Altec Model 19's
Concert Experience for $5k?
I have a budget of $5k for new/used stereo speakers.
I have a VPI turntable, PrimaLuna Dialogue preamp and a Cary Audio V12 tube amp. (yeah, the one with 12 EL34’s sticking out of it) I’ve got quality gear and plenty of horsepower.
I am chasing the rock concert experience. When you’re at a live show drums have a sharp attack and crack. Bass/kick drums have a punch you can feel. ....that’s what I want to feel when I play a live album.
Which speakers - new or used - would you recommend to recreate that rock concert feeling?
I have a VPI turntable, PrimaLuna Dialogue preamp and a Cary Audio V12 tube amp. (yeah, the one with 12 EL34’s sticking out of it) I’ve got quality gear and plenty of horsepower.
I am chasing the rock concert experience. When you’re at a live show drums have a sharp attack and crack. Bass/kick drums have a punch you can feel. ....that’s what I want to feel when I play a live album.
Which speakers - new or used - would you recommend to recreate that rock concert feeling?
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- 50 posts total
where?tell me:)? I want them too I just got my hands on a pair of Krell Resolution 2 speakers from Highperformancestereo and I am absolutely mesmerized at how F--kin great these speakers are for all music tastes. They actually deliver a better experience than my Wilson Sophia's, W/P 6's, Dynaudio C4's or my recent B&W802D2's. Spectacularly dynamic and soundstage like crazy with no roll off on either end. I got mine for &3300 |
almarg, curious about a response of yours. You indicate that in the case of the GET Triton One's the amp wouldn't be a good match because (paraphrasing) the higher amp output impedance and the speaker’s variation of impedance would be an under-emphasis of the mid-bass region, and excessive brightness in the upper mid-range.
Why should the impedance mismatch yield any different sound characteristics in the T1s than if it were paired with an amp whose impedance was an exact (no such thing I know) match? If the impedance of the GE T1s are low with respect to the amps "preferred" impedance, this should manifest itself as additional current being drawn from the amp and not necessarily anything audibly undesirable. Granted, to much current draw is itself undesirable. |
I mix concerts professionally (generally smaller jazz, classical, or folkie stuff) and I can't imagine why anybody would want the "concert experience" in their home. The sound is "dual mono" (with light stereo reverb sometimes to make the crowd think they feel better) because if you used a stereo mix you'd have to make the crowd sit in the middle…uncomfortable to be sure, and although the live show can sound excellent (when I mix it always does), it's a different animal. Louder large shows might provide more bass kick than you're used to at home, but get a sub and that difference is covered, generally with more accurate tone. You don't want 115 db at home unless maybe you're drunk and dancing, in which case a small pro PA system is what you need…along with ear plugs. |
Hi Gdhal, I’ll begin my answer to your question by referring you to this Wikipedia writeup on voltage divider networks: https://en.wikipedia.org/wiki/Voltage_divider In the first figure, consider Z1 to be the amplifier’s output impedance, Z2 to be the speaker’s impedance, Vout to be the voltage seen by the speaker, and Vin to be the voltage the amplifier would be putting out if no load were connected (putting aside the fact that tube amps should not be operated without a load). Vin, in other words, corresponds to the voltage provided to the amplifier’s input at any instant of time multiplied by some gain factor. If Z1 is significantly greater than zero (i.e., if it is 1 or 2 or several ohms, as is the case for most tube amps), and if Z2 (the speaker’s impedance) varies significantly over the frequency range, then since (as shown in the writeup): Vout = Vin x (Z2/(Z1 + Z2)) ... it can be seen that for a given input voltage to the amplifier the speaker will see a voltage that varies significantly depending on the frequencies which comprise that input voltage. In this situation (Z1 high, Z2 varying significantly as a function of frequency), the result (compared to a situation in which Z1 is negligibly small, as is the case with most solid state amplifiers) will be increased voltage and hence increased emphasis of frequencies for which speaker impedance is high, and decreased voltage and hence decreased emphasis of frequencies at which speaker impedance is low. In other words, the frequency response of the signal provided to the speaker will be significantly non-flat. The resulting tonal balance will still be essentially correct, however, if the amplifier’s output impedance is in the area of what the designer of the speaker was anticipating the speaker would be driven with. But since few amplifiers have output impedances as high as the OP’s, especially if its higher powered ultra-linear mode is being used (the main exceptions probably being some very low powered SETs), it is safe to assume that a considerable majority of speakers are not designed with the expectation that they will be driven from such high output impedances. As I indicated previously, though, if a speaker has a relatively flat impedance curve (in contrast to the Triton One) its tonal balance will vary much less dramatically as a function of amplifier output impedance, and the choice of suitable amplifiers will be much broader, everything else being equal. I’ll add that none of this necessarily has anything to do with the musical resolution of either the amplifier or the speaker. As I’ve said in a number of past threads, the ability to resolve musical detail and the ability to resolve hardware differences do not necessarily correlate with each other. I hope that clarifies more than it confuses :-) Regards, -- Al |
- 50 posts total