
Anyway, it seems that this kind of throat impedance actually helps to make the drivers more flat.
The directivity doesn't seem to suffer, which I explain by the conical shape of the extension - it in fact doesn't change much the wavefront at the original throat cross section.
Now think of what can be done with drivers like HF146...
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Interesting thing is that Abec3 simulates correctly in axisymmetric mode using both subdomain or external-only domain approaches (there are very minor differences). While in 3D mode only external-only approach gives incorrect acoustic loading. It seems to be some kind of bug in the Abec3 code.
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Anyway, this really seems to be a way how to extend the usable range of a driver to lower frequencies, without changing the directivity.
A regular ST260 including a generic driver model (left) and extended with a conical section (right):
Perhaps only the resonances are better damped in the real world (?).
A regular ST260 including a generic driver model (left) and extended with a conical section (right):
Perhaps only the resonances are better damped in the real world (?).
Not all drivers work out equal -
Note, that if the IR window is to short, you will get smoothed SPL frequency response at the lower frequencies side.
Hmm, I wouldn't say the difference is significant with longer windows. And it is not clear what conclusion follows from this. The trivial conclusion is that the simulations oversimplify reality a bit, although the picture is qualitatively quite plausible (perhaps some acoustic losses in the compression chamber/phase plug should be included in the simulation?)
RTA, white noise averaged, no smoothing.
My conclusion is that this is unbelievable. Considering it's a small 1" driver in a more or less constant-directivity horn.
Now I only wonder what a DFM-2544 could do.
- Definitely a good study material, obviously something must have been done right. I have no clue what it is...
And of course it would be nice to have some means of modeling this for any existing driver, by measuring its parameters first, to be able to optimize the whole thing.
My conclusion is that this is unbelievable. Considering it's a small 1" driver in a more or less constant-directivity horn.
Now I only wonder what a DFM-2544 could do.
- Definitely a good study material, obviously something must have been done right. I have no clue what it is...
And of course it would be nice to have some means of modeling this for any existing driver, by measuring its parameters first, to be able to optimize the whole thing.
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