Everyone,
I’m starting this thread since its parent has grown so large that it’s becoming unwieldy, and several responses have included comments that have morphed to tangent topics. I’m not attempting to “steal” anything so I wish to acknowledge the original thread: “Sensitivity of the new lines” posted by Russ on 3/11/2008: thanks, Russ, for your contribution. Also, I hope this post will provide explanation for a few areas not discussed in the original.
As you review this, keep in mind that the loudness (SPL dB), power requirements of the amp (watts), sensitivity of the speaker (XX dB @ 1 watt/1meter), and the impedance of the speaker (X ohms) are all independent measures when examined separately but, once the “action” starts, all of these threads become closely interwoven.
Respondents to this forum have posed questions concerning the sensitivity of Aperion’s new line of speakers, and have wondered why this spec appears low compared to the models they’re replacing. I’m not in a position to answer this but, I will state that for me, sensitivity (in days past referred to as efficiency) is an important consideration during my selection process. I’m not saying it’s the most important factor (how a speaker “sounds” to me will always be the determinant) but, if undecided between two models that I consider equal in all other meaningful areas, the one with the higher sensitivity will always be my choice.
Why?
Because lower levels of speaker sensitivity will significantly increase the power requirements for amplifiers attempting to deliver the same levels of loudness (SPL dB) when compared to models carrying a higher sensitivity rating.
By how much power? A bunch…and here are some reasons.
SPL, Sensitivity, and Watts
For most of us, an increase in SPL of around 3 dB is noticeable. I’ve also read that some golden-earned audiophiles can distinguish changes of 1-2 dB (I’m not one of them). Whatever your perception, a 3 dB increase in SPL for a given speaker requires a doubling of power delivered by the amplifier. At low-to-moderate volumes (SPL) this isn’t likely to be a problem since most AVRs can comfortably handle this demand. However, start turning the volume UP, and/or play something with some really dynamic swings in levels, and things can change in a hurry.
Here’s a baseline example for one speaker with a rated sensitivity of 83 dB (Model 83) when compared to another with a rated sensitivity of 92 dB (Model 92), and assuming both are measured at 1 watt/1 meter (the standard reference point for sensitivity published by reputable mfgs). The speaker’s impedance at this point is not a consideration (but might be later).
SPL Model 83 Model 92
(dB) (watts) (watts)
83 1 <1
86 2 <1
89 4 <1
92 8 1
95 16 2
98 32 4
101 64 8
104 128 16
107 256 32
110 512 64
112 1024 128
115 2048 256
Depending on a multitude of factors (how loudly you listen to your stuff, the size and volume of your listening environment, where you position your speakers, their proximity to reinforcing boundaries, the room’s furnishings, the room’s finish, and probably more.), momentary SPLs of > 112 dB may not be uncommon during musical “peaks” or, more especially, when experiencing movie “effects” And while both characterizations might be very short-term in duration, the power demands are real and immediate. It’s obvious from this example that low levels of speaker sensitivity require substantial amounts of amplifier power. And here’s another consideration (as if we needed more) that will increase power requirements for a given level of SPL: you’re probably listening more than one meter (~ 3 feet) from your speakers. All of these variables affect SPLs, and each of them can do so in a negative manner.
Regardless: for two speakers with an initial difference of 9 dB in baseline sensitivity (representing 8 watts max), once we start rockin’ (or thumpin’, or whatever), we’re now looking at 2,048 watts vs. 256 watts for speakers attempting to deliver identical levels of 115 dB SPL. Reality: less sensitivity = more watts.
Go price an amp of 1,000+ watts to one of 250+ watts and compare. Fact: more watts = more $.
This is one of the few examples I’ve ever found in which less means more ;-)
As info: 2,048 watts (more than two kilowatts, and within spittin’ distance of three horsepower) represents an eight-fold increase in power when compared to 256 watts. If you need this amount of power, I suggest you have a dedicated 120 VAC outlet with a 20 amp circuit breaker for your amp alone.
Impedance
SPLs of this magnitude (and wattage) will also challenge the most robust designs of amplifiers, and as you approach these levels of SPL your AVR’s power supply will need to begin delivering some serious current (amperage). And here’s where the speaker’s nominal impedance (measured in ohms) becomes important: since the transformer’s secondary voltage is fixed at a predetermined maximum level, speakers having a rated impedance of < 8 ohms are going to place more demands on the power supply since the ultimate power delivered is determined by the transformer’s ability to supply amperage (this is Ohm’s Law operating in one of its basic forms). Reality: low impedance = more current.
For two transformers having identical primary and secondary voltage, and differing only in their power rating (VA, or kVA, or Watts, determined by current output), the higher powered unit will have more of everything: heat, size, weight, windings of wire both primary and secondary, and larger gauge of wire. Compare costs. Fact: more current = more $.
If the AVR you’re considering (or already own) has a provision for setting the speakers’ impedance (via a switch, OSD menu selection, or some other means), there’s a reason for this: it’s probably current-limited and you’ll be engaging some form of protection to keep your AVR from harming itself (and your speakers) during exuberant use. If your AVR doesn’t have this provision, or some other warning specifically mentioning loads < 8 ohms, I wouldn’t be that concerned (meaning the mfg has probably furnished a power supply capable of handling any load between 4 and 8 ohms).
How does any of this matter?
If you have a large room with high/vaulted ceilings, heavily furnished (carpet, drapes, overstuffed furniture), need/want high levels of SPL, and are running full-range speakers having low impedance and low sensitivity (all of this describing a worst-case scenario), then be prepared to continue the more reality with even more $$, because everything mentioned applies in spades to your application.
If you’re budget-limited, be aware. If you’re not, or don’t mind building your system over time…then proceed with enjoyment.
Whatever your situation, my best advice is to find a high quality sub with built-in amplification: even a few hundred watts dedicated to a narrow band of response (< 100 Hz) will substantially reduce the power requirements of your AVR for the remainder of the spectrum (out to 20 kHz)…especially at elevated levels of SPL.
my experience
Excluding the sub, the foregoing accurately described my situation for ~ 15 years. During this period my system evolved from a basic receiver/2-speaker stereo (carryovers from the military, then college) to an elaborate system of separates employing multiple power amps and speakers. If I still had the space for all of this, I might not be visiting this forum…but I’d still be interested in a good, small sub (new Bravus line looks ideal for me…..right-on, Caleb!).
The two most eye-opening (ear-splitting?) exposures for me were EQ (won’t be discussed here) and efficient speakers. Beginning with 2 speakers having a sensitivity of ~ 88 dB (AR), and then adding another pair (Advent), it took me a few years to eventually wind up with a configuration having sensitivities of 92 dB, 94 dB, and 104 dB (Klipsch). During this evolution I lost many tweeters (six or seven replacements), all during my quest for SPL. Since I’ve discovered efficiency, in the past 20 years I’ve had to replace nothing. And trust me…I could entertain the neighborhood with this setup. And the EQ assisted greatly in making everything sound balanced and clean (and having nearly 800 watts RMS probably made some contribution to this as well). I spent a lot of money (according to my wife…and, yeah, I guess I did) during this period.
If I had it to do over, would I change anything? Yes…I’d grab efficient speakers from the get-go, and save some $$ on amplification.
Do I have any regrets? Absolutely not...this became my hobby and passion (one of them, at least), and I learned a lot during this journey. Plus…I’ve had a helluva’ lot of fun!
Stated differently…as Kris Kristofferson once observed: “the goin’ up was worth the comin’ down”. Amen, brother!
I hope this helps someone make a more informed decision.
Fred