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Horn loading and frequency [message #61225] Mon, 19 October 2009 08:16 Go to next message
Marlboro
Messages: 403
Registered: May 2009
Illuminati (1st Degree)
How do horns deal with the issue of for example, the fact that a 30hz tone is 36 feet long, and if there isn't a 36 foot distance to the mouth, in addition the gi-mundus size of the mouth, the horn isn't really horn loaded anymore and is then just a big speaker in a tiny box?

So a small folded horn doesn't appear to actually be a horn below maybe 187hz or so.

Marlboro
Re: Horn loading and frequency [message #61228 is a reply to message #61225] Mon, 19 October 2009 09:13 Go to previous messageGo to next message
Wayne Parham is currently offline  Wayne Parham
Messages: 18790
Registered: January 2001
Illuminati (33rd Degree)

That's exactly right and is why basshorns have to be large. Just as you said, if the horn is too small, it's just a direct radiator in a fancy box. Sometimes its worse than that because the standing waves that line up inside can make response very peaky.

Re: Horn loading and frequency [message #61230 is a reply to message #61228] Mon, 19 October 2009 09:45 Go to previous messageGo to next message
Marlboro
Messages: 403
Registered: May 2009
Illuminati (1st Degree)
Speaking generally, after a short search on the internet(I'm very good at searching stuff and people on the internet), I've discovered a number of people who build various configurations of small folded horns that were touted to be able to produce enormous sound. In one case, the individual was complaining bitterly that he had a small 8 inch woofer that he'd blown several copies of in a folded horn box of something like 20 x 30 x 25, trying to get it to produce the levels of sound that he expected it to do so based on the descriptions in the plans. He was telling everyone that they should not build a small folded horn and choose a nice ported model because it will produce real sound.

So then I started looking at writings on how horns work and discovered the mouth problem, and the length of the horn problem, and then the coloration of the sound problem as it travels through a long folded tube with square sides.

And I discovered this dude with advance degrees(PhD) in BOTH math and physics who having retired from the space program and decided to make horns because with his skills it should be simple, and discovered that not only was it not simple, it was almost incomprehensively difficult, and the kinds of math necessary to even approach the problems was nightmarish.

So.... I'll go back to my large ported box or my line arrays.
Which incidentally I'm having problems with the second of which, since it seems very hard to find a reasonably priced 10 inch woofer with high efficiency(for big dynamic range) and reasonable xmax, and the ones that I did find aren't conducive financially for putting together 12 of them in a line array!!

Ah..... well.

marlboro
Re: Horn loading and frequency [message #61268 is a reply to message #61230] Sun, 25 October 2009 12:10 Go to previous messageGo to next message
colinhester is currently offline  colinhester
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Registered: May 2009
Location: NE Arkansas
Illuminati (3rd Degree)
You could always try the Kleinhorn.....C

http://www.passdiy.com/pdf/KleinHorn.pdf
Re: Horn loading and frequency [message #61269 is a reply to message #61268] Sun, 25 October 2009 17:29 Go to previous messageGo to next message
Marlboro
Messages: 403
Registered: May 2009
Illuminati (1st Degree)
Yeah, Colin, I've seen that one before.

I think I stick to line arrays.

Suppose I wanted to do that. The house I'm moving into in Bar Harbor, ME, has a large garage with enough space behind it to put in a set of full straight line 36 foot horns. How big a mouth would I need to match the 36 foot length to get to a full 30hz with the horn?

It's far enough away from any neighbors to keep the police from coming, but it might scare the deer grazing in a piece of Acadia national Park across the street.

Marlboro
Re: Horn loading and frequency [message #62843 is a reply to message #61230] Sun, 23 May 2010 18:52 Go to previous messageGo to next message
Pano is currently offline  Pano
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Registered: May 2010
Chancellor
Marlboro wrote on Mon, 19 October 2009 09:45

And I discovered this dude with advance degrees(PhD) in BOTH math and physics who having retired from the space program and decided to make horns


You mean Doc Edgar, I suppose?

The laws of physics are a cruel mistress. Van Zyl does seem to have bent them a bit, tho....
Re: Horn loading and frequency [message #62863 is a reply to message #61225] Tue, 25 May 2010 19:44 Go to previous message
DMoore is currently offline  DMoore
Messages: 58
Registered: May 2009
Location: Seattle
Baron
Well, you are right about most horns having too small of a mouth area to be "optimal". But then we have to define the word "optimal". I take it to mean (as I gathered from your post) that it means a design for the best overall response (bandwidth, smoothness and efficiency) that one can achieve in the given radiating angle.

Assuming that a particular driver in a particular back chamber is capable of resonating at the desired low frequency, putting a horn on the front or rear of it will alter its performance, of course. Further assuming that the horn is front-loaded (the most efficient variety) then the individual characteristics of the horn itself determine the outcome. These characteristics can be reduced to two factors: flare rate and overall channel length.
Generally speaking, the throat channel area (cross-section) determines efficiency, the overall flare rate(s) determine the bandwidth including the low frequency cutoff (of optimum efficiency, not frequency), and the driver/back chamber combination determine the lowest usable frequencies produced. There are natural limits to these combinations, of course, but bear with me for the sake of this discussion...

Mouth-area size - there are some considerations at play - first, the nominal low frequency cutoff that the bass horn flare rate is intended to have, and THEN the size of the horn mouth (which is dependent on the channel cross-section at the throat, the overall pathway length and then on the radiating sphere [or fraction thereof] that it is intended to operate in). Needless to say, a low frequency bass horn needs a large mouth; larger than most of the so-called horn mouths out there. There are two types of undersized horn mouths that we typically see, one being a foreshortened variety (simply undersized for the Lc of the flare rate)and the other being a quarter-wave tube with an accompanying flare of some sort, sort of a resonating port with a slightly wider frequency response albeit somewhat "peaky" when compared to a full-sized horn with an optimum mouth size for its placement.

With a rear-loaded application, this is covered up somewhat by the output of the direct radiator. In the case of a front-loaded horn, it's a bad design choice because there is nothing to cover it up or otherwise fill it in.

The actual wave LENGTH of low frequencies actually has little to do with the size of a horn mouth - the PLACEMENT (or radiating angle that it operates into) is the controlling consideration and the combination of the frequency and the radiating angle then determine the proper area of the horn mouth. Even so, the area size of the mouth is typically rendered much, much smaller than the wavelength itself by the number of reflecting surfaces and the attendant reactive/resistive quality of the horn mouth and boundary cooperation provided by the placement as well as the configuration of the horn mouth itself. Mismatches of the horn mouth area and the radiating angle it is exhausting into cause reflections travelling backward into the horn itself due to impedance mismatch with the air in the listening space and make the response "peaky".

Even extremely undersized mouths produce low frequencies for this reason, just not smoothly or at full efficiency. It just won't be "good" but it will be there. The sound-wave propagates into the room even if the room is undersized compared to the wavelength and bounces around. Few of us have the space to allow a full 32 foot waveform to express itself without reflection but the low frequency energy is still in the room with us at the proper frequency. It is the level of efficient transfer of the waveform from the horn to the environment and overall smoothness provided by a properly executed horn that determines the quality (not the frequency) of the low frequencies. In other words, a horn can be quite a bit shorter than the actual wave LENGTH of the lowest frequency (Lc) going though it.

Even bad horn designs with too small of a horn mouth area produce low frequencies. Just not smoothly or "well". It is typical in the market to make things smaller to sell them - even while flying in the face of physics.

I suppose one could look at the output response of an undersized horn mouth as a "somewhat-tuned port with multiple smaller ports associated with it" giving multiply-peaked response across a wider bandwidth than a single properly-tuned port would (one high-efficiency peak at a given frequency).

Dana
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