The Anatomy of the Acapella Violon - shocking find

For quite a while now I have been having trouble with the bass on my Acapella High Violon Suboktav 2001. With the help of a friend, we have dismantled this speaker and studied the internal construction and measured the crossover points. I am hoping that my findings will be helpful to all of you Acapella owners.

The bass problem is this: bass can not keep up with the speed of the midrange and top end. On some recordings, the bottom end becomes disconnected - you can hear music from the midrange and the top, followed by the bass response a microsecond later. Furthermore, the bass is poorly controlled and flabby. From my other Audiogon threads, you can see that I have been wondering whether the damping factor of my Cary CAD-211AE amps is sufficient to control the wild bottom end, and whether a solid state amp will cure this problem.

The current iteration of the Violon is Mk. IV. I am not sure what a "Violon 2001" is, I am guessing either Mk. I or Mk. II. Acapella's own website does not reveal any secrets, all it says is that the High version of the Violon has an additional driver inside.

Anyway, this is what we found.

PLASMA TWEETER: 4th order high pass crossover (24dB/oct) at 5000Hz. Measures very flat all the way to the limit of measuring equipment. Incidentally, Acapella marks the recommended tweeter level with a pencil mark on the tweeter volume pot. At the minimum recommended range, the tweeter comes in 12dB ABOVE the reference SPL. I had to wind the tweeter almost all the way down to get a flat response.

MIDRANGE HORN: First order high pass crossover (6dB/oct) at 450Hz, with a very gentle taper between 3dB/oct - 6dB/oct from 5000Hz and up. Goes all the way up to 10,000Hz. The shallowness of the low pass section of the band pass crossover makes me suspect that it is relying driver rolloff.

This is a surprisingly wide band of frequencies (4 1/2 octaves) to ask a horn to handle. As you know, horns are tuned to work over a fairly narrow frequency range and the response drops off at either extreme of this range. Wavelengths which are too long for the horn do not couple with the horn. Wavelengths which are too short will bounce around chaotically. That is only the theory however, because the horn measures very flat between 450Hz - 5kHz.

The integration between the tweeter and midrange horn is very good.

BASS UNIT. As advertised, there are two 10" drivers in the unit, and both appear to be SEAS drivers. The external driver is run through a passive crossover from the binding posts, with a low-pass first order crossover at 450Hz.

And now, the surprise. The internal driver is run directly from the binding post with no crossover in between. In other words, it is run full range, relying on driver rolloff only.

I can think of no advantages for a setup like this, only disadvantages.

Firstly, the drivers are wired in parallel. This will drop the impedance, making it difficult to drive them with valve amps (Acapella supposedly voice the speaker with the Einstein OTL).

Secondly, a configuration like this will result in destructive interference between the two drivers, ESPECIALLY if the crossover introduces phase problems in one of the woofers. Given the other woofer is crossover-less, any difference in phase will definitely cause interference.

Thirdly, running a woofer full range will cause cone breakup at the top, which will muddy the lower midrange (exactly what I have been hearing).

Possible solutions:
- wire both drivers to the crossover, maybe in serial configuration to increase the input impedance (Zin),
- disconnect and remove the internal driver, i.e. convert the speaker from the "High Suboktav" version to normal Violon,
- remove the passive crossover entirely and use a preamp-level crossover (active crossover).

Now, I am no speaker designer. I am just an enthusiast struggling to understand these things. But this just makes no sense to me. I am hoping that someone with more experience will be able to explain why Acapella made these design choices, and what you think of the possible solutions.

Showing 3 responses by rodman99999

Hello Amfibius: I didn't read any of the responses, so forgive me if any of this is redundant. Your first thought about connecting the woofers in series- You'd be doubling the impedence seen by the crossover and totally changing the filter frequency. If you haven't reconciled your problem: Look into finding a Dahlquist DQ-LP1 passive high-pass/active low-pass filter(usually available used on eBay or on this site). I employed one with wonderful results, bi-amping my system since 1981('til just 3 yrs ago when I sold it for it's original purchase price). You won't need any time-domain correction with your system, so the piece will be perfect for your app. It will allow you to drive your woofers with a SS amp(I use a Hafler TransNova 9505 for my subs)and enjoy the high damping factors and fast transient response attendant, and to bypass any internal crossover to the woofers. The high-pass consists of one cap(I used 2% matched polystyrenes from Michael Percy) and perhaps one resistor(use Vishay 2% bulk foil, if needed) in parallel with the input of your amp to adjust the impedence/crossover frequency. This makes it completely invisible sonically(believe me- I'm picky)! The piece is still supported by it's designers(call themselves, "Regnar" now) and a number of upgrades are available for it. I installed gold WBT RCAs at the ins and outs very easily.
Here's a bit more support for the solution I've recommended. Read this article:( There's a DQLP-1 at auction on this site right now. None on eBay. A nice thing about the piece: If for any reason you don't want it, they are VERY easy to resell.
Amfibius- I believe you misunderstood the purpose of the DQLP-1. It's not an EQ, it's a high-pass/low-pass filter that will allow you to drive your woofers with a separate amp. This will free your main amp of the burden of reproducing bass freqs, which cleans things up dramatically. It does have an EQ knob that enables the user to enhance the bass below about 40hz, if desired.