Audio equipment testing

Audio equipment testing is the measurement of audio quality through objective and/or subjective means. The results of such tests are published in journals, magazines, whitepapers, websites, and in other media.

Those who test and evaluate equipment can be roughly divided into two groups: "Objectivists", who believe that all perceivable differences in audio equipment can be explained scientifically through measurement and double-blind listening tests; and the "Subjectivists", who believe that the human ear is capable of hearing details and differences that cannot be directly measured.[1]

Summary of Objective versus Subjective Audiophiles, in general:

Objectivists

Objectivists believe that audio components and systems must pass rigorously conducted double-blind tests and meet specified performance requirements in order to validate the claims made by their proponents.

British audio equipment designer Peter Baxandall, who is often considered an objectivist, has written, "I ... confidently maintain that all first-class, competently designed amplifiers, tested under completely fair and carefully controlled conditions, including the avoidance of overloading, sound absolutely indistinguishable on normal programme material no matter how refined the listening tests, or the listeners, may be; and that when an inferior amplifier is compared with a very good one and a subjective quality difference is genuinely and reliably established, it is always possible, by straightforward scientific investigation, to find a rational explanation for this difference." Baxandall also proposed a "cancellation test", which he claimed would prove his point.[5]

Subjectivists

Subjectivist Harry Pearson, long-time editor of the audiophile magazine The Absolute Sound has stated:[6]

"We believe that the sound of music, unamplified, occurring in a real space is a philosophic absolute against which we may judge the performance of devices designed to reproduce music."

Some audiophile equipment designers and consumers are obsessed over seemingly irrelevant details. Many components, for instance, are able to reproduce frequencies higher than the limit of human hearing—20 kHz.[8] Some sources, such as FM radio, will not reproduce frequencies higher than 15 or 16 kHz.

Subjectivists claim that experienced listeners can be relied upon for valid advice on how equipment sounds. British Hi-fi critic, Martin Colloms, writes that "the ability to assess sound quality is not a gift, nor is it the feature of a hyperactive imagination; it is simply a learned skill", which can be acquired by example, education and practice.[9] In any event, the eventual purchase decision will be made by the end-user, whose "perception is reality" and can be influenced by factors other than the equipment's actual performance.

Opposing viewpoints

The most significant difference between the two groups is that subjectivists claim there is a limit to what can be tested using objective measurements, while objectivists believe that since blind testing is the gold standard of all science, perceived sound quality should not be exempt from objective measurements.

Objectivists tend to see the subjectivists as irrational and prone to gullibility, while subjectivists often dismiss objectivists as simple "meter men" who lack a nuanced appreciation of sound.

Although the debate can be heated in certain quarters, both groups seek optimal listening experiences, and in some cases, the findings of one group has informed the other.

Main article: Tube sound

Objectivists argue that vacuum-tube amplifiers often exhibit lower-fidelity than solid-state designs, and that in addition to their substantially higher total harmonic distortion level, they require rebiasing, tend to be less reliable, less powerful, generate more heat, and are usually more expensive.

Subjectivists are often argue that while tube electronics are less linear than solid-state electronics at high-signal levels, they are much more linear at low-signal levels (less than one watt) and that many musical signals spend much of their time at these low levels.

However, in cases where the subjectivists' claims can be verified by objective measure, it could not be considered a strictly "subjective" position. A more literally subjectivist argument is that listeners may be able to discern pleasurable benefits from tube equipment that would escape any attempt at objective measurement.

Objectivists claim that digital sound can have higher fidelity than analog sound because it lacks clicks, pops, wow, flutter, audio feedback, degradation, generational loss, and rumble, has a higher signal-to-noise ratio, has a wider dynamic range, has less total harmonic distortion, and has a flatter and more extended frequency response.

Subjectivists have argued that the process of converting a bit-stream to an analog waveform requires heavy filtering to remove spurious high-frequency information and that it should be expected that such filtering should involve some signal degradation and a large amount of phase shift in the passband. They point out that commonly used consumer-grade digital-to-analog converters (DACs) exhibit poor linearity at low levels.

Both of these problems have since been verified by objective measure, and were then addressed by such solutions as digital filtering, oversampling, and the use of DACs operating at 20-bit (or higher) resolution.

Today, many objectivists and subjectivists may agree that a preference for analog formats is often rooted in pleasing and familiar distortions and artifacts. At the same time, members of both camps might also agree that the best historical analog formats have often displayed great levels of audio fidelity as well.

Main article: Sampling rate

Musician Neil Young is a harsh critic of the sound of the original CD format, but has expressed approval for the sound of higher definition formats such as SACD, which he believes has a greater safety margin between its ideal behavior and the theoretical limits of human hearing.

However, many independent listening tests and mathematical studies have shown that Young's assertions are basically untrue.[10][11] Regardless, in 2011, Neil Young filed paperwork to trademark his own developing high-resolution audio player.

Main article: Harmonic Distortion

Objectivists and Subjectivist were once at odds about the importance of total harmonic distortion. Both groups now seem to agree that the distribution of harmonic distortion can be important in perceived sound quality. This is another case where subjective opinion was eventually verified by objective measure, and taken into account by objectivist engineers.

Although this is no longer technically a point of contention, objectivists may be more likely to stress the importance of reducing total harmonic distortion in a system, while subjectivists may more often stress the importance on creating a more pleasing distribution of harmonic distortion.

Difficulty of testing

It is difficult, but very important, to match sound levels before comparing systems, as minute increases in loudness—more than 0.15 dB[12] or 0.1 dB[13]—have been demonstrated to cause perceived improvements in sound quality.

Listening tests are subjected to many variables, and results are notoriously unreliable. Thomas Edison, for example, showed that large audiences responded favorably when presented both live performances by artists and reproductions by his recording system,[14] which today would be regarded as primitive in quality.

Similarly, results of component evaluation between various listeners or even the same listener under different circumstances cannot be easily replicated or standardized.

Similarly, the acoustic behavior of the listening room—the interaction between loudspeakers and the room's acoustics—and the interaction between an electromechanical device (loudspeaker) and an electronic device (amplifier) are subjected to many more variables than between electronic components. Thus the "difference" in sound quality between amplifiers is actually the ability of an amplifier to interface well with loudspeakers or a lucky combination of loudspeaker, amplifier, and room that works well together.[15]

The introduction of switching apparatus, with either metal connection (mechanical switches) or electronic processing (solid-state switches), may, some believe, obscure the differences between the two signal sources being tested.

Skepticism advocate James Randi has offered a $1 million prize to subjectivists who can prove their most dubious claims through scientific blind testing. The prize remains unclaimed.

See also

References

  1. "Basic Issues of Equipment Reviewing and Critical Listening: Our Present Stance," Peter Aczel, The Audio Critic, issue number 16, page 31 (PDF page 25), accessed 2007-05-18.
  2. Ian G. Masters (September 1, 2002). "The Ongoing Debate about Amplifier "Sound"". mastersonaudio.com.
  3. Paste This in Your Hat! - What Every Audiophile Should Know and Never Forget, Peter Aczel, Biline.ca, Accessed 2007-05-11
  4. "Bewaring of the Green". Snopes.com. May 15 – June 15, 1990.
  5. Baxandall, Peter J. Audible amplifier distortion is not a mystery. Wireless World, November 1977, pp. 63.
  6. "The Absolute Sound". Retrieved 2007-01-23.
  7. The Objective Subjective Review Debate, Martin Colloms, 1991, Retrieved on 2007-05-09 from hificritic.com
  8. Timothy C. Hain, MD. (February 26, 2006). "Hearing Loss". Chicago Dizziness and Balance.
  9. Working in the Front Line:An approach to equipment reviewing, Martin Colloms, Stereophile, Vol.14 No.1, January 1991 Retrieved on 2007-05-09 from hificritic.com
  10. "Results From Our Audio Poll: Neil Young and High-Definition Sound," Justin Colletti, "Trust Me, I'm a Scientist," May 2012 issue, Retrieved on 2012-09-06 from trustmeimascientist.com
  11. "24/192 Music Downloads ...and why they make no sense," xiph.org, 2012, Retrieved on 2012-09-06 from xiph.org
  12. "Our Last Hip Boots Column," Peter Aczel, The Audio Critic, issue number 29, Summer/Fall 2003, page 5 (PDF page 6), accessed 2007-07-05.
  13. "The Amp/Speaker Interface: Are Your Loudspeakers Turning Your Amplifier into a Tone Control?" E. Brad Meyer, Stereo Review, June 1991, page 54, accessed 2007-07-05.
  14. "The History of the Edison Disc Phonograph". About.com.
  15. The Amp/Speaker interface, Brad Meyer, Sound & Vision Magazine, Accessed 2007-05-11

External links

This article is issued from Wikipedia - version of the Wednesday, December 03, 2014. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.