Higher sensitivity - more dynamic sound?


Benefits of higher sensitivity- other than loudness per watts available?

ptss

@audiokinesis 

Thanks for your informative post.

Stereophile’s attempt into debunking thermal modulation doesn’t surprise me.. 

I know Doug Button, one of the brilliant engineers of the late 80s and 90s who led us to a series of higher output JBL drivers called "vented gap" which enabled dissipating higher heat which enabled higher SPL (and more reliable live sound systems with fewer boxes producing the same output). These were no home hifi drivers, but Live Sound drivers.

This whole efficiency argument is twisted by marketing. If you ask a designer like Billy Woodman at ATC (who is on Dougs level), he will tell you if you want additional low end from a driver, you can optimize it for more bass but the efficiency will decline. So a lower efficiency driver may have a better performance from a bandwidth perspective and may indeed be desirable. This is what folks like ATC and B+W and Magico do to get superior bandwidth. Its a choice, not a mistake; this choice does not improve or decrease dynamics- the size amp you mate it with does. 

Its the combination of efficiency and power handling of the driver that determine dynamic range.

So your 102dB 1w/1m speaker may not have such good dynamics with a 20W amp if 1W= 102dB SPL then .2W=105, 4W =108, 8W =111, 16W=114dB SPL and we are out of [low distortion] power.  That’s 12dB of dynamic range!  That's not even equal to the dynamics of vinyl.

So now compare a speaker with 86dB 1w/1m:  2W = 89dB, 4W = 92dB, 8W=95dB, 16W = 98dB, 32W =101dB, 64W=104dB, 128W= 107dB, 256W = 110dB SPL!  So the 86dB 1/1m speaker on a 250W/ch amp has 24dB of dynamic range! That's a huge increase when you take into account the log level nature of dB SPL, ideas such as 10dB SPL is considered twice as loud.  12dB dynamics is never better than 24dB dynamics, under any measurement or circumstance.  

Don’t drink the high efficiency kool aid kids!

Brad

 

 

 

@lonemountain

This whole efficiency argument is twisted a bit by marketing. A designer liek Doug will tell you if you want additional low end from a driver, you can optimize t for this but the efficiency will decline.

That’s a matter of size, not that you can’t mate efficiency with extension on principle. My tapped horn subs 97dB sensitive and will do ~127dB’s at the tune, which is 22Hz. 20cf. volume per cab - that’s (one of the reasons) why.

So your 102dB 1w/1m speaker may not have such good dynamics with a 20W amp if 1W= 102dB SPL then .2W=105, 4W =108, 8W =111, 16W=114dB SPL and we are out of [low distortion] power. That’s 12dB of dynamic range! That’s not even equal to the dynamics of vinyl.

Why would you limit the power to 20W for this example? Only suits your argument. I have a 97 to 111dB sensitive subs to main speaker setup powered actively by ~2.5kW total - problem solved.

So now compare a speaker with 86dB 1w/1m:  2W = 89dB, 4W = 92dB, 8W=95dB, 16W = 98dB, 32W =101dB, 64W=104dB, 128W= 107dB, 256W = 110dB SPL!  So the 86dB 1/1m speaker on a 250W/ch amp has 24dB of dynamic range! That's a huge increase when you take into account the log level nature of dB SPL, ideas such as 10dB SPL is considered twice as loud.  12dB dynamics is never better than 24dB dynamics, under any measurement or circumstance.  

That's being creative. Not only will you have to deal with peak power compression effects here but long term power compression as well, which in effect limits the available dynamic bandwidth. May look good on paper, but..

Duke, nice post on thermal/mechanical driver compression. It’s an esoteric topic, but almost every transducer designer has to come to terms with what steps to take in their driver design to cope with heat, bandwidth, efficiency and intended performance. I know the ATC driver designs are remarkable, such as short coil/long gap, in lowering distortion while maintaining a wide dynamic range.  Some of the live sound driver designs these days are insanely good.