Dilemmas, as always -- BLH vs BVR

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Hello there,

A friend of mine was hooked by Lowther recently. I'm now helping him on the cabinet design...

As I've seen various measured data, many of the Lowthers have a rising response begins at 1kHz. Huge peaks above that, and relatively much lower SPL between 100 ~ 1kHz is commonly seen. So I think a short front horn (or WG) should be needed to help on the mid-midbass, otherwise the boosted bass by BLH might overwhelm the mid. Together with the HF peaks, it'd be an unbalanced response.

So, here they are.

The 1st version is based on PM2A. With the real measured parameters I occasionally got from the web, I ran some sims on hornresp. Finally I got a result which is satisfying -- a 'real' horn instead of a pipe with ragged response:

Data of BLH:
PM2ABLHData.jpg


SPL of BLH:
PM2ABLHSPL.jpg

(grey is at corner)

Phase of BLH:
PM2ABLHphase.jpg


Followings are for the short front horn:

Phase:
PM2AFWGPhase.jpg


SPL:
PM2AFWG.jpg


Data:
PM2AFWGData.jpg



The screen shots above are arranged in such a way that you may compare the phase with ease -- that's what I'm concerning. On the frequencies which front and back's phase are 180 degree apart, they should cancel each other out.

According to the sims, when the front and back are out of phase, the SPLs they produce are also very different. So they more or less dominate on their own range indivdually, thus there'd be no obvious cancellation, which is of course a good thing.

Bad thing is, this cab is HeeeEEEUUUUGE !! When finished, the total volume exceeds 500 Lt -- more or less like a refrigerator :dead:
 
Part- II, the BVR

So, a smaller version is needed. Here are the sims based on PM6A in a BVR, also with front loaded short horn:

BVR data:
PM6ABVRData.jpg


BVR SPL:
PM6ABVRSPL.jpg

(grey is at corner)

BVR phase:
PM6ABVRPhase.jpg


Front horn phase:
PM6AFWGPhase.jpg


Front horn SPL:
PM6AFWGSPL.jpg


Front horn data:
PM6AFWGData.jpg


As can be seen on the screen shots, at 100Hz, front and back are almost perfectly out of phase. While their SPLs are simular, so a severe dip may happen here.


I don't worry about the far more humble performance of this BVR version, and the much more reasonable size is welcome, but the midbass hole would probably a real problem.


Did I miss anything? How accurate are the sims? And the most important, how do other BVRs perform in real life?

According to the short paths of BVR (related to the real horn), midbass cancellation seem unavoidable. How do you guys resolve this?

Any comments?


PS. Sorry for the long posts and thanks for reading. :)
 
Re: Part- II, the BVR

CLS said:
Here are the sims based on PM6A in a BVR, also with front loaded short horn.

Hi CLS,

Hornresp Version 21.00 can model conical and/or exponential compound horns. The attached screenprint shows the input parameter values for your design assuming radiation into half-space, but with the oblate spheroidal waveguide approximated by a conical horn.

The Combined Response tool can be used to show the overall output from the front and rear horns.

Kind regards,

David
 

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Hi David,

Thanks a lot for your input.

I modified it somewhat (enlarge the duct and chamber to boost up more bass):
PM6ACompoundHonrw_BVRdata.jpg



And the 'thing' will look like this:
PM6ACompoundHonrw_BVRSchematic.jpg



And I got the response as:
PM6ACompoundHonrw_BVRSPL.jpg


It looks pretty good, I guess. As long as the midhigh resonance peaks are well damped.

I set the path length difference as -80cm because I plan to put the mouth of BVR to the rear of cabinet and let it faces the wall or even corner. 80cm is more or less the depth of cabinet plus some of the width.

I'll play with the models some more.

Thanks again :D
 
Thanks for the comments :)

Hi hm,

Actually I've looked into some of your designs, they are very interesting indeed.

However, when a 'horn' is largely narrowed, it's character tends to a "pipe", that is, a zig-zag response and lower efficiency.

I back-engineered an Acousta (with PM6A), and got this:
PM6A_Acoustaspl.jpg

(placed at 1/4 space -- 1 pi )

Like very many other "commercial products", the CSA's along the 'horn' are highly reduced, thus a bad looking response and lower effeciency.

Getting into such 'trouble' of making a horn, I really hope a good result and don't want such a compromise.

I also thought of helper woofer or clear 2 way. Although those are technically correct, it's still somewhat disappointing to an enthusiast of single driver fullrange speaker ( -- especially a Lowther lover, I guess). This decision is not mine, as mentioned in the very beginning -- this is for a friend.


Hi Scottmoose,

Thanks for the advice. I thoght the same. I've listened to a pair of PM4A with Oris 150 horn. I like the sound very much. Tonal balace is excellent (for my taste, a little bit warm).

Without front loaded section, Lowthers sound too thin. It grabs attentions at first but becomes fatiguing quickly.

So I'll stick to the compound design and see what can be done.
 
Hello CLS,

I'm working on a simular setup for my lowther DX3
Also simming with hornresp.
Will follow your progress with a lot of attention.
I also studied Horst's work with interrest !!
Very subttle approach!!with a "filler"driver.
But to my regrets I must admit that I'm a purist.
So I'm going for ONE driver!!
James M. explaines in his paper that there will still be a hole from 300-1000Hz after using a BLH.
BLH only works till about 300Hz ( Horst says the same, I think)
So filling this hole with a front horn only seems justified!!
Question of finding the right balance between front and back.
Beauhorn uses this principle, and reading about Beauhorn, they seem to be "warm"sounding ; exactly what I'm looking for.

I found some round conical pieces that I would like to use as a fronthorn.
I will post a pic later this day.

Great to get some advice from the man with the hands : Horst, and the great Scott as well, this will be a stunning topic!!
 
Planning on using this as a conical front horn.
size diam. large : 35 cm
diam. small : 15 cm.
length : 20 cm.
I will need a front box as well, calculated 0,5 liter.
Or I will have to trim the small diam. till ~18 cm , lenght resulting in 16 cm.
My mini bamboe Ikea speaker, with a foster 085 for size comparing.
 

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From my own very limited experiences, hornresp is quite accurate. The results of the real things are very close to the simulations. (And I remember reading many other's similar comments. ) So I inevitably use it for planning.

If I've already done many trial and errors and had my own 'database', then I'd be more confident. But I have not, so now I choose to trust the simulations. OTOH, my friend trusts me blindly, it's almost a bet for him. I'll give him the drawing and he'll pay for the carpentry and drivers. I'm not quite sure what he will finally get....
 
For higher efficiency, I go for horn eventually and ended up with something like the attached drawing. (And it is now built by a professional capenter... )

According to the sims by hornresp, the combined responses changed significantly with the path length variations. So I placed the horn mouth to the sides of cabinet and expected this can provide a multiple differences thus averaging out the irregulations of response.

Hope it'll come out all right.
 

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