May be my question to AVUser in post#41 is not clear and I should add the following background info in the linked article (wrapped in quote)
A question that frequently comes up when designing a home theater is 'how powerful an amplifier do I need?'. The answer to the question depends on a few things, in particular how sensitive your speakers are and how far you sit away from them. When we design a home theater we want it to meet...
www.acousticfrontiers.com
So clearly the writer was counting on the 3 dB crest factor, the peak to average ratio of a sine wave that represents Power, the product of voltage and current to make his point about the 3 dB build in headroom that he thought we did not know about when using some of those online calculators such as Crown Audio's.
My question is, is the THX reference level of 85 dB + 20 dB peak based on the peak of the sine wave, or the average?
Before we answer the question, I suggest we consider at least the following points:
1). When we measure spl with a spl meter such as Radio Shack popular 33-2055, we set it to "C" slow right, so won't we be measuring the average? Likewise, when our AVR/AVP/AVC are calibrated to produce the reference 85 dB at volume "0" from our main mic position, that 85 dB would have to be "average", not "peak" right?
2). Now if we add 20 dB on top to allow for the "peak", wouldn't that "peak" literally mean the spl recorded during the highest level measurable by a spl meter or program/mic in the same way, that is, based on something like "C" weighting slow? In other words, we would still be talking "average" over a second or so, and that 20 dB "peak" simply elevate the average (over say 1 second +/-...) from 85 dB average to 105 dB average, sort of saying 85 dB is the prolonged average spl while 105 dB is the short duration/or "peak average"?? Yes I know "peak average" sounds very weird
, but I use for lack of a better expression that I can think of right at this moment.
3). "peaks" in movies are likely set by the low frequencies often produced by subwoofers capable of 115 dB at 1 meter distance anechoic. If we look at the 80 Hz sine wave, the crest peak would happen twice (positive and negative) per cycle and the duration of one complete cycle = 1/80 or 0.0125 second. That is, if we are counting on the amplifier's output voltage sine wave peak, you will get the 105 dB spl for a very tiny fraction of the 0.025 second duration that is for the whole ONE cycle of the wave!!
So it seems to me THX's 20 dB peak likely means the average of at least one half cycle of a sine wave during the maximum level recorded in a movie, but not the 3 dB peak of that same one sine wave that last for a few milliseconds. In fact, I doubt any of us has a spl meter that can measure that 3 dB peak resulted from the crest top of a sine wave. "C" weighting fast apparently is not faster than 0.125 second, that's not even fast enough to capture the average of one single 80 Hz sine wave.
I search the THX website extensively for a clear definition and measurement methodology for the 105 dB peak SPL to no avail, but I did find something sort of related under the heading TASA certification. See below:
Frequently asked questions and answers for everything THX related.
www.thx.com
To receive TASA compliance certification, the final measurement must not exceed the TASA upper volume limit of 85 Leq(m). Leq(m) measures decibels over time, creating an average, whole number.
Am I out to lunch on this, regarding AF's claim I quoted above, or may be he is?
And I would appreciate it if someone can provide a link to the methodology for measuring the THX required 85 dB SPL and 20 dB peak. Without that, all we know from their website is something like:
THX Certified Receivers reproduce studio Reference Level, 85dB SPL with 20dB of headroom.
