Hi Jerry,
But why are they forming a pair of loops on the left and right of the dome?
I would ask you to take a close look: One 'loop' is the wire coming through from its backside "+" terminal, then looping up a little for flexibility before it plunges down next to the dome (back through the linen) and becomes the actual voice-coil winding. Its other end then emerges on the other side, loops up a little and then dives back in at the outer edge to return to the "-" solder terminal on the back.
Most modern tweeters hide their lead-in wires behind the dome's suspension, and either way is fine when well executed. I don't have a close-up photo of your tweeter to post- sorry. You can see it is a super-fine gauge wire, again for flexibility (and for low mass). In most other tweeters, the lead-in wires are far bulkier, with solder often added. But these are easier to handle, easier to assemble and thus less expensive.
One reason I've given every opportunity for you, and others, to offer your own explanations. Then I can test for them.
Sure. Please note that Shakey and I described some of what should be heard. And I have explained what is going on. Further, for you to test for them (if possible), I've described
why each common test has its own problems, and thus what should be expected as 'accurate' from each. I do publish my results of the uncommon tests on our specs pages, describing how each was performed-- tests anyone could then run given time and money, without a test chamber.
The reason I've not put up a review is because I said I'd contact you and I will.
Certainly, and thanks.
There's a great deal of experimentation supporting the model that the differences are either distortions (and "different" is treated as "better"), most commonly in tube amps; or entirely psychosomatic.
Quite true. And several amplifiers out there are extraordinarily musical compared to anything else near them in price- not super-cheap, like $1k to $3k for a new solid-state integrated or $3k+ for certain very-old Mac tube amps. All measure pretty darned good in every conventional way, FYI.
They have much in common: Simple inside. Less feedback. 'Over-rated' parts like a fairly big power supply for just 60Watts/channel. More-direct wiring instead of complex circuit boards. A more-transparent-sounding volume control and binding posts... Just solder them in and hear the difference, good or bad, right away in these simple yet overbuilt designs.
And that area is a bit of a crap shoot, which means it takes a lot of time and money to find out, but only if the designer has long experience with these simpler, overbuilt amp designs compared to all the other ways to amplify signals... and right there is why only 'several' companies make super-duper amps. And I've learned not to trust most reviewers in finding out.
Instead, I rely my ears and those of others in the industry having long experience, thus being now plenty skeptical, etc. For you, I know you can at least get correct and useful information from our retailers, which is why we don't have many.
To continue just a bit more, what everyone we know has heard from these few amps, whether tubed or solid-state, even on speakers other than ours, is MUCH less of an electronic 'sound', less 'mechanical' sound, more sway and groove to the rhythms, more 'touch' to each note or flat-out more incisiveness when the big notes come. Plain as day-- hear it in the next room- even what Shakey wrote earlier about experiencing whipcrack transients, etc, and I would add even when not sitting in the middle.
But the key word here was 'several' amps, and personally I have found most other gear is at least 'good enough', including Denon, etc. And the differences between the mass-market brands such as Denon (not meant as disparaging) are nowhere near as large as reviewers would have us believe.
The idea that we cannot measure an electrical waveform is just silly.
Agreed! And the questions are what waveforms shall one choose and why? What tests are then to be to run with those waveforms, and why? What is each procedure actually 'testing' in that design?
I have described several tests for any speakers, along with their pros and cons. Too bad none of us can get this info from amp and cable designers.
It also means that design is just a crap-shoot (which also doesn't bear out).
See my own 'crap shoot' comment above. On the other hand, since anyone can now build an amp, a speaker or cable, that's why the market is flooded with products. Fortunately, my experience is that most all well-made amps, cables, etc, are 'good enough' nowadays, and that there are many 'acceptable speakers'. Which seems to mean I agree with all of you!
(about the Peplowski CD)
I'll buy one and take a listen. I do love good recordings.
The one I recommended is a great recording, a real reference in every way, and I also expect you to flip over the musicianship of everyone on there. Wow. `Way better performances, with real emotion and talent compared to any of the audiophile discs of second-rate performers.
It's a digital crossover. There is no "high lead, low lag" from a electrical crossover unless it's deliberately added. There's nothing to break the alignment of the multiple waveforms except the difference in the drivers themselves.
Interestingly: it should be completely possible to create custom delays at every frequency at any arbitrary resolution and independent for each driver. It's merely a matter of processing power. (audio is a recent hobby... computer technology is how I make a living.)
Agreed. No doubt, in theory. But one has to not only have the crossover slopes' varying time-shifts fixed/avoided/programmed-away, but then be able to also fix the time-shift issues caused by the drivers themselves, from their cone-breakups, their moving masses and their suspensions. Those cannot easily be measured below 500Hz by an end user. Above 500Hz, they can be measured and fixed only sort-of, and only then with a decent calibration mic, flat past 20kHz, having a 1/4" capsule, which cost at least $300.
To find the dedicated DSP software which can do all of that, search Google using "digital crossover" + "constant group delay". The only one I know is the "Thuneau" brand and they admit the limitation below 500Hz. I think it is $2k for their software, which must run in a dedicated computer. Thus, I don't think Beringer or others put that sort of processing power or complex software in their affordable digital crossovers, but only offer fixed time delays, such as to move a tweeter back 3 inches, etc.
[I had asked about Jerry's hearing distortion and if knowing the cause was important, but perhaps I was not clear enough]...
Because the point of this exercise is to evaluate the proverbial mousetrap: not build a better one. In determining if I, or someone else, wants to use a speaker to make sound, the ability of that speaker to do so is far more important then how it's accomplished.
I agree. And I am suggesting the best and easiest ways to evaluate them. And I have been questioned about why time-coherence was important, since you and others asked. Which is indeed "how it's accomplished".
Yes, "the ability of that speaker to do so is far more important then how it's accomplished". My suggestion is to then not worry so much about making your own speaker measurements, since you can only make ones that reveal only a little about what you hear on music. We see this often in Stereophile's tests.
Instead, I suggest spending your time listening to certain recordings, especially some of the ones listed on our website under 'How to shop for (any) speakers'. Each one has well-recorded voices of world-class talent as great references, since we all know from birth the sound of voices. Each disc has many acoustic instruments that are easy to judge with when one knows their real sounds... The particular discs we list better not sound bad in
any way or that speaker is a waste of your time.
In general, recordings that let us most quickly evaluate speakers for tone balance, clarity and more, are from artists who always use a good studio, like Dire Straits or Diana Krall. Their voices are the anchor to 'center our minds' around. On them, it is easy to hear if a speaker makes a singer sound spitty or hard, or nasal, chesty or honky, or 'in your face', or find out if you have to sit right in the middle... or is she just 'normal' sounding? And then, most anywhere in your room? We offer 'normal' sound I think, all around the room, a word not so great for marketing.
This type of reference-listening (relying on the voice-range or middle-range first on any record) also allows us to have a midrange-reference for how the speaker's bass and treble sound (too loud/too soft/too boomy/too hissy... compared to the middle range of 'natural' sounds). And always keep in mind how loud any record was most-likely intended to be played.
I'll gladly take a speaker system made of pixie dust if it makes a good enough sound.
That would be cool, wouldn't it? Gotta be lighter than marble.
Best,
Roy
