Good bookshelf speakers should not be any less than comparable tower speakers

TLS Guy

TLS Guy

Audioholic Jedi
Ok, take for instance my Elac Debut 2.0 B6.2 which are a 2 way speaker with a 6-1/2" woofer and 1" tweeter crossed over at 2.2Khz.

The Flagship tower speaker of the Debut 2.0 series is the Debut 2.0 F6.2 which is a 6-1/2" driver and a 1" tweeter crossed over at 2.2Khz, then an additional two 6-1/2" woofers crossed over at 90hz. This is essentially the B6.2 bookshelf speaker with a dual 6-1/2" driver subwoofer added. LIke I said, I cross over to my subwoofer at 80Hz from my B6.2 bookshelf speakers.

Now it seems the argument is upper bass response where I have always read where soundstage and presentation was the big difference but didn't agree with.

With many other tower speakers, they use up to three 6.5" woofers where the bottom two woofers use a 2.5 way crossover that rolls them off at the lower frequencies as well.

Looking at a spinorama chart, there is no benefit in the higher bass in a tower speaker opposed to a bookshelf speaker that shows flat upper bass as well.
You are just comparing it to another dumb design, which is most speakers these days.
 
TLS Guy

TLS Guy

Audioholic Jedi
You're adding bunkum, tho. Many fundamentals are below what you mention, or you have a strange definition of fundamental? Many speakers, even floor standers, do fall short but depends on spl levels, room size, etc.

The OP's claim that a random pair of bookshelves with a sub are superior to a good pair of floorstanders, meh. Depends on particulars of speakers, subs, room size, listening levels, etc.
The fundamental of an instrument is the lowest frequency it will reproduce. Then that fundamental will have harmonics which will either be second or third order, depending on the instrument. If it is an open string or a pipe type instrument open at both ends it will have even order harmonics, if it is a pipe closed at one end it will be odd order harmonics. The intensity of the harmonics decrease in proportion to their order. So a second harmonic is less intense than the fundamental and the fourth lower intensity still and so on. For instruments that have odd order, the fifth harmonic will be lower intensity than the fundamental than the third and so on.

So, you can see that the power of a speaker really needs to concentrate its resources round the cluster of the harmonics of most instruments. This is very basic physics that I have known since I was a child. I would not have past my GCE physics exams at school if I did not know that, and a lot more about the natural order.

I have to say, I often wonder how deficient speakers designers are in their knowledge of acoustic physics. I think a lot know an awful lot less than they should.
 
M

Mike Up

Full Audioholic
Have a closer look at the compression and multitone measurements, at freq above sub range. The bookshelves compress and go nonlinear at much lower spls than the towers. Distortion is only 20db down at higher spls, while the towers are kept below -30db at the same high spls.

I'm not saying the results from sub/sat vs. towers are not ok for the right implementation, just that they are dynamic range limited, in the power band below 500hz or so. Trying to fill a large room involving greater distances will have one pushing directly against the limits of the sub/sat combo. Not "equal or better" objectively, but perhaps sufficient for smaller settings or nearfield use and yeah, less expensive than the towers.
Ok did you bother to read to the left of the graph and look at the scale? The difference from 500Hz down to 80Hz between those 2 speakers (which BTW do have different drivers) is only about .5db! Yeh, not much if anything.

Looking at another different tower speaker with different multiple 6-1/2" woofers again, and costing over $6000 is the Dali Rubikore 6. It's frequency change at 102dbs isn't much different than the $480 Elac Debut 2.0 B6.2 Bookshelf speaker.

The only thing that has been proven is that using a subwoofer is beneficial over the poor low bass output of most tower speakers and crossing over at 80Hz or above corrects any significant bass output changes at 102db, at least in my bookshelf speakers.

By the way, in my listening area, listening at 102db out of each speaker for prolonged periods will likely cause hearing damage. I found listening at 89 db to be as as loud as I would want, if not too loud to be even comfortable listening in my room. My speakers sensitivity are 87 db with 2.83V at 1meter.
 
lovinthehd

lovinthehd

Audioholic Jedi
The fundamental of an instrument is the lowest frequency it will reproduce. Then that fundamental will have harmonics which will either be second or third order, depending on the instrument. If it is an open string or a pipe type instrument open at both ends it will have even order harmonics, if it is a pipe closed at one end it will be odd order harmonics. The intensity of the harmonics decrease in proportion to their order. So a second harmonic is less intense than the fundamental and the fourth lower intensity still and so on. For instruments that have odd order, the fifth harmonic will be lower intensity than the fundamental than the third and so on.

So, you can see that the power of a speaker really needs to concentrate its resources round the cluster of the harmonics of most instruments. This is very basic physics that I have known since I was a child. I would not have past my GCE physics exams at school if I did not know that, and a lot more about the natural order.

I have to say, I often wonder how deficient speakers designers are in their knowledge of acoustic physics. I think a lot know an awful lot less than they should.
So we're on the same page with fundamental definition at least. Many speakers aren't particularly capable of fundamentals let alone their harmonics.
 

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