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So, let's hear some recommendations for speakers that support low wattage playback.
Are there now any low-colored, high efficiency (say 95 dB/w/m), full range (F3 of at least 30 Hz) loudspeakers?
Imo what makes low wattage systems so special is that the amps have little or no global negative feedback, and the speakers have negligible thermal compression so their "voicing" doesn't changed with level.
Thanks for the reality check Duke. So would you happen to be cooking up for something along this line (F3 = 30 Hz, 95 dB/w/m, uncolored)?
A couple of years ago you offered a 99 dB/w/m, 8 ohms nominal, 20 - 20,000 Hz, $6,000.00 system consisting of Planetarium Delta 15 mains (15 inch woofer, horn tweeter, rear firing "ambience" tweeter in a large stand-mount format), and 4 "swarm" subs with amp.... The Planetarium Delta 15 system seems a bit daunting for the my mellow (aging) taste, 8 ft x 13 ft x 21 ft study, and worries about system/tube noises at higher efficiencies. I'd have to reconfigure my study from a listening/office space to a dedicated listening room to accommodate the full Planetarium Delta 15 system and I'm not prepared to do that as long as I'm still doing part-time consulting.
At that time you also mentioned kits (without the "ambience" tweeter but with options for larger cabinet to drop response without the "swarm" down to 30 Hz. And recently you hinted at a newer version coming to 2015 RMAF. (Sorry I missed you at 2015 Axpona, we did stop in but didn't see you there, had a buddy with me, it was quite busy, and lots of ground to cover in a day.)
While I've read Toole and appreciate your ideas including the "swarm" do you have anything in mind that would less impactful to ears, room, system, and wallet while reaching my goals?
Yay! Somebody else answered the original question. (Good answer too.)Freo-1 and JLM,Do you guys really want to create a list of speakers for low watt amplifiers in this thread? That seems like it would be a different thread altogether. Why not start a new one about speakers or add to this one http://www.audiocircle.com/index.php?topic=105328.0Or maybe you are saying that it is the speaker which makes low watt systems special. Ok, I can respect that opinion even though I do not agree with it.JLM,You keep using the word uncolored. How can we possibly agree on what is colored and what is not colored? What you consider uncolored is what someone else may consider difficult to listen to, or vis versa. And is there really such thing as an uncolored speaker? Who makes that determination? What about musical enjoyment? How do we get a consensus on that?Also, I think you are looking for a speaker that does not exist. Just a guess.
One thing I forgot to mention is this: The effect of a low-damping-factor amplifier's output impedance on the woofer's effective electrical Q (Qes) can, in some cases, be exploited as a sort of "free lunch" to get more low-end output than we otherwise would have. If we can tailor the box tuning accordingly, we can get as much as 1/3 octave deeper bass extension. However the same amp-speaker interaction mechanism can result in fat or bloated bass when a speaker designed for solid state is driven by a low-damping-factor tube amp (the devil is in the details). Typically the amp gets blamed, but it's really a system mis-match issue; the same speaker or same amp would work just fine with a more appropriate partner.
Hey Duke,what are you talking about,system match comes from good components say a good amplifier and a good speaker,there is nothing electrically mismatch there, Qes is for speaker design specs,the amp has to make sure the audio signal is right,first time i have heard an amp design has to take Qes into consideration in the design of an amp,Duke a speaker is a load to an amp!!!remember that!!! if a speaker sounds good has nothing to do other than the speaker itself first and foremost.I dont agree with you on this
You are on the right track to observe that the speaker is simply the load for the amp, but the missing piece of the puzzle is, not all amps behave the same. Most solid state amps approximate a "voltage source" - that is, they tend to deliver constant voltage into the speaker's impedance curve. Most tube amps approximate a "power source' - that is, they tend to deliver constant wattage into the speaker's impedance curve.It is possible to design a solid state amp to behave like a tube amp, and vice versa, but we're going to ignore those exceptions for now.So suppose we have an 8-ohm speaker whose impedance curve has a 16-ohm peak at the 50 Hz bass system resonance, a broad 6-ohm dip between 150 and 400 Hz, and a 24-ohm peak at the 3 kHz crossover frequency (a 4-to-1 spread in the impedance curve is about normal). Let's assume the amp (either one) is putting out 1 watt (2.83 volts) into our speaker's nominal 8-ohm load.Into this speaker's impedance curve, our solid state amp puts put 1/2 watt at 50 Hz, 1.33 watts from 150 to 400 Hz, and 1/3 watt into 3 kHz crossover region. But it's okay - the speaker was designed with that kind of amplifier behavior in mind.Now let's drive this speaker with a tube amp that puts out 1 watt across the board into whatever impedance the amp presents. Compared with the solid state amp, when driven by a tube amp this speaker is 3 dB louder at 50 Hz; about 1 dB softer from 150 Hz to 400 Hz; and 5 dB louder at 3 kHz. We are very likely to conclude that tube amps are terrible because now our speaker is boomy in the bass, weak in the lower midrange, and screams like a banshee in the lower treble region, right where our ears are most sensitive! On the other hand, if this speaker had been optimized for tube amps, we'd conclude that the solid state amp was terrible. The way to design a speaker to work well with both amp types is, keep the impedance curve as smooth as possible and, if it's a ported box, allow for user-adjustable port tuning. While my example made some simplifying assumptions, the basic concept that it illustrates is quite valid. I've measured the frequency responses of speakers in the design stage and they follow the pattern described above according to what type of amp is used. The real-world differences are usually not as severe as in my example but are still enough to very significantly change how the speaker sounds.Now you don't design an amp for the speaker's Qes, but if we know in advance that a speaker will be used with an amp that has a low damping factor, we can calculate how much that changes the effective electrical Q of the woofer (which showed up in the example above in the 3 dB bump at the 50 Hz system resonance), and design the speaker enclosure accordingly. Suppose our zero-global-feedback SET amp has an output impedance of 4 ohms, giving it a damping factor of 2 (referenced to an 8-ohm load). And suppose our "8 ohm" woofer has a Qes of .30, and a DC resistance of 6 ohms. The new effective Qes of the woofer, when driven by that SET amp, is ((4 + 6)/6) x .30 = .50, which is quite a bit higher, and would call for a different tuning strategy for best results. However when the dust has settled, we might well end up with usefully deeper bass extension. The reason people go to the trouble to find speakers that work well with these strange low-powered tube amps is, their distortion profiles are much more benign to the human ear as long as they aren't pushed into hard clipping, even though on paper their distortion measurements look a whole lot worse. Briefly the metric used to measure amplifier distortion, THD, is a dismal failure at predicting subjective preference, but that's another subject for another day.
When you say ss put voltage and tube puts power,I dont agree with you,because both supply power to the load,Duke dont take it personally,you're very good at speakers,but this i still dont agree with you on this..
George, since you disagree with what I've said, are you taking the position that tube amps and solid state amps behave identically into whatever impedance curve the speaker presents?
Yes, if the zout of both is =<10th the speaker load
I think I now see where our opinions diverge. The Zout of many specialty tube amps is > 1/10th the speaker load. The examples in my long post above are in the ballpark in that regard, in particular the 4 ohm Zout described in the second to last paragraph.
What is the "Low Watt" threshold in place here for this question? Are we talking 2 watts, or 50 watts?
