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Old 23rd May 2016, 03:58 PM   #1
teunos is offline teunos  Netherlands
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Default Line Array Waveguide Design

delete post, nobody seems to read it anyways.

Last edited by teunos; 4th June 2016 at 06:24 PM.
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Old 23rd May 2016, 04:37 PM   #2
teunos is offline teunos  Netherlands
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Default Line Array Waveguide Design

Can i reserve this post?
Will upload more pictures when home.
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Old 23rd May 2016, 05:10 PM   #3
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The post is there, but no pictures are present.

Suggest adding them via the feature when you use "advanced" for attachments, not inline... an upload rather than a link to an external site.

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Old 24th May 2016, 02:49 PM   #4
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What you have there is a diffraction horn method, essentially the same as the Altec Mantaray design.

The horn that follows that throat design is a critical aspect, more so when in the nearfield than the far field. FYI.

The internal portion differs, and may or may not present issues - probably mostly at higher frequencies, but that is just a speculation.

Suggest reviewing what has been done to create "line arrays" for PA/SR work over the past several decades and how the HF sections are handled. These design issues have been tackled before, so no point in re-inventing something?

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Old 24th May 2016, 02:57 PM   #5
bwaslo is offline bwaslo  United States
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Or maybe take a shot at a Danley Paraline type combiner?
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Old 24th May 2016, 04:59 PM   #6
teunos is offline teunos  Netherlands
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Maybe i should have added, i will post more as i go on.
The project already advanced much further than the first post. The first post is copied from Speakerplans.com, but since the feedback is quite low, i thought i would expand it here for more feedback.

The Mantaray horn is a CD horn. This device uses the central plug to produce a flat wavefront. Using something like a diffraction slot of the Mantaray horn, or the JBL biradial devices would not work, since it would produce a spherical wavefront in the vertical plane, with an angle equal to the horn angle.

The goal for this device is to produce a wavefront that in vertical direction is CD, but at an angle that is much smaller than the wall angle in vertical direction.

The next section is also copied from speakerplans.

Simulation
Okay so now, before i spend something like 150 euros on ABS plastic, i want to know how it will perform.
Fortunately, i am a student and can use Comsol.
So it has a Cad import function that directly imports the geometry from the .prt file in NX.


I then used some inspiration from :
http://https://www.comsol.com/model/...of-a-horn-4353
to set up my model.
Okay so that took a few hours since i have also never used comsol before for acoustics (only for fluid dynamics simulations).
So after wondering why i got such weird results i took another look at the mesh which was way too big.
A computation at 20 frequencies space at 500Hz from 1kHz to 10kHz now takes about half an hour, results look reliable up to 10kHz.

Some money shots:
Click the image to open in full size.

The diffraction slot seems to work excellent at 3kHz.
Click the image to open in full size.

Also at 10kHz, yet you begin to see that it wont be 90 degrees up to 20kHz like expected.

And now in the vertical plane:
Click the image to open in full size.

I am now in the process of setting up some result derivations from these simulations to determine things like the directivity of the waveguide etc.
It looks however that at nearly all frequencies, the waveguide works a bit too well i.e. the wavefront is flat enough but the directivity in the vertical plane is uhm.... well, very small LOL

So, what do you think?
Any suggestions on how to improve, how to continue, what to change to increase vertical directivity?
I want to build in some imperfections into the waveguide to make it a bit less directional in the veritcal plane so using three waveguide above each other will actually give a continuous wavefront.
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Old 24th May 2016, 05:45 PM   #7
teunos is offline teunos  Netherlands
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So the problem is that the waveguide above will give a very reasonably flat wavefront. For the device to work properly however, the wavefront needs to have some curvature, but still less than what it would be with only the outer walls of the waveguide present, and not the inner plug.

On Speakerplans i got the suggestion to make the inner cone/plug elliptical instead of circular.
So the design was redrawn and the equation set in Matlab rechecked for constant cross area expansion along the length of the device.

Matlab:

Click the image to open in full size.

NX:
Click the image to open in full size.

working it out further
Click the image to open in full size.


Checking again to see if NX is correct with the equations.
Click the image to open in full size.

I do have some doubts about the plane i use to cut the waveguide with. Right now i simply used the minor axis angle of 21.28 degrees.
One can imagine however that once the eccentricity of the ellips becomes large and thus the minor axis angle much smaller than the major axis angle, that the pathlength differences become large as well.

I'm not sure yet what the pathlength difference will be with this implementation of the ellips if you consider the position on the slot as function of height. I cannot wrap my head around what shape it will be, if it will be an arc or something completely different.
Also cannot really think of a formula that will help me determine it. I will let the simulations provide me with the answers to see if this idea really works.


So them some time past and i ran some comsol simulations for various values of the eccentricity of the ellipse.
I tried various values of the eccentricity E between 0.4 and 0.8. Any lower values will make it almost circular and any higher and i might as well leave out the central plug.
Below a table with the values of the eccentricity E and the major and minor axis angles.
E ThetaMajor ThetaMinor
0.4 33 30.8
0.5 33 29.4
0.6 33 27.5
0.7 33 24.9
0.8 33 21.3

So i ran a lot of simulations and these are my main conclusions:
At E is about 0.4 and 0.5 i could not really see what the effect of the elliptical shape is. That might have to do with the fact that the difference in angle and therefor path length between the major and minor axis is actually still very small.
At E is 0.8 the curvature of the wavefront is too high for it to still work with 3 drivers side by side.
somewhere between 0.6 and 0.7 seems to be the optimal wavefront curvature
At higher frequencies, the wavefront curvature is the best defined. The device actually works better at these higher frequencies than at low frequencies.

At lower frequencies i can clearly see standing wave patterns in the radial direction at constant height. That means there is a running wave and thus a radial velocity component always present in the air. This leads to damping and dissipation as well as probably screwing up the impulse response at lower frequencies.


To avoid this, i might put some ribs parallel to the major and minor axis. These could then also serve as a means of suspending the inner plug to the outer wall. I will need to investigate this later.

All waveguide designs i have simulated so fart however, have shown these pressure cells that i believe are standing wave patterns. This has got to be improved upon.


Anyways; less talk more images.
The images below are all for E = 0.7 at different frequencies.
5kHz
Click the image to open in full size.

7kHz
Click the image to open in full size.

10kHz
Click the image to open in full size.

and a picture of the pressure cells/standing wave patterns at 4kHz. Note the outer sphere is totally green i.e. SPL is around 0 Pascal. This is because you are looking at the outer layer, which is a perfectly matched layer meaning it will absorb nearly all the impeding sound pressure such that there will be no reflections and we are really simulating free space but in an enclosed geometry. This is also why i provide the slice views instead of these surface plots.

Click the image to open in full size.

I also tried to change the mouth width from 25mm to 35mm but at 10kHz i can already see the results become unacceptable. 25mm looks good and it still gives me the desired area expansion factor (about 5 degrees when you translate cross sectional area of the waveguide to a conical section)
Click the image to open in full size.

So whats next?
Well, i need a faster computer for starters. The results i get at 10kHz are aceptable, but at 11kHz i can clearly see the mesh appearing and the results becoming very unphysical. To improve this, i need to shrink the mesh size, but my computer only has 8GB of ram memory and i need more to prevent comsol from giving a memory overload when its decomposing matrices.

Last edited by teunos; 24th May 2016 at 06:14 PM. Reason: double picture.
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Old 25th May 2016, 04:05 PM   #8
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Are you already using symmetry conditions and just displaying the full model? You can reduce your model to one quarter the size, if you are not, with two symmetry planes parallel to the axis of the horn.

Marc
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Old 25th May 2016, 06:02 PM   #9
teunos is offline teunos  Netherlands
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actually that might have been some of the most useful advice i have gotten so far
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Old 31st October 2016, 09:54 PM   #10
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It is sad that none of the pictures work annymore
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