better able to handle dynamic swings even at low levels
Why are high efficiency speakers preferred for low volume listening?
I am sure that this is a very basic principle, but as I peruse the speaker section I frequently see high efficiency speakers suggested for those who listen at "low levels." And is this another area that actually is "how easy the speaker is to drive (as related to its nominal impedance)" that is more important than the actual sensitivity number?
And for an example of what I am asking with that last sentence, I seem to remember when I was window shopping for speakers, seeing some Harbeth speakers at TMR with a sensitivity rated below 87 (I think they were rated at 86 or 85) but being referred to as "an easy load to drive." So would that mean that the Harbeth speakers would be good for low volume listening?
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@immatthewj Wrote:
I think it's because of milliwatts that a lot of amps produce higher distortion when operating at the milliwatt level. From Quicksilver website: ''The Horn Mono Amplifier is designed specifically for use with very efficient loudspeakers. It has extremely low noise and distortion as well as having 18db less gain than Quicksilver’s standard amplifiers. This avoids the noise and gain problems that normally appear when using horn speakers. The amplifier is designed to sound good at the extremely low levels (milliwatts) that horn loudspeakers require. Many amplifiers actually have higher distortions at these low levels.'' See old post below: ditusa1,791 posts @celestial__sound Mike |
I am curious about this myself. I have KEF Reference One’s, which are not efficient, and years ago I had Klipsch Heresy’s, which are very efficient. Is it that high efficiency speakers are more “lively”, or was that just the horns on the Klipsch doing that? If I were to upgrade my speakers, I would probably look for something a bit more lively. |
You cannot generalize, but consider that highly efficient speakers are likely to involve horns, the throat/directivity of horns give dispersion control cones do not. i.e. smooth ’received’ frequency response curve at the listening position (not just 1 meter away), the different relationship of direct primary and reflected sound waves the perception of any frequency, and clarity of instantaneous peaks is/are enhanced when less reflected sound waves are involved. dispersion, not volume |
I doubt that high efficiency speakers and good low level detail are absolutes. It’s likely more important that things like the amp being a good match to drive the speaker impedance, the system has good resolution, and that phase coherency and overall clarity of the speakers are excellent, along with a suitable room acoustics, etc...all are still significant factors regardless of the speaker efficiency. Audio is complex, and it’s rarely as simple as isolating one parameter and calling it good. There are always good and bad examples and pros and cons with every principle you can name, and every choice you can make. |
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