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Speaker wattage question

I'm new here, so I hope I'm posting this in the appropriate forum.
I am running KEF LS50's with a Parasound Integrated amp. The amp is rated at 165 WPC @ 8 ohms. The speakers are rated for 25-100 watts (and are possibly lower than 8 ohms according to some sources).
If pushed, do I risk damaging a driver, or will I simply get clipping?
Any help appreciated and please pardon my ignorance on something I'm sure is common knowledge.
chrisg1000
bombaywalla's avatar
bombaywalla
1,957 posts
 
inna2,182 posts08-11-2016 5:49pmWhy do speaker manufacturers put it in the specs when you can possibly drive anything with 1000wt of clean power?

Inna, i think that you misunderstood. You can drive any speaker with 1000W/ch but it does not mean that you can crank up the volume indefinitely. If you do, you will fry the tweeter & eventually the woofer. So, you can use a 1000W/ch amp, just be careful of where the volume knob is & do not exceed the manuf's speaker wattage upper limit. it's not so much about "clean" power i.e. just because it's clean it wont damage the speaker. No, not true.

inna
5,245 posts
 
If the speakers are rated to be able to handle 200 watt/ch continuously and I am using 1000 watt/ch amp, how do I know where those 200 watts are, speaking of volume? 
erik_squires
5,268 posts
 
@inna

The SPL at a listening location is a function of the speaker sensitivity, room acoustics and distance from the source.

You could measure the SPL at 2.83 volts (1w/8 ohms) with the mic at the listening location and then do math from there if you really wanted to. :)

Divide your maximum RMS voltage by 2.83 and convert to dB. Add this to the SPL measured at the listening location and voila, you have your maximum SPL.

bombaywalla's avatar
bombaywalla
1,957 posts
 
inna
2,183 posts
08-11-2016 10:46pm
If the speakers are rated to be able to handle 200 watt/ch continuously and I am using 1000 watt/ch amp, how do I know where those 200 watts are, speaking of volume?
what erik_squires wrote is correct. 
Another method to do the calculation is as follows (you'll find this in several other of my posts in other Audiogon threads):

Say, your speaker is 90dB SPL at 1W, 1m & your speaker is 8 Ohms.
Since it's 8 ohms we are sure that 2.83Vrms into 8 ohms produces 1W of input power.
The SPL with drop by square of the distance from the speaker.
So, if you are listening at 3m (~10' away), the resulting SPL = 81dB.
There is approx 3db loss due to furniture, curtains, carpet, walls absorption.
There is a 3dB increase due to listening in stereo. So, the absorption & stereo effects essentially cancel out. 
You have 81dB SPL at 3m using 1W.
you have 91dB SPL at 3m using 10W.
you have 101dB SPL at 3m using 100W.
you have 104dB SPL at 3m using 200W.
you have 111dB SPL at 3m using 1000W.

using the metric above & your RadioShack SPL meter you can gauge when you have reached the 200W mark approximately (pretty decent approximation). Does this make sense?
larryi
1,972 posts
 

The power recommendation given by the manufacturer is just a rough guide of the kind of amplifier that should be used with the speaker.  Those numbers do not necessarily mean that the speaker is capable of operating at sustained levels as high as the top wattage rating.  The top end number is probably chosen to limit the possibility of damage even from short term events, such as a loud accidental pop, and I highly doubt that a speaker like the LS50 can take 100 watts for anything but the shortest period of time.  I would not want to put too powerful an amp on a speaker for fear that some event might cause such accidental large transients that could damage the speaker even though I would never actually try to run the speaker anywhere near the full output of the amp.

While it is most common to damage speakers with sustained levels of high output (overheating the voice coil), one can also damage speakers with very strong short-term transients.  I recently spoke with someone who damaged a tweeter by playing a classical recording that had extremely wide dynamic range (I have a few of these, and they come with a warning about the dynamic range), while not playing them at a very high average volume.

As to the idea that one is more likely to damage a tweeter with an underpowered amp driven into clipping than by excessive clean power from a too powerful amp, I spoke with a manufacturer who said that, by far, there are more instances of damage from use of too powerful amps than from clipping underpowered amps. 

I would personally stick with amps more toward the lower end of the recommended power range because I don't do that much loud listening and I find that lower-powered amps tend to sound better than higher powered amps, provided that the speakers are suitable for the lower-powered gear. 

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