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Las Vegas CES
Last week I spent a day at the Las Vegas Consumer Electronics Show
and came away feeling pretty smug. I spent the morning talking to computer manufacturers regarding stuff for my business. Got that done by mid-day and had the rest of the day to play over at the Alexis Park hotel where the hi-end audio was being shown. I have to say that in an afternoon, you can only see about 1/3rd of what was there, so I did miss quite a bit. Of what I heard, there were three systems that stood out among the rest. The first was from Aurum Acoustics. http://www.aurumacoustics.com/home.html They had a very interesting and somewhat daring approach. Their flagship product is an integrated tri-amplified loudspeaker. The electronics all come on one large chassis. It contains: - Tube (6SN7) based driver and active crossover stage - Four channels of 300B driven power amplification - Two 100 watt Bryston solid state amplifier modules The 300B amp channels drove the tweeter and mid-range drivers, and the 100 watt Bryston modules drove the 12" Vifa bass drivers. The tweeter is a Seas Excell driver and the mid-range is 6" treated paper cone from B&C Components. Good imaging, good tonal balance, solid deep powerful bass. I liked the way they sounded and felt it was a real work of art. $27,000 for the full system. Next up was a Danish manufacturer, whose name I forgot. Can't pronounce it anyway. But they had their line of humoungous power amps, preamps, CD player, yadda, yadda, all driving Avalon Acoustics Eidolon loudspeakers. Like the Aurum system, it had all the things you want. It especially excelled at giving you that 3-D quality to the image. Lovely! Total system cost at about $100,000. Next up was the MBL of Germany system. http://www.mbl-germany.de/english/start.html They were playing their full reference line of equipment. Enormous mono power amps and other components to match. Cables big enough to beat a rhino to death. And some of the planet's most bizarre looking loudspeakers. Damn if they didn't sound good! Equal to either of the previous two systems mentioned above. Total tab at about $165,000. So why am I feeling smug? None of them sounded better than the Linkwitz Orion based system I have at home. My electronics are pretty pedestrian compared to the stuff I was listening to, but if you accept the possibility that all decent CD players really can sound alike, then the real difference is in the loudspeakers. http://www.linkwitzlab.com/orion_challenge.htm You can purchase a fully built set of Orion Loudspeakers, with active crossover and amplification for about $7,000 total. If you're willing to do some work, you can do it all for less. If you are a DIY guy who can roll his own 8 channel solid state amp, build the crossover (with the supplied Linkwitz PC board), and build the speaker enclosure, you could probably do the whole thing for as little as $2500. The Orions have the same 3-D imaging that the very best cost-no-object systems I heard at CES. They have a wonderful warmth and naturalness that is a real pleasure. And they have all the dynamic range and power you could ask for. I drive them with four Hafler pro-grade P1000 power amps at 50 wpc and I have yet to drive them into clipping with any material. I play symphonic works, big band jazz and even let friends play rock and roll on 'em. Plenty of head room! My preamp is a 12 year old NAD 1700 because I wanted to rack mount everything. That's also why I got the Haflers as well as for their MOSFET sound. My CD player is just a Tascam rackmounted unit. Nothing sonically special about that. Oh. And my speaker wire is 14 gague zip cord from Parts Express with standard steel lugs at the ends. The speakers have standard screw terminal strips. The best part of my front end is my Linn LP12 table on a Target wall mount. I've loved hi-end audio since before Nixon did his stupidness at Watergate. I've seen and heard a lot of great hi-end stuff over the decades. My previous system was based upon a full-range curved diaphram electrostatic loudspeaker from X-Static. I know something about good hi-end. Now I have to admit that the standard Orion has a styling I'm not crazy about. If anything it's Danish Modern. Siegfried doesn't do anything that doesn't have some sort of sonic impact, and that includes the shape of the side panels. I live in a Craftsman bunalow and wanted something that had a Mission furniture look to it, so you can see what I ended up with he http://www.button.com/family/photos/russ/orion/ Siegfried himself came over to the house and said that my modifications to his design had minimal impact on the sonics and he thought they sounded as they should. I didn't do the cabinetry myself. That was done by Jason Daniels of Oakland, CA. He's willing to take commissions for a reasonable fee. Siegfried Linkwitz has done something truly remarkable. If you go to his web site, he lists a number of people willing to let you come listen. If one of them is in your area, I recommend you take the time to pay them a visit. The very finest cost-no-object sound in hi-end audio is within reach of many more of us than you might think Russ Button |
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#2
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Russ Button wrote:
Last week I spent a day at the Las Vegas Consumer Electronics Show and came away feeling pretty smug. [snip - reviews of Aurum, MBL, & some Danish high end company] So why am I feeling smug? None of them sounded better than the Linkwitz Orion based system I have at home. That might be more a condemnation of hotel suite room acoustics than anything else! I spent a good deal of time at the EgglestonWorks suite (Andra II's), the dcs suite (where they had Verity Parsifals), the Lipinski Audio suite (L-707's) & the Naim suite down the road at the ST.Tropez T.H.E. show (where they had Harbeth Monitor 30's) ...and I came away feeling that none of them sounded *significantly* better than the Tannoy System 800's I have in my living room! Now, I'm not foolish enough to believe my $1000/pair Tannoys can go toe-to-toe with these esteemed speakers that cost 5x that. But I'll happily put my living room up against any of those hotel suites as a critical listening room. |
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#3
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Buster Mudd wrote:
Russ Button wrote: Last week I spent a day at the Las Vegas Consumer Electronics Show None of them sounded better than the Linkwitz Orion based system I have at home. That might be more a condemnation of hotel suite room acoustics than anything else! We've all heard how room acoustics are an important factor in system performance. And we can purchase room treatment gizmos such as Tube Traps and the like. I don't know how it is for everyone else, but it always seems to me that when I move into a place, you walk around and there's really only one place you can put stuff due to considerations that the rest of the family has to live there too. I can't turn my living room into a giant set of headphones totally dedicated to audio. Not and stay married I can't. I'm sure a lot of other audiophiles have similar situations. In my current room, there just isn't any place to put room acoustic treatments anyway. I've experimented with speaker placement in my room and what's optimal acoustically isn't optimal with regards to furniture and where things are. I can pull 'em out on those occaisions when I want to do some serious listening or when I have my audio buddies over, but I can't just leave 'em there. You can complain about hotel room acoustics, but really they're no worse than the rooms many, if not most of us, have to put our audio gear in. My living room is about 14' wide and 17' long. Not a tiny space but not expansive either. And given the layout, the speakers have to sit at one end and just wouldn't work anywhere else. I think a commercial loudspeaker needs to be able to sound good most anywhere you put it. Certainly you can try to be cognizant of room acoustics and do what you can, but I'd think that many, if not most, audiophiles have a limited ability to do much about the acoustics of the room they find themselves in. I remember liking the big Apogee loudspeakers years ago. But they were always shown in a very large room with plenty of space about them, and sitting at least 6 feet from the back wall. That would take up 1/3rd of my living room and just isn't practical. I spent a good deal of time at the EgglestonWorks suite (Andra II's), the dcs suite (where they had Verity Parsifals), the Lipinski Audio suite (L-707's) & the Naim suite down the road at the ST.Tropez T.H.E. show (where they had Harbeth Monitor 30's) ...and I came away feeling that none of them sounded *significantly* better than the Tannoy System 800's I have in my living room! Now, I'm not foolish enough to believe my $1000/pair Tannoys can go toe-to-toe with these esteemed speakers that cost 5x that. But I'll happily put my living room up against any of those hotel suites as a critical listening room. I wish I could have had an extra couple of days to get around to see everything. I was listening for several qualities. - tonal balance and naturalness of the mid-range - tonal balance of the low end - dynamic range and transient response - 3D imaging The material I used for listening was: "A Slow Hot Wind" from "The Voice That Is!" - Johnny Hartman Hartman's voice is very revealing of mid-range anomalies. I actually prefer "You Are Too Beautiful", from the alblum John Coltrane and Johnny Hartman, but I didn't have it with me. "That's All", from "Scott Hamilton is a Good Wind Who Is Blowing Us No Ill" This alblum is great for overall tonal balance and 3D imaging. What's even more interesting about this recording is to compare the CD version with the vinyl version. Do that once and you'll NEVER think about dumping your vinyl. But even at that, the CD sounds pretty good and is quite useful for evaluations. "Cuba Te Liama" from "Night of the Living Mambo" - Mamborama. This recording is good for dynamics and 3D imaging. "Dream of the Witches' Sabbath", movement #5 from the Symphonie Fantastique, Hector Berlioz, on the Telarc label. This is a great recording of a large symphonic work with extraordinary dynamic range, 3D imaging, and a variety of tonal colors. Buster, your Tannoys are likely quite natural sounding and musical within their limitations. But when you want to have: - good naturalness of tonal balance and timbre - full extension at both ends of the audio spectrum - and a dynamic range capable of the most extreme recordings ` - 3D imaging that lets the speakers "disappear" .....then it just gets expensive. And that's where the very inexpensive loudspeaker systems show their limitations. Given a choice, I'd opt for a natural and fair tonal balance any day. Especially on voices. I remember hearing the Rega loudspeakers a couple of years ago. They were pretty small and didn't have much low end extension or great dynamic range. But they sounded so natural on voices! Not the best loudspeaker at the show that day, but certainly were the best at the show at their price point! And that's kind of what I was getting at with my first post on the CES. The cost-no-object gear, setup correctly, can sound truly wonderful. But as good as it is, there's a much less costly alternative that matches up in every way, and that's the Linkwitz Orion system. Today while my wife was out of the house, I put on a couple of Maynard Fergusen alblums I used to listen to back in the 70's and cranked 'em up just to remember what they were like. I had 'em up far louder than I normally listen and probably far louder than anyone would want to hear them at. Didn't strain the system a bit. Full throttle power at both ends of the audio spectrum, great imaging, and they still sounded natural. You try standing 5 feet in front of a good lead trumpet player playing G above high C at double forte and tell me if you think any $1000 speaker could safely do that. The Orions can, just as could any of the three systems I wrote about earlier. It's just that you can do it for a LOT less $$$ with the Orions than you could with any of the other great systems seen at CES. Coolness. Russ |
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#4
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"
So why am I feeling smug? None of them sounded better than the Linkwitz Orion based system I have at home. My electronics are pretty pedestrian compared to the stuff I was listening to, but if you accept the possibility that all decent CD players really can sound alike, then the real difference is in the loudspeakers. http://www.linkwitzlab.com/orion_challenge.htm The Orions have the same 3-D imaging that the very best cost-no-object systems I heard at CES. They have a wonderful warmth and naturalness that is a real pleasure. You may be feeling smug and your speakers will do some weird imaging things that you may like - but they are utterly incapable of recreating the sound of a real acoustic source as it would sound if it was in the same room. (Yes I have a friend who has a pair so I know them well). They have a power response that has severe and extreme discontinuities, a midrange driver that literally rings like a bell with breakup modes well above the passband response level, bass drivers that are slow and muddy (probably due to severe hysteresis in the roll surrounds) and the mixed order crossovers alter the quality of the sound too as they are incapable of reconstructing the time domain response of the input signal even if the speakers were taken out of the equation! I am glad you enjoy your system, but that does not equate to accuracy or correctness or even my definition of high fidelity let alone high end - just because it plays some things well or sounds nice to you. John Matheson |
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#5
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"You may be feeling smug and your speakers will do some weird imaging
things that you may like - but they are utterly incapable of recreating the sound of a real acoustic source as it would sound if it was in the same room. (Yes I have a friend who has a pair so I know them well). They have a power response that has severe and extreme discontinuities, a midrange driver that literally rings like a bell with breakup modes well above the passband response level, bass drivers that are slow and muddy (probably due to severe hysteresis in the roll surrounds) and the mixed order crossovers alter the quality of the sound too as they are incapable of reconstructing the time domain response of the input signal even if the speakers were taken out of the equation! I am glad you enjoy your system, but that does not equate to accuracy or correctness or even my definition of high fidelity let alone high end - just because it plays some things well or sounds nice to you." Gosh, feeling a bit touchy are we that one need not toss 100 k or 10 k or even 2 k to get a superior system? Exactly which 100 k system did you select? How do you know those technical details about the speakers? There is technical detail on the pages of the designer which don't match your notions. Slow bass is an urban myth. But of course when it comes to speakers none can recreate the signal on the cd as heard in the recording control room without being in that control room with that gear, even your 100 k choices. One suspects that your real objection is that the more it costs the better it is school of audio is these days under sever attack, what with cd sources and amps and wire all being in the category of commodities now with little if any difference in sound, the last refuge has always been speakers and now some guy has put that into question also. |
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#6
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John Matheson wrote:
You may be feeling smug and your speakers will do some weird imaging things that you may like - but they are utterly incapable of recreating the sound of a real acoustic source as it would sound if it was in the same room. (Yes I have a friend who has a pair so I know them well). Well that's why they say this is a free country. You're free to have your own opinion and I'm free to have mine. I've made my judgements based upon what I'm listening to. They have a power response that has severe and extreme discontinuities, a midrange driver that literally rings like a bell with breakup modes well above the passband response level, bass drivers that are slow and muddy (probably due to severe hysteresis in the roll surrounds) and the mixed order crossovers alter the quality of the sound too as they are incapable of reconstructing the time domain response of the input signal even if the speakers were taken out of the equation! Hmpfff... Obviously you and Linkwitz are of different opinions. Not that this is any kind of surprise really. Audio Engineering still has a lot of art in it, as much as people would like to think that it's all scientific. If engineering were as clearly defined as we'd like to think, then there wouldn't be so many different attempts at producing hi-end audio. We'd all know what worked and what didn't. Since you think the Orions are such inaccurate loudspeakers, perhaps you'd like to share with us your own design of what an accurate loudspeaker would be? I am glad you enjoy your system, but that does not equate to accuracy or correctness or even my definition of high fidelity let alone high end - just because it plays some things well or sounds nice to you. I thought that was the criteria that we each use in making a purchase. We each listen to equipment and choose what seems to us to be what we want. I've listened to a *LOT* of gear over the years and have a pretty good idea of what sounds natural and accurate to me. And it's not just from listening to records either. I've been playing trumpet for over 40 years, in just about any kind of ensemble or group you could imagine. Everything from orchestral to brass ensemble to big band swing to Chinese funeral band. My wife is a professional violinist who plays both modern and baroque violin. She's recorded with the Philharmonia Baroque Orchesta and San Francisco Bach Soloists. I listen to her practice both instruments all the time and know what sounds like what. I think I know something about what natural sound is. So you don't like the Linkwitz Orions, and I presume you've told your friend his aren't accurate or correct either. What was his response? Is he planning to sell them now that you've told him they didn't measure up? And then one might ask why he didn't ask you first before wasting his money on them?! Russ |
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#7
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Well that's why they say this is a free country.
You're free to have your own opinion and I'm free to have mine. I've made my judgements based upon what I'm listening to. I said I was glad you liked them. Hmpfff... Obviously you and Linkwitz are of different opinions. Not that this is any kind of surprise really. Linkwitz is entititled to his opinion and to publishing it - having it and publishing it just doesn't make those opinions any righter. Audio Engineering still has a lot of art in it, as much as people would like to think that it's all scientific. If engineering were as clearly defined as we'd like to think, then there wouldn't be so many different attempts at producing hi-end audio. We'd all know what worked and what didn't. Sure there is art in audio engineering - the art of applying good engineering. Unfortunately far too many "audio engineers" know far too little to apply good engineering. Competent speaker design requires an understanding of physics, acoustics, physcoacoustics, electrical, mechnical, chemical and materials engineering to name but a few. It is way beyond the capabilities of one person to be an expert in all these fields. Simple computer models seem to encourage poor application of the "art" too. Since you think the Orions are such inaccurate loudspeakers, perhaps you'd like to share with us your own design of what an accurate loudspeaker would be? I am far too humble to think I could design an accurate loudspeaker. Floyd Toole, Sean Olive and others through the NRC in Canada and Harman International have conducted many decades of comprehesive research into what are the important charateristics for speakers and I don't think that the Orions would stack up well by the scientifically established criterion. But nor would many so call High End designs irrespective of price. I'm also a reader of the papers of David Griesinger who I feel knows close to as much as the rest of the world put together about the physcoacoustics of spacial sound reproduction and perception. His papers give a physcoacoustical basis to the empirical findings of Toole et al. I am glad you enjoy your system, but that does not equate to accuracy or correctness or even my definition of high fidelity let alone high end - just because it plays some things well or sounds nice to you. I thought that was the criteria that we each use in making a purchase. We each listen to equipment and choose what seems to us to be what we want. Of course people are free to make whatever choices they like for whatever reason. It gets up my nose (as you can no doubt tell) when someone becomes evangelistical about a personal experience. I find the notion of "like the sound of" and "don't like the sound of" in audio engineering sailing just a bit too close to the fashion industry - but I guess that is what high fidelity industry has become - fashion. I've listened to a *LOT* of gear over the years and have a pretty good idea of what sounds natural and accurate to me. And it's not just from listening to records either. I've been playing trumpet for over 40 years, in just about any kind of ensemble or group you could imagine. Everything from orchestral to brass ensemble to big band swing to Chinese funeral band. My wife is a professional violinist who plays both modern and baroque violin. She's recorded with the Philharmonia Baroque Orchesta and San Francisco Bach Soloists. I listen to her practice both instruments all the time and know what sounds like what. I think I know something about what natural sound is. Well, I have a little experience too. I have conducted research into speaker design with John Dunlavey (independently using his facilities - not as an employee); I've run a performing arts centre sound department managing a staff of up to 25 audio engineers at times; I've been involved in my local section of the Audio Engineering Society for more than 20 years and have presented many meetings on the various facets of audio engineering including speaker design criteria for "accuracy" in reproduction and blind evaluations of professional speakers which left some proponents of particular brands decidedly red faced; I've been a technical writer for a national journal in professional sound engineering; I designed quite a few professional and consumer loudspeakers; I have designed sound reinforcement systems for dozens of local and national touring musicals and opera; I've worked as a sound designer with many symphony orchestras and opera companies; and I have worked as a consulting engineer in electo-acoustics for a national acoustical consultancy. Over a couple of decades I have collected scores of letters and published reviews praising the quality of sound of my designs - many for operas - and never had a bad review published to my knowledge. I've collected about 40 reviews on just one show published in papers and journals on three continents - all praising the quality of sound (it was an opera with 80% of the audience from overseas - so I think it had a critical audience too). So I too feel I have an incling about natural sound. All of my experience has lead to believe that the human auditory experience is incredibly fickle, hence the "so many different attempts at producing hi-end audio". That and misguided beliefs and just plain financial greed. I can also claim to be part of the germination of the choice of methodology behind the recent extensive double blind evaluation of dozens of professional monitors by the BBC in London recently. This is probably the single most extensive and bias controlled evaluation of speaker "naturalness" ever undertaken anywhere. The results of that evaluation was the recommendation across the board to use an appropriate sized model of Dynaudio speakers for all monitoring applications at BBC Radio and BBC Music. I assure you that Dynaudio are a brand of speakers which do rate well against the aforementioned criteria and the outcome of the BBC's research just reinforces my opinions. By the way I am not saying that any model of Dynaudio is the "best speaker in the world" as there are far too many criteria to measure "best" by. So you don't like the Linkwitz Orions, and I presume you've told your friend his aren't accurate or correct either. What was his response? Is he planning to sell them now that you've told him they didn't measure up? And then one might ask why he didn't ask you first before wasting his money on them?! My colleague who has built the Orisons is also a member of the local Audio Engineering Society too. He gets a lot of enjoyment form playing around as an amateur engineer, but he hasn't had the benefit of the kind of experience I have had. If he had talked to me before undertaking the project, he most likely wouldn't have. But he didn't - just as I don't consult with him on everything I intend to do. To be honest I am disheartened that so much effort goes into producing such (to my ear) blatantly unrealistic results. We have had an extensive string of "tinkerengineering" speaker projects presented at AES meetings over the years. In almost every case the owner of the project thinks he is on the cusp of the next best speaker in the world. One gets a bit jaded after a while. Some of these projects have produced enchanting results on certain pieces of music if you are in the right position etc, etc. That just doesn't make them right - just pleasant to some ears under some conditions. You posted a reply to my admittedly churlish reply to your original post, but are you interested in the basis of the four claims I made about the Orions performance? I think the four claims are (relatively) easily demonstrable and irrefutable (excepting for an over-riding bias on the part of the reader - truth like beauty may be in the eye, or ear, of the beholder), but since you did not ask I have not attempted to address them here. Kind regards, John Matheson |
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#8
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Russ Button wrote:
I think a commercial loudspeaker needs to be able to sound good most anywhere you put it. Well, we can dream, can't we?  Unfortunately, we can't circumvent the laws of physics. Today while my wife was out of the house, I put on a couple of Maynard Fergusen alblums I used to listen to back in the 70's and cranked 'em up just to remember what they were like. I had 'em up far louder than I normally listen and probably far louder than anyone would want to hear them at. Didn't strain the system a bit. Full throttle power at both ends of the audio spectrum, great imaging, and they still sounded natural. You try standing 5 feet in front of a good lead trumpet player playing G above high C at double forte and tell me if you think any $1000 speaker could safely do that. Having spent the past 30 years working as a musician, and 27 of them as a professional recording engineer, I've spent enough time 5 feet from a good lead trumpet player (and even more time in front of a bad lead trumpet player!) to know that not only can't a $1000/pair of speakers reproduce that "naturally", but that neither can any speaker...including yours. Now, you want to talk about speakers that can reproduce that musical experience "convincingly" or "satisfyingly" or "accurately enough to allow the momentary suspension of disbelief", then there might be some contenders. I will certainly concede that achieving the peak SPL of the aforementioned trumpet player while simultaneously maintaining a modicum of fidelity is probably beyond the capability of most $1000/speakers. But I will also strongly opine that sheer SPL is the least difficult part of reproducing an acoustic instrument "naturally". |
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#9
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John Matheson wrote:
You may be feeling smug and your speakers will do some weird imaging things that you may like - but they are utterly incapable of recreating the sound of a real acoustic source as it would sound if it was in the same room. Gee, that sound like the basic problem with stereo itself, as was well established by some pretty smart people based on first principles some 70 years ago. They have a power response that has severe and extreme discontinuities, A property that EVERY musical instrument in existance shares to degrees FAR worse than loudspeakers do. Ever seen the frequency dependent radiation patterns or power response of a violin, a trumpet, a flute, timpani, pipe organ, piano, guitar? By your implicit criteria, they'd sound perfectly awful in a room. But they don't. If you think that a speaker with perfect power response and non-frequency dependent radiation pattern will accurately recreate the sound of a real acoustic source such as the examples above, then you need to seriously rethink your assertion. If a real acoustic source has a highly non-uniform power repsonse and radiation pattern, how will reproducing the sound of such from one or two points that have a completely different radiation pattern sound the same (hint: it won't because it can't)? I am glad you enjoy your system, but that does not equate to accuracy or correctness or even my definition of high fidelity YOUR definition of high-fidelity? Who asked you? Who cares but you? If your definition is based on wrong assumptions such as you make above, then we'd be better of not asking. because it plays some things well or sounds nice to you. And that is EXACTLY the criterion the speaker need to meet, for him. In that context, the speaker are perfect. As yours are for you. |
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#10
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Buster Mudd wrote:
I will certainly concede that achieving the peak SPL of the aforementioned trumpet player while simultaneously maintaining a modicum of fidelity is probably beyond the capability of most $1000/speakers. But I will also strongly opine that sheer SPL is the least difficult part of reproducing an acoustic instrument "naturally". Ah, Do you remember the motto of Cerwin Vega? "Loud is beautiful if it's clean." We may all go deaf, but at least it wasn't distorted while we were going deaf. Didn't they go into the automobile sound business? Russ |
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#11
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"John Matheson" wrote in message
... " So why am I feeling smug? None of them sounded better than the Linkwitz Orion based system I have at home. My electronics are pretty pedestrian compared to the stuff I was listening to, but if you accept the possibility that all decent CD players really can sound alike, then the real difference is in the loudspeakers. http://www.linkwitzlab.com/orion_challenge.htm The Orions have the same 3-D imaging that the very best cost-no-object systems I heard at CES. They have a wonderful warmth and naturalness that is a real pleasure. You may be feeling smug and your speakers will do some weird imaging things that you may like - but they are utterly incapable of recreating the sound of a real acoustic source as it would sound if it was in the same room. What speakers do you believe will do that? (Yes I have a friend who has a pair so I know them well). Did he build the cabinets or have them shipped completed? They have a power response that has severe and extreme discontinuities, a midrange driver that literally rings like a bell with breakup modes well above the passband response level, bass drivers that are slow and muddy (probably due to severe hysteresis in the roll surrounds) and the mixed order crossovers alter the quality of the sound too as they are incapable of reconstructing the time domain response of the input signal even if the speakers were taken out of the equation! Is this your opinion or do you have measured data that backs it up? I am glad you enjoy your system, but that does not equate to accuracy or correctness or even my definition of high fidelity let alone high end - just because it plays some things well or sounds nice to you. This seems like some needlessly snobby criticism, especially if it is not based on measured performance. Linkwitz has designed a truly high quality speaker that has gotten many favorable reviews. He is also highly regarded expert in the field, so if you can provide reliable measured data, I would truly love to hear about it. There is always a chance that what you heard might be the result of other factors, such as defective or abused drivers, improperly wired xover, or other builder related problems. |
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#12
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wrote in message
... John Matheson wrote: You may be feeling smug and your speakers will do some weird imaging things that you may like - but they are utterly incapable of recreating the sound of a real acoustic source as it would sound if it was in the same room. Gee, that sound like the basic problem with stereo itself, as was well established by some pretty smart people based on first principles some 70 years ago. They have a power response that has severe and extreme discontinuities, A property that EVERY musical instrument in existance shares to degrees FAR worse than loudspeakers do. Ever seen the frequency dependent radiation patterns or power response of a violin, a trumpet, a flute, timpani, pipe organ, piano, guitar? By your implicit criteria, they'd sound perfectly awful in a room. But they don't. If you think that a speaker with perfect power response and non-frequency dependent radiation pattern will accurately recreate the sound of a real acoustic source such as the examples above, then you need to seriously rethink your assertion. If a real acoustic source has a highly non-uniform power repsonse and radiation pattern, how will reproducing the sound of such from one or two points that have a completely different radiation pattern sound the same (hint: it won't because it can't)? Dick, I don't disagree with most of what you say above. But I also can't see why it contraindicates what I said either. You do seem to be implying that a loudspeaker with a severely discontinuous power response should be acceptable because all real acoustic sources are like that. I can't agree that mitigates the need for a smooth power response in a speaker intended to replay a variety of types of recorded sounds. On a slightly unrelated matter, given that: 1. noise induced hearing loss is a V-notch centred around 4kHz; 2. nearly all conventionally designed speakers have a power response hole in this region due to driver and crossover design; 3. sibilance is important to intelligibility and 4; the human auditory system integrates the first few tens of milliseconds of energy as far as speech intelligibility is concerned, it is no wonder that many older people (particularly men who tend to get more exposure to noise) have real problems understanding dialog, for example lyrics in songs or dialogue in movies, when played through real speakers in real rooms. I find supplying speakers with ones that don't suffer such a deep power response hole is a very personally rewarding occupation for me because of the very real joy it brings to so many of my clients' lives. That joy comes from the ability to hear and understand dialogue at normal speaking volumes in real rooms without strain. The same property makes music reproduction better too - all other things being equal (which I accept they never are). |
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John Matheson wrote:
wrote in message ... Dick, I don't disagree with most of what you say above. But I also can't see why it contraindicates what I said either. You do seem to be implying that a loudspeaker with a severely discontinuous power response should be acceptable because all real acoustic sources are like that. I WOULD seem to be saying that only if you did not read what I wrote. I can't agree that mitigates the need for a smooth power response in a speaker intended to replay a variety of types of recorded sounds. I never said it did. I was basically challenging YOUR assertion that a speaker without a smooth power response was incapable of reproducing the sound of a real musical instrument in that same space. Specifrically, in one VERY constrained context, you're right, but only because in the broader context, NO speaker is capable of faithfully replicating the sound of the instrument it is attempting to produce in that same space. On a slightly unrelated matter, given that: 1. noise induced hearing loss is a V-notch centred around 4kHz; 2. nearly all conventionally designed speakers have a power response hole in this region due to driver and crossover design; I would instantly challenge you to support this assertion: that "nearly all" conventionally designed speakers suffer form this problem. Having seen a LOT of conventionally designed speakers, the mere statistics of your claim are rather easy tp test. Have you, in fact, done so, or is this simply assuming this to be axiomatic without once challenging the assumption? I find supplying speakers with ones that don't suffer such a deep power response hole is a very personally rewarding occupation for me because of the very real joy it brings to so many of my clients' lives. That joy comes from the ability to hear and understand dialogue at normal speaking volumes in real rooms without strain. The same property makes music reproduction better too - all other things being equal (which I accept they never are). Having actually measured it at one point, I find that my copy of an 18th century fenhc double haprsichord has some pretty serious holes in the power response at a number of frequencies. Why have the last 5 centuries of harpsichord makers not experienced the joy of filling in these serious defects? What's wrong with them? I'm not being in the least facetious: You basically assert that an even power response is requisite to the proper enjoyment of music. I counterassert that such a view is extremely narrow and overly constrained to the point where it ignore some of the most fundamental drawbacks at the level of first principles in terms of recreating a realistic sound field of a musical event. No doubt even power response is a great specification to crow about, and one that, really, is not all that hard to achieve. But in doing so, precisely WHAT problem have you fixed? Back to the original question: Why is a speaker with a perfect power response, with a uniform, frequency-independent radiation pattern, requisite to the production of a realistic sound field of an instrument in the same venue? If you say the uniform directivity and power response is good, then you are also asserting that the lack of such in a real instrument is bad. If you are saying that the radiation pattern of the instrument is good, then maybe what you are saying is that uniform power response and radiation pattern is not necessarily bad, but maybe irrelevant. |
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"John Matheson" wrote in message
... Linkwitz is entititled to his opinion and to publishing it - having it and publishing it just doesn't make those opinions any righter. What, if anything makes them wrong? Sure there is art in audio engineering - the art of applying good engineering. Unfortunately far too many "audio engineers" know far too little to apply good engineering. And you've done a survey of audio engineeers and therefore know they can't properly apply good engineering, or is this just an unsupported assertion. Competent speaker design requires an understanding of physics, acoustics, physcoacoustics, electrical, mechnical, chemical and materials engineering to name but a few. It is way beyond the capabilities of one person to be an expert in all these fields. And you're positive that Linkwitz has not consulted other experts in those fields or is unable to benefit from their teachings, or is this an unsupported assertion. Simple computer models seem to encourage poor application of the "art" too. Did Linkwitz rely on simple computer models? I am far too humble to think I could design an accurate loudspeaker. Then it seems you might not be qualified to critique them, unless you have some actual measurements on the Orions. Floyd Toole, Sean Olive and others through the NRC in Canada and Harman International have conducted many decades of comprehesive research into what are the important charateristics for speakers and I don't think that the Orions would stack up well by the scientifically established criterion. Based on what? But nor would many so call High End designs irrespective of price. I'm also a reader of the papers of David Griesinger who I feel knows close to as much as the rest of the world put together about the physcoacoustics of spacial sound reproduction and perception. His papers give a physcoacoustical basis to the empirical findings of Toole et al. Is it perhaps possible, that Linkwitz is familiar with them as well? I am glad you enjoy your system, but that does not equate to accuracy or correctness or even my definition of high fidelity let alone high end - just because it plays some things well or sounds nice to you. Then what criteria should one use? Do you pick ones that don't sound nice on what you like to listen too? I thought that was the criteria that we each use in making a purchase. We each listen to equipment and choose what seems to us to be what we want. Of course people are free to make whatever choices they like for whatever reason. It gets up my nose (as you can no doubt tell) when someone becomes evangelistical about a personal experience. With all do respect, you seem to be doing that same thing. I find the notion of "like the sound of" and "don't like the sound of" in audio engineering sailing just a bit too close to the fashion industry - but I guess that is what high fidelity industry has become - fashion. Bingo. How else do you explain things like the Silver Rock Signature Knob $480.00 I have conducted research into speaker design with John Dunlavey (independently using his facilities - not as an employee); I've run a performing arts centre sound department managing a staff of up to 25 audio engineers at times; I've been involved in my local section of the Audio Engineering Society for more than 20 years and have presented many meetings on the various facets of audio engineering including speaker design criteria for "accuracy" in reproduction and blind evaluations of professional speakers which left some proponents of particular brands decidedly red faced; I'd keep that quiet if I were you, the whole DBT thing is kinda touchy around here. :-) I've been a technical writer for a national journal in professional sound engineering; I designed quite a few professional and consumer loudspeakers; I have designed sound reinforcement systems for dozens of local and national touring musicals and opera; I've worked as a sound designer with many symphony orchestras and opera companies; and I have worked as a consulting engineer in electo-acoustics for a national acoustical consultancy. Over a couple of decades I have collected scores of letters and published reviews praising the quality of sound of my designs - many for operas - and never had a bad review published to my knowledge. I've collected about 40 reviews on just one show published in papers and journals on three continents - all praising the quality of sound (it was an opera with 80% of the audience from overseas - so I think it had a critical audience too). So I too feel I have an incling about natural sound. All of my experience has lead to believe that the human auditory experience is incredibly fickle, hence the "so many different attempts at producing hi-end audio". That and misguided beliefs and just plain financial greed. The idea of what Hi-Fi is all about seems to have gotten lost a long time ago. Faithfullness to the original master. These days people want to design signature sounding gear of all kind. If there's a lot of different signatures, I'm betting a lot of the concept of faithfulness to the orignial master is lost. I can also claim to be part of the germination of the choice of methodology behind the recent extensive double blind evaluation of dozens of professional monitors by the BBC in London recently. This is probably the single most extensive and bias controlled evaluation of speaker "naturalness" ever undertaken anywhere. Again with the DBT talk! You must have a death wish. :-) The results of that evaluation was the recommendation across the board to use an appropriate sized model of Dynaudio speakers for all monitoring applications at BBC Radio and BBC Music. I assure you that Dynaudio are a brand of speakers which do rate well against the aforementioned criteria and the outcome of the BBC's research just reinforces my opinions. By the way I am not saying that any model of Dynaudio is the "best speaker in the world" as there are far too many criteria to measure "best" by. Well, the Evidence Temtation might be a contender. My colleague who has built the Orisons is also a member of the local Audio Engineering Society too. He gets a lot of enjoyment form playing around as an amateur engineer, but he hasn't had the benefit of the kind of experience I have had. If he had talked to me before undertaking the project, he most likely wouldn't have. But he didn't - just as I don't consult with him on everything I intend to do. To be honest I am disheartened that so much effort goes into producing such (to my ear) blatantly unrealistic results. We have had an extensive string of "tinkerengineering" speaker projects presented at AES meetings over the years. In almost every case the owner of the project thinks he is on the cusp of the next best speaker in the world. One gets a bit jaded after a while. Welcome to the HIGH end. Some of these projects have produced enchanting results on certain pieces of music if you are in the right position etc, etc. That just doesn't make them right - just pleasant to some ears under some conditions. Are there any kits or DIY projects that you believe to be accurate? You posted a reply to my admittedly churlish reply to your original post, but are you interested in the basis of the four claims I made about the Orions performance? I think the four claims are (relatively) easily demonstrable and irrefutable (excepting for an over-riding bias on the part of the reader - truth like beauty may be in the eye, or ear, of the beholder), but since you did not ask I have not attempted to address them here. Can you support your assertions with any sort of measured data? Since you are the only person I've heard criticize them, I'd be interested in what data you use to prove your case. I have heard what I think are some very good DIY kits from Dynaudio, designed by Joe D'Appolito and from SEAS also designed by him. They sounded very accurate to my ears and gave a very good performance of any kind of music I threw at them. |
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John Matheson wrote:
I can also claim to be part of the germination of the choice of methodology behind the recent extensive double blind evaluation of dozens of professional monitors by the BBC in London recently. This is probably the single most extensive and bias controlled evaluation of speaker "naturalness" ever undertaken anywhere. The results of that evaluation was the recommendation across the board to use an appropriate sized model of Dynaudio speakers for all monitoring applications at BBC Radio and BBC Music. I assure you that Dynaudio are a brand of speakers which do rate well against the aforementioned criteria and the outcome of the BBC's research just reinforces my opinions. John, I would love to know more details about this BBC monitor search and their evaluation methods, criteria, results, etc. ANywhere I can read up on this? Thanks. Roscoe East |
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"Roscoe East" wrote in message
... John Matheson wrote: I can also claim to be part of the germination of the choice of methodology behind the recent extensive double blind evaluation of dozens of professional monitors by the BBC in London recently. This is probably the single most extensive and bias controlled evaluation of speaker "naturalness" ever undertaken anywhere. The results of that evaluation was the recommendation across the board to use an appropriate sized model of Dynaudio speakers for all monitoring applications at BBC Radio and BBC Music. I assure you that Dynaudio are a brand of speakers which do rate well against the aforementioned criteria and the outcome of the BBC's research just reinforces my opinions. John, I would love to know more details about this BBC monitor search and their evaluation methods, criteria, results, etc. ANywhere I can read up on this? Thanks. Roscoe East There is a sanitised marketing department version of it on Dynaudio's international web site - but it reveals no real details of the methodology. (http://www.dynaudio.com/) I happen to know a bit of the methodology anecdotally because of personal connections. I think the BBC would like to keep quiet about it to avoid severely upsetting a lot of manufacturers, many British too. John Matheson |
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wrote in message
... John Matheson wrote: On a slightly unrelated matter, given that: 1. noise induced hearing loss is a V-notch centred around 4kHz; 2. nearly all conventionally designed speakers have a power response hole in this region due to driver and crossover design; I would instantly challenge you to support this assertion: that "nearly all" conventionally designed speakers suffer form this problem. Having seen a LOT of conventionally designed speakers, the mere statistics of your claim are rather easy tp test. Have you, in fact, done so, or is this simply assuming this to be axiomatic without once challenging the assumption? It is easy to test and I have tested it hundreds of times. But even if I hadn't: 1. It is a consequence of the laws of physics (which all manufacturers share - none get exemption) of conventional cone mid-range drivers & high-order crossover design; 2. There is a gazillion published polar plots and off axis frequency responses in the public domain that prove the assertion. Having actually measured it at one point, I find that my copy of an 18th century fenhc double haprsichord has some pretty serious holes in the power response at a number of frequencies. Why have the last 5 centuries of harpsichord makers not experienced the joy of filling in these serious defects? What's wrong with them? It doesn't need fixing - it's clearly part of the character of the sound of the harpsichord. It does mean that the room the harpsichord is in has a huge bearing on how the harpsichord sounds - but that should not be news to anyone. I'm not being in the least facetious: You basically assert that an even power response is requisite to the proper enjoyment of music. I am not sure how you drew the conclusion that I asserted any such thing. I counterassert that such a view is extremely narrow and overly constrained to the point where it ignore some of the most fundamental drawbacks at the level of first principles in terms of recreating a realistic sound field of a musical event. No doubt even power response is a great specification to crow about, and one that, really, is not all that hard to achieve. But in doing so, precisely WHAT problem have you fixed? The problem that is fixed is better described by some of the references I've made in other posts than I could do justice to here. Basically it's about perceived sound quality. I think it is a sufficiently well scientifically established to be accepted for good practice in speaker design. Back to the original question: Why is a speaker with a perfect power response, with a uniform, frequency-independent radiation pattern, requisite to the production of a realistic sound field of an instrument in the same venue? I have not suggested such a speaker system. I suggest now that it needs a flat(ish) on axis response and a declining power response (that is a frequency-dependent radiation pattern). Why a declining power response? Because nearly all real acoustic sources that we want to listen to have declining power responses, where by power response I mean total radiated energy versus frequency. I accept that doesn't mean the speaker is capable of replicating the sound of any individual source in that space. To do that, clearly it would have to have the SAME power response (and much more importantly) the SAME directional response as the original source. Clearly that is impractical for a hi-fi. If you say the uniform directivity and power response is good, then you are also asserting that the lack of such in a real instrument is bad. If you are saying that the radiation pattern of the instrument is good, then maybe what you are saying is that uniform power response and radiation pattern is not necessarily bad, but maybe irrelevant. If I said it - well I didn't! I had not until this post made any comments about the power response of real sound sources. Of course that causes a dilemma in recording real sources - where do you put the microphones. I maintain that the best option for a speaker is a power response that is free of major discontinuities and I think that should be fairly self evident from your own essay. After all why would you want a speaker to overlay IT'S power response irregularities on top of your recordings? The challenge is to find a reasonable average power response that mimics sources such as, say orchestra and voice. Funnily enough (or maybe not) the power response (not directional response) requirement for these two disparate sources is not dissimilar. |
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John Matheson wrote:
Linkwitz is entititled to his opinion and to publishing it - having it and publishing it just doesn't make those opinions any righter. Have you ever considered writing to Linkwitz with your concerns? His website lists his e-mail address and he does respond to questions. Perhaps if you were to discuss his choice of drivers with him, you might discern why he made the choices he did. Together you might also come up with possible improvements or even a completely new design. I am far too humble to think I could design an accurate loudspeaker. But you're not too humble to speak harshly of what I, and many other people consider to be a very good sounding design. But since you've made the point of dumping all over the Orions, you should tell us what it is you listen to at home. Tell us about the room you have your system in. Do you use acoustic room treatments such as tube traps? Is your own system one you consider to be "accurate"? How much money do you have invested in your system? Why did you choose the components you have? Are you someone with budgetary restrictions? How did they play into your choices? You posted a reply to my admittedly churlish reply to your original post, but are you interested in the basis of the four claims I made about the Orions performance? I think the four claims are (relatively) easily demonstrable and irrefutable (excepting for an over-riding bias on the part of the reader - truth like beauty may be in the eye, or ear, of the beholder), but since you did not ask I have not attempted to address them here. There is never a need to be "churlish" in a discussion. Certainly not when you are first introducing yourself. First impressions are typically lasting ones. Acting "churlish" never helps to bring credibility to your claims. One of the reasons I made my original post was to suggest that the Orions sounded as good as the best systems I'd heard at CES. I admit that I saw only a fraction of what was there, but it was still a pretty good sample. The Orions are a real bargin compared to the very fine systems I heard at CES. I have about $4000 invested in the package consisting of the Orion drivers, speaker enclosures, crossover and power amplification. Compared to $27,000, $100,000 or $165,000, the prices for the three systems I referenced, $4000 looks pretty good. Audio engineering, like so many other types of engineering, is often about designing within constraints and/or making compromises. The most visible constraint for most of us is budget. I'd like to suggest that whatever sound system design you present, that costs be part of that description. I wouldn't be reading this forum if I weren't interested in learning more. So please enlighten us. Russ Button |
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Ross, I didn't mean my post to be churlish - it just came out that way -
sorry. Maybe I had indigestion at the time. However criticism is what drives improvement and I am not ashamed to play a part. I wasn't at CES so I can't comment on your findings other than to say it doesn't surprise me. I haven't had any reason to talk to Linkwitz - he is one of a thousand speaker DIY'ers with and internet site. He is obviously a knowledgeable person, but I do not concur with his views and I doubt that I can change his or he mine. I currently don't have a system at home at the moment - I'm rarely here anyway. But I own a hi-if shop so I get to listen to a variety of speakers there. There are speakers around that I could live with for $5,000 or so, and plenty that I could not live with at many times the price. I have bought and sold hundreds of speakers over the years from dozens of manufacturers, a fair proportion of which I have tested in one way or another. I used to have access to a large indoor void in which I could get first reflections out to 50mS or so in half space or 25mS in free space allowing me to do gated measurements with accuracy to quite low frequencies. I've used gated software based measurement systems including Clio, IMP and MLSSA as well as real time analysers and sweep testers from Ivie, Neutrik, and dual FFT from Bruel & Kjaer. And I've used LEAP (loudspeaker design program) and LMS (loudspeaker measurement program) and CATT (acoustical symulation program). I concur with Floyd Toole's findings that a speaker needs a smooth power response declining with rising frequency for naturalness in sound reproduction in a general sense. In his papers he gives a very thorough dissertation on what is important to get right and what doesn't matter in speaker design and although I haven't read his papers for some time I remember feeling that my experiences were in line with his findings. I am not a fan of the dipole / bipole school. I believe in most instances a monopole with flattish on axis frequency response, smoothly declining power response and relatively free of colouration (or self-signature) is an easier speaker to live with for most people, given the variability of recordings and people's listening rooms. Linkwitz's claims on the dipole behaviour of speakers does not bear too close scrutiny - acoustic behaviour in real rooms is much more complex than his arguments assume. After 20 years in professional audio engineering (my career prior to buying the hi-fi shop), I feel I have developed an ability to identify what I call a speaker's "signature" fairly rapidly, even if I am unfamiliar with the source material played through it. A lot of this ability is through being able to have a useful conceptual model of what the speaker does. In other words, the ability is a learned one but the conceptual model was an important tool in the learning. I will attempt to describe it here - at the risk of other posters finding holes in it, because it is not an engineering model, but a layman's model. Those holes are certainly there to be found, but they do not invalidate the tool. A speaker system is a collection of mass/spring/damper systems - hundreds or thousands of subsystems such as the obvious ones like cabinet sides, but also individual bits of cone and even the speaker basket, etc . Each subsystem has its natural resonance(s) and Q. Even the electrical parameters of the drivers and crossovers are implicated here. When all of these sub-systems are excited by a transient (something that happens frequently in music, speech or any real sounds) each resonant subsystem rings to a greater or lessor degree depending on the nature of the transient and the level of excitation it provides to that subsystem. This ringing generates noise (or musical notes if you like - it's essentially how musical instruments work) and as a result that noise is added to the reproduced signal. That is the speaker's "signature" and it is there on every drum beat, on every hammer striking a piano string, on every vocal implosive, even on the raspy edge of a trumpet or reed instrument's note. So how do I hear the signature? It's become relatively easy after I arrived at the conceptual model above. You can change the music but the speaker's signature doesn't change! Sure it will manifest differently but its character is there to be heard all of the time on every source. The speaker's signature is all "noise and distortion" because it isn't in the original signal. Even if a speaker sounds good or musical it is STILL WRONG if it is generating its own contribution to the sound. Of course a perfect speaker does not exist so there is colour in all real speakers to a greater or lessor degree. Naturally I like the one's at the lessor end of the scale. I find this to be a remarkable conceptual tool that to a great extent circumvents unknown source material in speaker evaluation and even odd acoustics in an unknown listening environment (because odd acoustics do different things to sound quite unlike the kind of things the speaker's resonant subsystems do). I can draw conclusions very rapidly and there is little room for error. In other words a second and third listening, even under different circumstances, won't normally change my conclusions or convictions. By the way I am not suggesting this as a method of scientifically ranking speakers - it's just an evaluation tool that is remarkably handy in coming to a rapid conclusion that passes the test of time. The ability to make a quick and reliable assessment was something I had previously struggled with, as have pretty much all of the other audio professionals and music buffs I know. It doesn't take into account frequency response or power response necessarily either, so it is not a complete picture. If you want to experiment with this concept I suggest these. Take the rubber mat off a midrange turntable and rap the platter with you knuckles- it will ring "like a bell". Replace the mat and play a record. Unless you have an exceptional turntable, you will hear the note platter produced buried in the music. This may not be easy to hear at first, unless you have a particularly bad turntable of course. You will be easily able to hear individual panels resonating in a poorly implemented speaker design once you have identified what they sound like by tapping them. Try tapping the dust cap on a speaker with a rigid dust cap. Bingo - that will be audible in music too. I sometimes use a stethoscope to track down the source of a particular coloration. Now take a magnesium cone loudspeaker - it's a great "hash" generator. Many people mistake the hash for "detail" and conclude that some recordings that are made unlistennable on these speakers (strident female vocals, saxophone, complex choral works, etc.) are bad. Well it ain't true - they're just bad speakers and incapable of producing natural sounding music as far as I am concerned. Regarding the driver used as a midrange drive in the Orions, you can see Seas's own data he http://www.seas.no/excel_line/excel/E0022.pdf It shows cone break-up modes (i.e. resonances) more than 20dB higher in level than the passband response!!!! I've measured these speakers and if you want to be truly horrified, you should see what they do to a step waveform, which by the way is a good way of understanding what they will do when excited by transients. Even though the crossover attempts to remove this part of the speaker's response, the hash these modes generate is blatantly obvious in music reproduced by them - once you are able to identify it. (Linkwitz's crossover attempts to suppress the first ring mode by 50 dB or so but they are still starting from 20dB up. At 50 - 20 = 30dB below the music, the ring modes are clearly audible in the Orions and a serious enough defect for give the speaker a "fail" in my opinion.) Why is that important even if the speaker sounds "nice"? Well it makes the speaker fussy about what you can play on it and I suggest it makes the speaker fatiguing to listen to as well. I do not understand how Linkwitz can claim the Orion speakers to have a "nearly flat power response" unless he has some special laws of physics he gets to use exclusively (and if they DID it wouldn't be good either!). A power response hole is clearly evident in the published data for the drivers (and is in line with what the laws of physics I am familiar with would expect me to exist). The Peerless XLS bass drivers are another driver that I can not like, though I don't know exactly why in a technical sense. It has been put to me by another loudspeaker design engineer that the hysteresis in the roll surrounds is probably the cause of their "sound". I can't exactly say what it is about them that I don't like (except to say I really don't like the sound of their reproduction which I find quite unnatural). I have constructed four different alignments of the four variants of these drivers - two sealed alignments and two passive radiator alignments. In the frequency domain they measure as they should - but they have a peculiar sound that is not to my liking because they can't, for example, reproduce drum sound like any drums I have ever heard. My employer at the time did end up using the 12 inch XLS drivers in a sealed alignment with equalisation to be -1dB at 20Hz in a consumer product with two drivers in each speaker system and an amplifier for each one. They were impressive to listen to but not for the naturalness of bass reproduction. I was absolutely gobsmacked when I heard these drivers in an open baffle arrangement in the Orions. The bass sound had the SAME character I disliked in the four alignments I had prototyped. So the drivers can only be implicated here. I don't understand people's obsession with these XLS drivers given what they sound like. I suspect that Peerless specifically engineered them to produce "a good set of numbers" for computer programs that model bass alignments. Unfortunately the Thiele Small alignment model and it's derivatives are just that - models - that have fundamental limitations. They can't predict the real world sound of systems - yet I have known many speaker designers that put more faith in the modelling than their own ears! Last time I talked to Neville Thiele (of Thiele Small fame) he expressed some exasperation about how the models are taken too seriously, or at least extrapolated way beyond meaning. Another poster on this news group once suggested his means of evaluating speaker quality (in another thread). He said he moved away to find how far he could get whilst the speakers still sounded reasonable. At first sight, this seems a little naff. But there is method in this madness. What he was doing was moving from the near field where we tend to listen to speakers into the reverberent (far) field - where the room is integrating the total radation behavior of the speaker. (This is how we tend to listen the live performances and a key to why instuments sound the way they do - hint: they sound different close up where we tend to put microphones - doh.) A speaker that performs well on my power response criteria maintains its sound quality in the far field and stands up better to poor acoustic environments. Another reason for my preferences. Anyway I have probably written enough for now. Congratulations if you've read this far! John Matheson "Russ Button" wrote in message ... John Matheson wrote: Linkwitz is entititled to his opinion and to publishing it - having it and publishing it just doesn't make those opinions any righter. Have you ever considered writing to Linkwitz with your concerns? His website lists his e-mail address and he does respond to questions. Perhaps if you were to discuss his choice of drivers with him, you might discern why he made the choices he did. Together you might also come up with possible improvements or even a completely new design. I am far too humble to think I could design an accurate loudspeaker. But you're not too humble to speak harshly of what I, and many other people consider to be a very good sounding design. But since you've made the point of dumping all over the Orions, you should tell us what it is you listen to at home. Tell us about the room you have your system in. Do you use acoustic room treatments such as tube traps? Is your own system one you consider to be "accurate"? How much money do you have invested in your system? Why did you choose the components you have? Are you someone with budgetary restrictions? How did they play into your choices? You posted a reply to my admittedly churlish reply to your original post, but are you interested in the basis of the four claims I made about the Orions performance? I think the four claims are (relatively) easily demonstrable and irrefutable (excepting for an over-riding bias on the part of the reader - truth like beauty may be in the eye, or ear, of the beholder), but since you did not ask I have not attempted to address them here. There is never a need to be "churlish" in a discussion. Certainly not when you are first introducing yourself. First impressions are typically lasting ones. Acting "churlish" never helps to bring credibility to your claims. One of the reasons I made my original post was to suggest that the Orions sounded as good as the best systems I'd heard at CES. I admit that I saw only a fraction of what was there, but it was still a pretty good sample. The Orions are a real bargin compared to the very fine systems I heard at CES. I have about $4000 invested in the package consisting of the Orion drivers, speaker enclosures, crossover and power amplification. Compared to $27,000, $100,000 or $165,000, the prices for the three systems I referenced, $4000 looks pretty good. Audio engineering, like so many other types of engineering, is often about designing within constraints and/or making compromises. The most visible constraint for most of us is budget. I'd like to suggest that whatever sound system design you present, that costs be part of that description. I wouldn't be reading this forum if I weren't interested in learning more. So please enlighten us. Russ Button |
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#21
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John Matheson wrote:
Ross, I didn't mean my post to be churlish - it just came out that way - sorry. Maybe I had indigestion at the time. However criticism is what drives improvement and I am not ashamed to play a part. I wasn't at CES so I can't comment on your findings other than to say it doesn't surprise me. I haven't had any reason to talk to Linkwitz - he is one of a thousand speaker DIY'ers with and internet site. er..he's rather a bit more than *that*, actually. from http://stereophile.com/interviews/503/ // Siegfried Linkwitz was born in Germany in 1935. He received his electrical engineering degree from Darmstadt Technical University prior to moving to California in 1961 to work for Hewlett-Packard. During his early years in the USA, he did postgraduate work at Stanford University. For over 30 years Mr. Linkwitz has developed electronic test equipment ranging from signal generators, to network and spectrum analyzers, to microwave sweepers and instrumentation for evaluating electromagnetic compatibility. He has also had a long and distinguished second career as an audio engineering visionary. Along with Russ Riley he developed the famed, and widely used, Linkwitz-Riley crossover filter in the mid-1970s. Since then, he has contributed several important technical papers covering a variety of measurement and speaker issues to such publications as the Journal of the Audio Engineering Society, Electronics (Wireless) World, and Speaker Builder. // |
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#22
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#23
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"Steven Sullivan" wrote in message
... John Matheson wrote: - he is one of a thousand speaker DIY'ers with and internet site. er..he's rather a bit more than *that*, actually. Oops, Steven, I'll re-order the words and add back in the context you deleted: ....he has one of a thousand speaker DIY internet sites. He is obviously a knowledgeable person... |
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#24
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John Matheson wrote:
I haven't had any reason to talk to Linkwitz - he is one of a thousand speaker DIY'ers with and internet site. Perhaps with your extensive knowledge of who does and does not have an internet site, you might consider one internet site, www.aes.org, on which you will find that the good Mr. Linkwitz has some association, to wit: Linkwitz, S. H., "Active Crossover Networks for Noncoincident Drivers," J. Audio Eng. Soc., Volume 24 Number 1 pp. 2-8; January/February 1976 Linkwitz, S. H., "Passive Crossover Networks for Noncoincident Drivers," J. Audio Eng. Soc., Volume 26 Number 3 pp. 149-150; March 1978 Linkwitz, S. H., "Shaped Tone-Burst Testing," J. Audio Eng. Soc., Volume 28 Number 4 pp. 250-258; April 1980 Linkwitz, S. H., "Why Is Bass Reproduction from a Dipole Woofer in a Living Room Often Subjectively More Accurate Than from a Monopole Woofer?" J. Audio Eng. Soc., Volume 51 Number 11 pp. 1062-1063; November 2003 It might be worth noting that Mr. Linkwitz, who, according to you, is a simple "DIY'er with a website," also happens to be the same author of the aforementioned AES articles cited by the likes of D'Appolito in his articles on crossovers, among others. So, then, who is the authority on this topic? A "DIY'er with a website who just HAPPENS to have a number of technical articles on the topic puplished in a peer-reviewed technical journal? Or a person who: "currently doesn't have a system at home at the moment", Someone who: "owns a hi-if shop" who "bought and sold hundreds of speakers over the years" and who "used to have access to a large indoor void" and "used gated software based measurement systems ... and LEAP..." ??? |
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#25
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John Matheson wrote:
"Steven Sullivan" wrote in message ... John Matheson wrote: - he is one of a thousand speaker DIY'ers with and internet site. er..he's rather a bit more than *that*, actually. Oops, Steven, I'll re-order the words and add back in the context you deleted: ...he has one of a thousand speaker DIY internet sites. He is obviously a knowledgeable person... And yet you still don't seem to realize, he's not just a knowledgeable person with a 'speaker DIY website'. He's a famous figure in the speaker design field, dating from before there *was* a WWW. |
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#26
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John,
I would love to know more details about this BBC monitor search and their evaluation methods, criteria, results, etc. ANywhere I can read up on this? Thanks. Roscoe East Roscoe, Michael McKelvy alludes to it in his post: For those who Like the BBC LS3/5A (long) I couldn't find it there but found it he http://www.bbc.co.uk/foi/docs/freedo..._Selection.htm John Matheson |
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#27
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On 1/23/05 10:35 AM, in article , "John
Matheson" wrote: Now take a magnesium cone loudspeaker - it's a great "hash" generator. Many people mistake the hash for "detail" and conclude that some recordings that are made unlistennable on these speakers (strident female vocals, saxophone, complex choral works, etc.) are bad. Well it ain't true - they're just bad speakers and incapable of producing natural sounding music as far as I am concerned. So you're saying Joe D'Appolito, Vance Dickason, Siegfried Linkwitz, Jack Hidley at NHT, and so many others have no ability to discern a good driver? All this time we all thought the magnesium cones' orders of magnitude reduction of harmonic and IM components were responsible for the clean sound they heard from those drivers. But according to you, they're all wrong. They're just hearing hash. By your count these guys must just be plain deaf. Regarding the driver used as a midrange drive in the Orions, you can see Seas's own data he http://www.seas.no/excel_line/excel/E0022.pdf It shows cone break-up modes (i.e. resonances) more than 20dB higher in level than the passband response!!!! In my world, and that of every speaker designer I know, you reference the peak magnitude to the average sensitivity of the driver's pass band, not to a response dip. Given that the data sheet clearly places the average SPL at about 88dB (normalized to 2 pi radiation), and the peak at a bit over 100dB, that would give you a 12-13dB peak, not the 20dB!!!!!! you so dramatically quote. And that well defined peak is easily suppressed using a simple notch filter, leaving a very clean pass band to work with. That's the whole idea behind the design. I've measured these speakers and if you want to be truly horrified, you should see what they do to a step waveform, which by the way is a good way of understanding what they will do when excited by transients. Forgive me if I don't quite grasp this. You put a step waveform into a transducer that is, by definition, bandwidth limited with a defined out of band resonance. Then, you're "horrified" to see that the resultant waveform is not a step and has the out of band resonance superimposed because your step signal excited it? Just exactly what have you learned from this exercise that you could not have just as easily figured out by simply examining the frequency response curve on the data sheet? Now, since you're so easily horrified by tests, you might drop dead when you see a laser holography scan of virtually any soft or composite cone (paper, poly, aerogel, glass fiber, kevlar,etc). What you see is utter chaos-one part of the cone moving in while the other moves out-sometimes in violent fashion and constantly changing with frequency. Compare that with a scan of a magnesium cone below breakup where all you see is pistonic motion. You can hypothesize all you want that all of this mechanical chaos somehow is rendered audibly insignificant because of "self damping", and that the resultant output emerges undistorted. But it doesn't take exotic measurements to prove this isn't true. Prior to introducing the Excel Magnesium cone drivers we introduced an 8" woofer with a paper cone. This is a highly regarded Kurt Mueller paper cone, chosen for low distortion and excellent damping properties, and used by many high end driver manufacturers. You can see a data sheet at: http://seas.no/excel_line/excel/E004.PDF. The only acoustic variable between this and the W22EX001 is the cone. The motor and suspension are virtually the same between the two. Compare the distortion graphs between the paper and magnesium versions and look at you'll see how much higher the second and third order in band products are with the paper cone. And, trust me, this distortion is not confined to lower order harmonics. A simple sine sweep of this paper driver clearly reveals audible resonances in the pass band while a sweep of the magnesium cone unit under the same conditions sounds much cleaner. The paper cone drive would probably look better in your step response test. But that's more an indication of the uselessness of such a test than the quality of the driver itself. Would it be nice not to have the break-up mode? Sure, but it is not the fatal flaw you make it out to be, nor is it responsible for some kind of "false detail" as you claim. There are plenty of diverging opinions about what constitutes "the best driver" This is the reason why we and many other manufacturers make them available with different materials. If there was one perfect way to do it, there would be very few drivers in our line. As it stands today, we have hundreds. Even though the crossover attempts to remove this part of the speaker's response, the hash these modes generate is blatantly obvious in music reproduced by them - once you are able to identify it. (Linkwitz's crossover attempts to suppress the first ring mode by 50 dB or so but they are still starting from 20dB up. At 50 - 20 = 30dB below the music, the ring modes are clearly audible in the Orions and a serious enough defect for give the speaker a "fail" in my opinion.) The "ring mode" is at 5kHz. The midrange crossover network attenuates output at 5Khz near 50dB on its own. You seem not to take into account the active notch filter centered at 5kHz that adds an additional 16dB attenuation over and above the crossover's 4th order slope. Taken together, this adds up to approx 65dB signal attenuation from the pass band level. If you take the corrected calculation of the driver's peak magnitude, you end up with the level of that peak suppressed at least 20 dB (100x) more than your 30dB claim. I verified this in conversation with Dr. Linkwitz. The Peerless XLS bass drivers are another driver that I can not like, though I don't know exactly why in a technical sense. It has been put to me by another loudspeaker design engineer that the hysteresis in the roll surrounds is probably the cause of their "sound". I doubt it. We have done extensive Klippel analysis of these drivers and the hysteresis issue is no better or worse than any other 10" long throw bass driver we have tested. These drivers use high quality natural rubber surrounds that keep hysteresis to a minimum. Besides, hysteresis effects are most pronounced at small excursions. Given that the Orion woofers are equalized for dipole radiation, their excursion is far greater for a given spl than would be the case in an enclosure application. If anything ,this would minimize the hysteresis effect. Linkwitz also wisely mounts the drivers in "push pull" (one pointing in, the other pointing out) and this serves to balance out some of the even order products generated by the modulation of the surround roll. Unfortunately the Thiele Small alignment model and it's derivatives are just that - models - that have fundamental limitations. They can't predict the real world sound of systems - yet I have known many speaker designers that put more faith in the modelling than their own ears! Well isn't that what you are doing here? You say the midrange can't be good, not just because you don't like the sound, but because you see an out of band breakup mode on the data sheet. Then you turn around and say you don't like the bass, but you admit to having no technical reason for doing so. It just seems to me that your dislike of this speaker is based as much on preconceived notions as it is upon what you are hearing. And I strongly suspect that one influences the other. John Stone SEAS USA |
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#28
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John Matheson" wrote:
Unfortunately the Thiele Small alignment model and it's derivatives are just that - models - that have fundamental limitations. They can't predict the real world sound of systems - yet I have known many speaker designers that put more faith in the modelling than their own ears! John Stone wrote: Well isn't that what you are doing here? You say the midrange can't be good, not just because you don't like the sound, but because you see an out of band breakup mode on the data sheet. Then you turn around and say you don't like the bass, but you admit to having no technical reason for doing so. It just seems to me that your dislike of this speaker is based as much on preconceived notions as it is upon what you are hearing. And I strongly suspect that one influences the other. I'm just a home brew audiophile, but as I've mentioned a number of times before, I've listened to a lot of systems over the past 30+ years I've enjoyed hi-end audio. I'm not an electrical engineer, but I know enough to get myself in trouble. I certainly don't have access to speaker driver test equipment, let alone know how to use it. Like so many of us, a lot of what I take an interest in begins with reputation. A piece of equipment or a loudspeaker gets favorable comment from a variety of sources and then I go take a look-see for myself. I'm not a member of the "Component of the Month Club". I typically own and operate a set system configuration for several years at a time. My previous system was in operation for about 10 years before I decided to move to the Linkwitz Orion. I've never spent that much ($4000) at once on an audio system. That's a lot of money to me. Not to you perhaps, but it is to me. I respect anyone's reputation, but the real test comes from when I listen. I didn't look at any driver documentation or test results. I just listened. Frankly I wasn't unhappy with the sound of my old system. I had moved to a smaller home and it was just too big for the room it was in. My previous loudspeakers were X-Static, full-range, curved diaphram electrostatics. They did wonders with voices and acoustic instruments. I augmented them with a pair of Thiel aligned sub-woofers I'd built some years ago that were powered by a separate amp/Marchand active crossover. A wonderful system. So I know what I'm listening to. There was only one dynamic loudspeaker I'd ever heard that compared to my 'stats, and that was what I heard from Avalon Acoustics. Great stuff but waaaaaaaaay out of my price range. And then I heard the Linkwitz Orion. You can engineer and design all you want, but in the end, the point of all this is that it all comes down to listening. John Stone is correct in that you can come to an audition with pre-conceived notions based upon what you've read on the spec sheet. It's all about expectation really. Like so much of life, you don't always get what you want, but you always get what you expect. It had been my expectation that I'd never find a dyanmic loudspeaker that sounded as good on voices as my old 'stats. With the exception of the Avalon line, that had always been true until I heard the Orion. A friend whom I respect a great deal told me about them and so I went and listened. I was skeptical on the way over, but in the first 5 seconds knew they were for real. It took another hour or so of critical listening to be sure, but it was clear from the start that these were extraordinary. I looked at the mid-range driver and just sort of shook my head because it went against everything I'd read about mid-range drivers over the years. But heck. What do I know? The listening told me that I didn't know as much as I thought I did, and that's the point here. You go listen and you make your choice. More than once, I asked John Matheson to tell us what he liked, if he didn't like the Linkwitz Orion. What did he have at home? Why did he choose that? What loudspeakers did he like? Why? He never answered any of those questions, instead preferring to say he had nothing at home and listened to a lot of things at his hi-fi shop. When then, what was it he was selling that he did like? You obviously have a lot of good professional experience John Matheson, but when you criticize something, you have to back it up with alternatives to educate us. Tell us you like this or that and give us pointers to go listen. Without that, there's nothing for us to reference your perspective against, and thus you have little credibility. Russ Button |
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