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Art Noxon is a fully accredited Acoustical Engineer with Master of Science degrees in Mechanical Engineering/Acoustics and Physics. A Professional Engineer since 1982, he is licensed in Oregon to practice engineering in the public domain with the specialty area of acoustics. A prolific inventor, he developed and patented the iconic TubeTrap, the original corner-loaded bass trap/treble diffuser, 150 other acoustic devices and counting. Lecturer, writer and teacher of acoustics, he has presented 7 AES papers, numerous magazine articles, white papers and blogs. He is president of Acoustic Sciences Corporation, the company he founded in 1984.

Why Audiophiles Need to Care About Room Acoustics

Art Noxon

reprinted with permission from

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Audiophiles are dedicated to the improvement and refinement in the quality of the sound they hear from their sound systems. They change interconnects and listen for improvements. They change components and listen for improvements. They usually use familiar recordings as a reference to help them determine if there are improvements.

A good part of how a system sounds depends on its setup and speaker position. An equally important aspect of the set-up is how close the speakers are to the front and side walls of the room, as well as how close the primary listening position is to the back wall. Eventually most people discover there is more to how the system sounds than merely its geometry of the listening room.

When an upgrade is made in a system a perceptible improvement in sound quality is usually delivered to the listening position, which justifies the investment. As the upgrade process progresses, eventually a better piece of electronics that "should" have made a noticeable improvement, doesn't. Here's where the evolution of the audio system often grinds to a halt.

Product reviewers may have given a new piece of gear raves, but what happens if it doesn't make any difference at home? Is there a problem with the equipment, manufacturer, dealer or reviewers? Probably not, but the audiophile may have reached a performance plateau. From this point on any further electronic attempts to improve a system will remain inaudible.


Lacking the ability to detect any further improvements in their system, audiophiles frequently resort to entertaining upgrades that may not necessarily "improve" the system's performance, but do create detectable changes in the performance. However these artifact styled "improvements" become boring after a while, because they add the same accent to all music, making it sonically one-dimensional.

For most audiophiles hitting the upgrade wall is a big disappointment. They hear better performing systems in other rooms, but since they can't seem to get their system to perform better. Faced with this dilemma some audiophiles resign themselves to their lackluster systems as defining the end of the road. They give up on the idea of trying to get better sound.

Let's take a look at what is really going on.

If program material is buried too deep in the noise floor, no one can hear it, even though it is there. The noise of an LP record creates a noise floor that is about 40 dB below the main signal level. Tape machines are better, with a tape hiss noise floor that was about 60 dB below the main signal level. And with digital, the signal to noise ratio can be 100 dB or more.

The problem is never about hearing or not hearing the main signal. The problem is hearing the subtle detail within the signal. The main signal will always have a strong tonal presence that combines with dozens of lower level partials or overtones. Some overtones are very low in level. When audiophiles listen over quality headphones even these quiet musical details are readily apparent. But when the same selection is played back through a room-based sound system, these quieter musical details disappear, rendering the playback less involving.

Through reading, web forums and discussions with friends some audiophiles begin to imagine that the problem might not be with the electronics of the system, but with the acoustics of their room. The room acoustic is creating a higher noise floor that is masking the fine, low level musical detail.


A sound meter shows that music is typically played at a level of about 75 dB, A-weighted, It also shows that the background noise floor in the room, with all the music off, is about 25 dB A-weighted. That means there is a 50 dB signal to noise ratio in the room acoustics. This is the steady state signal to noise ratio.

The problem with listening to sound in a room is that once we hear the sound, it continues to be reflected around the room until the sound dies. And music isn't merely one sonic event followed by a reverberant decay. There are, on average, about eight separate dynamic sonic events per second, each of which is followed by their own reverberant decay.

In small room it takes, on average, at least one second for a particular sound to die down enough so it becomes inaudible. Playing music in small rooms increases the self-noise floor, which is made up of the various reverb levels from the music that's been played during the previous second. The strength of this self-induced noise floor can equal or exceed the strength of the direct signal.

When audiophiles listen to a recording over good headphones they experience a signal that has a very quiet background noise floor. But the same program material played in a listening room produces a 0 dB to -5 dB signal to self-noise ratio. Low-level musical detail typically exists in the range of -20 dB. Over headphones, low-level details remain audible, but in a room these details are buried in the room's acoustic self-noise floor.


Audiophiles work on room acoustics because beyond a certain point in the evolution in the performance of their audio system reducing the room acoustic self-noise floor in the room becomes the only possible improvement they can make.

But the ironic thing is that it's not until after room acoustic upgrades are finished, that further improvements in the electronics become audible. But audible progress occurs only to that point where the room's self-noise floor again has to be addressed. And back and forth it goes, alternating between electronic upgrades and room acoustic upgrades, continually stepping forwards towards perfection in high-end audio

Art Noxon is a fully accredited Acoustical Engineer with Master of Science degrees in Mechanical Engineering/Acoustics and Physics. A professional engineer since 1982, Mr. Noxon is licensed to practice engineering in the public domain with a specialty area of acoustics. He is the inventor of the TubeTrap, the original corner-loaded bass trap with built-in treble diffusion. He is the president of Acoustic Sciences Corporation.