This is Stefano Bertoncello's Blog (ステファノ・ベルトンチェッロ - トゥーグッドイアーズ − ブロガー、オーディオ&ミュージック・コンサルタント) devoted to pacific topics like Music - live and reproduced - i.e. discs, audio, guitars - both vintage and new, concerts, workshops, and related stuffs. Furthermore: travelling - as a mind-game and real globetrotting, and books, movies, photography... sharing all the above et al. and related links... and to anything makes Life better and Earth a better place to stay, enjoying Life, in Peace.
Wednesday, December 9, 2009
Ears and hearing: "natural", acoustic watts vs. "man-made" watts or the weight of real instruments: why they sound so... true?
Found the following articles and links while browsing around the topic in title... acoustic watts vs. reproduced/"electronic" watts from our stereo systems...
this extremely well done treatize on the matter... and an industry (illuminated) point-of-view, actually coming from a genius: Robert Moog.
For example, Bob Moog wrote in 1977:
"First, let's talk about acoustic power output. What we want out of a speaker is sound (acoustic power). As converters of electrical power, loudspeakers are generally inefficient. Most of the high-price juice going into a speaker cabinet winds up as heat instead of sound. Good, wide-range speaker systems typically have an efficiency of from 1/2 to 5%. That is, 100 watts of amplifier power may yield 1/2 to 5 acoustic watts of sound power. How loud is one acoustic watt? Well, a premium home music bookshelf speaker will generally burn out before it produces one acoustic watt continuously. A typical full-size professional studio monitor will produce three acoustic watts at rated power. And a supergroup's stadium sound reinforcement rig may produce a total of 100 to 1,000 acoustic watts, wide open. In a typical club environment, a speaker emitting one acoustic watt will produce a sound pressure of around 110dB onstage. Ten acoustic watts will produce an additional 10dB, which, as the textbooks say, is loud enough to hurt.
How about frequency response? The lowest F on a bass guitar is 42Hz, the C below that is 32Hz, and low A on an acoustic piano is 27.5Hz. Below 60Hz or so, every Hertz of response is a significant addition in speaker system size, weight, and price. One person can move a moderately efficient speaker cabinet with a low-frequency cutoff of 45Hz, but it will take two people to handle a 30Hz cabinet of the same moderate efficiency. To my ears, response to 45Hz is necessary for a good "commercial" sound, while a 30 or 32Hz low-frequency cutoff adds a fullness that is sure nice to have. At the high end, you can hear the difference between 12kHz and 15kHz. A 12kHz high-frequency cutoff (and flat response below) gives a smooth, sparkly quality to bright timbres; extending the response to 15kHz adds a touch of brilliance and tinkle that can be significant in recording, or in small clubs.
Distortion becomes important when more than one pitch is played through the sound system. If you're feeding two or more keyboard instruments through the same speakers, you will have to be concerned about distortion. Unfortunately, speaker distortion characteristics are not given on spec sheets. You'll have to listen for yourself. It's generally audible when loud, low notes are played. To test for distortion, play a loud bass note along with a midrange chord. Speaker distortion will produce a "muddiness" that arises from sum and difference frequencies generated by the distortion component. In general (but not always), high-efficiency speaker systems and large speakers distort less than low efficiency speaker systems and small speakers. The most distortion-free sound system is biamped-separate power amplifiers for low-frequency and midrange-high frequency speakers.
How do conventional musical instrument and public address amplifier-speaker systems meet our requirements for synthesizers? First, let's consider guitar amps. Without a doubt, a typical good 100-watt guitar amp has the efficiency and stamina to put out a few acoustic watts. However, its frequency response and distortion characteristics are optimized for guitar: no significant response below 100Hz, a broad spectral "hole" around 500Hz, and sharply rising response above 1kHz, with some "warm" (low order) distortion. Guitar amps, therefore, are generally not suited for synthesizer sound reproduction. Similarly, most PA. systems are designed to make the human voice sound good. The P.A. frequency response (determined largely by the speakers) generally has a broad peak in the "presence" region of the spectrum (2-3kHz) and decidedly weak bass. Professional studio monitors, on the other hand, have more-than-adequate frequency response distortion characteristics, but often lack the stamina to produce loud, sustained, steady tones without over-heating. This is doubly true for some music speaker systems (although certain compact multiple-speaker systems such as the Bose 8OO are attractive and convenient options for small-to-medium size environments).
Keyboard amplifiers come closest to meeting our power, frequency response, and distortion requirements. High-frequency response is sometimes a problem. Many keyboard amplifier-speaker systems are designed primarily for tone-wheel organs, electric pianos, and similar instruments with little harmonic content. Such systems rarely have adequate high-frequency response for synthesizers. However a keyboard amplifier-speaker system with good speaker response to 12kHz or so is likely to meet all of our requirements for synthesizer sound production. If the speaker system itself is efficient, a 50- to 100-watt power amplifier will produce 2-5 acoustic watts, which is plenty for rehearsal or club work, while a 200- to 400-watt power amplifier will produce upwards of 20-25 acoustic watts, which is adequate for 95% of indoor gigs. When selecting an amplifier-speaker system for your synthesizer, it is a good idea to pick a few speaker systems that are efficient (that is, they sound just plain loud when fed with the output of a modest power amplifier) and then select the speaker from that group that sounds the smoothest and fattest. Use spec sheets as a guide, but rely primarily on your ear."
While I sincerely and gratefully thanks the late Robert Moog (and Estate) for the above extract and link, and much, MUCH more, I must add the topic is quite intriguing; I yesterday appreciated a full horns (army) band: trumpets, saxes, sousaphone, tuba, slide trombone... the sound, at about 20 meters, open air, was AWESOME: precise, straight, uncoloured, powerful, true...
Maybe I was listening to an hurting 2 acoustic watts!
This thought brought me to think about the wattage in our home audio systems - typically 20 to 100 or more r.m.s. watts... often solid state, class B watts...
... but, when talking about triodes and horns... a DHT/SET 845 amp gives about 24 watts, a 211's amp 15 watts, a WE 300B 8 watts, a 45 2 watts, a VT25A 1,8 watts... all the above power horses are able to drive speakers which, sometimes, sound muddy or false with 100 watts solid-state... they seems to be MORE powerful, truer to life!
Reading nothing new, don't you?!?
Strange is that the above mentioned figures are more akin real instruments "wattage" (acoustic watts): a grand piano is between 2 and 4 acoustic watts, a full orchestra is, during FFF, about 20 acoustic watts... sounds like real sounds - also if -10db vs. reproduced sounds - have some similarities... at least numeric.;-)
Seriously: if a properly designed/installed/fine tuned horns system is reaching peaks of, say, 105-110 db = about 1 acoustic watt, we just entered in "the real sounds realm" - i.e. true, uncompressed sounds like alive, in true everyday life - i.e. - less mind fatigue to rebuild the musical event, its dynamics and dimensions, a more relaxed listening experience, while cochlea smiles;-).
A case, chance or...
P.S. - sure a lot of people will continue to like and prefere a down-scaled, transistor-radio listening as more "confortable", less problematic and "easier"...
I noted on the picture that you run Sofia Electric 45 tube. Do you like it?
ReplyDeleteDefinitely "yes", Sofia's tubes are REALLY well, lovingly made and their sound is, indeed, first quality: detailed, quick, correct also if lacking some "romance", modern, yet still keeping their "tubey" character...
ReplyDeleteAlso great, re. 45s, having a virtually endless new production available, instead of having to deal with vintage, 50-60 years old tubes, expensive and, someway, fragile.
How long time do you use your Sofia 45? If you use them for a few years then did you detect any change in sound with Sofia 45 that would have a deferent tempo then it would be with vintage tubes? I mean does Sofia 45 age in the same grace as vintage tubes?
ReplyDeleteImpossible to say, Roman... tubes are only few weeks old, like my Balloon Sofia Mesh Plate 300B... great, great tubes.
ReplyDelete... but they really are giving hard times to (much more expensive and among the very best) Arcturus Blue 45s, IML(imited)E(xperience).
This all in Thomas Mayer's amps (transformers coupled design, using Lundhal's and Tango's irons).
Really informative. You looks like genius. :) Have you heard of hearing amplifier Sounds too good to be true, doesn’t it? Let’s see what we can find out on line.
ReplyDelete... mmmhhh... I don't think "hearing amps" to be "a" solution... they sure helps and supports the troubled or elder individuals, BUT Nature sure did a better job with cochlea and tinnitus, than virtually ANY electronic engineer, present or future... the trick, in my opinion, is in the balance the Ear as an organ/sense and hearing, as process... this cannot be enhanced or improved... IS, period.
ReplyDelete... then there is "experience" and "skill"... but it's something different.