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LA3ZA Radio & Electronics
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Magical speaker cables - part 1
Posted: 02 Jan 2022 12:39 AM PST
https://la3za.blogspot.com/2022/01/magical-speaker-cables-part-1.html
Pear Anjou speaker cableI’m sure many have seen advertisements for speaker cables costing thousands of dollars. Some take this very seriously while
others consider it to be pseudoscience.
What should one believe? Here I want to help clarify the concepts.
A climax in the cable dispute may have been reached in 2007 when the
skeptic James Randi offered a reward of 1 million dollars if anyone could
prove that speaker cables costing $2750 for a pair of 1 meter long cables provided any improvements. He was provoked by the claims of the Pear Anjou cables shown in the image.
There was a time when connecting speakers to an amplifier was simple.
Speakers came with a thin cable and that was it. This cable was very
unassuming and easy to hide as shown in the image below. Then someone came along claiming that this wasn’t good enough. Neither were the tiny
DIN-rated speaker plugs, even though they followed German industry
standards (DIN once meant Deutsche Industrie-Normen). Since then, there has been no end to the flood of increasingly elaborate and expensive speaker cables.
Thin cable from the 1970's with DIN plugsOften the disagreement is between subjectivists and objectivists, or as Marc Perlman called his article
in "Social Studies of Science" in 2004: "Golden Ears and Meter Readers: The Contest for Epistemic Authority in Audiophilia". Since epistemology is the theory of knowledge and cognition, it boils down to whether it is the ears which decide when something sounds right or if a measurement is more
important.
Music is something that means a lot to many and it has an almost direct
path into the emotions. There is therefore no doubt that what we hear and experience is what counts. But we are talking here not just about ordinary ears, but golden ears - those who through training and experience have a special ability to perceive what others cannot hear. Although it is easy to cheat in this field, there is no doubt that such golden ears exist. But
they have their limitations. They are good for analyzing and spotting
deficits in sound reproduction, but they provide very few clues as to what
it takes to design equipment that sounds correctly.
The story about the Norwegian company Electrocompaniet illustrates the
value of golden ears. In the 1970's they came up with one of the first
power amplifiers that fixed what was called ‘transistor sound’. Many could hear the problem with early transistor amplifiers, but few knew what caused
it before the Finnish professor Matti Ottala explained it as transient intermodulation distortion. Today it is usually called slew-induced
distortion. This story demonstrates how an audible problem was not fixed
until someone managed to quantify it with measurements. Read the
fascinating story of Svein-Erik Børja with the golden ears, and Terje Sandstrøm with the engineering talent in British Hi-Fi News from 2011. It shows how important it is to quantify with numbers what matters to the
audible impression.
A speaker cable which is too thin
along with one that is betterWhen it comes to cables, there is agreement on
at least one thing. The thin speaker or lamp wires and flimsy plugs from
the 1970’s no longer measure up. Instead of 0.38 and 0.75 mm2
cross-sectional area (AWG 27-21), one should use 2.5 mm2 (AWG 10) and preferably 4 or 6 mm2 (AWG 6 or 3). This is the only thing which is
unambiguous based on listening tests and something that there is little controversy about.
It is also easy to explain from measurements. It is first and foremost resistance in ohms per meter that explains it. For the thinnest cable it is 0.045 ohm/m or 0.45 ohm for a 5 m cable (back and forth). The voltage of
the amplifier will be divided between the resistance of the cable and the resistance or impedance of the speaker of nominally 4 ohms. This gives a
loss of 1 dB which is audible. Even more audible will be the coloration of
the sound that comes from the speaker's impedance varying with frequency.
It can cause both a resonant top in the bass and a raising of the treble. Another argument for low resistance is that this helps the amplifier dampen speaker motion once a signal has stopped. This is called the damping factor. Here many with a scientific or technical background stop and reject all
other arguments. My point in the rest of this article and in part two, is
to discuss the main technical arguments that have been raised. The various manufacturers don't really promote their solutions solely on the basis of subjective listening impressions. Virtually everyone has arguments based on some physical principle. They like to claim that they are particularly good
at this single aspect where the company believes they have a special
insight. This is formulated in scientific terms. But then we are really at
the heart of what this blog is all about. If it is formulated in scientific terms, it should be possible to analyze with respect to whether this aspect
is important or not.
Twisted multi-conductor cableWe should keep in mind also that the science
of cables for transfer of energy has been around for a long time. We have
had power cables for 50 or 60 Hz for a hundred years. You may rightly say
that it is more challenging to transfer audio with frequencies from the
deepest bass at 20 Hz to the highest treble at 20,000 Hz. But we have also
had telephone cables for over a century. Here the distances have been
around 10 km, not just 4-5 m as for a typical speaker cable. For sure we
must have learned something in a hundred years that can be applied to
speaker cables.
I have already shown the most common types of cables in the figures above.
Here are two slightly more exotic types. The first is a cable made by
twisting together many thinner conductors, in this case a do-it-yourself
cable. It is designed to have the least possible inductance as well as to minimize the consequences of the skin effect. The latter is the tendency
for alternating current only to flow in the outer part of a conductor.
Cable with large distance between the
conductors (Schnerzinger)The next cable has a large distance between the conductors and is even placed on its own feet to minimize influence from
the floor. It is designed to have the least possible capacitance between
the conductors and to minimize the impact of vibrations created by the
speakers themselves.
But what are the factors which are of real importance? In part 2, we
consider the aspects, beyond resistance, which are emphasized in cable
design.
References:
Perlman, Marc. "Golden Ears and Meter Readers. The Contest for Epistemic Authority in Audiophilia." Social Studies of Science 34.5 (2004): 783-807.Sandstrøm, Terje. "Distortion in class AB power amplifiers." Audio Engineering Society Convention 71. Audio Engineering Society, 1982. (From
his master's thesis in physics, University of Oslo)
(First published in Norwegian in 2013: Magiske høyttalerkabler)
The post "Magical speaker cables - part 1" first appeared on the LA3ZA
Radio & Electronics Blog.
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