HIGH-END AUDIO CABLES

'High-end audio cables' are claimed to improve the sound quality of high-fidelity audio systems. Since the audio signal passes through cables on its way from the source to the amplifier, or from the amplifier to the speakers, the cables will affect that signal. Basic system frequency response can be calculated from the electrical properties of the cables, and components on either side of the cables. These electrical properties include resistance, capacitance, and inductance. For small-signal applications triboelectric effect and the degree of shielding are also important. All of these qualities are taken into account in the design of good commercial and broadcast cables. High-end cable often involves exotic materials and geometry and the designs are explained on the basis of less well understood principles.
The perceived quality of the sound reproduction is influenced by psychoacoustic effects.

Contents

Controversy

Digital Cables

Common features of cable design

External links

Controversy

There is controversy among audiophiles surrounding the impact that high-end cables have on audio systems. The audibility of the changes is questioned by many. There are claims [1] [2] that even among audiophiles, in a double blind test it is difficult or impossible to distinguish extremely expensive, exotic speaker cables from ordinary lamp cords or budget 12AWG copper speaker wire.
It should be noted as anecdotal evidence that the audio cable industry has grown substantially over the last 20 years as customers purchase more and more high-end audio cables with the goal of improving their audio systems. In addition, virtually all major high-fidelity audio publications regularly review audio cables for their sonic attributes.

Digital Cables

One of the more contentious areas is in digital cable design, with high end cables being sold with claims of "distortion-free signal transfer" [3]. Some have argued that since digital data transfers incorporate error correction then any cable that is capable of transferring bits should provide distortion free signals. The bit rates (approximately 1MBit/s) and distance travelled are considerably lower than for other data transfer technologies such as gigabit ethernet.
It has been suggested that because the timing signal is sent as an analogue signal that if the wave is distorted by an incorrectly specified cable the incoming bits may be assigned to the wrong time bin, thereby distorting the sound. However, provided it is industry standard 75 Ohm cable then there remains considerable controversy among audiophiles over whether a high end cable provides any improvement over an entry-level $3 cable. [4]

Common features of cable design

Higher-end cables are often characterized by expensive and exotic materials, as well as exotic geometries. They are usually manufactured for the vendor, whereas many lower-end cables are handmade from raw stock or incorporate ready-made cable types from vendors such as Belden or Canare.
The conductors are generally at least made from high-purity copper or even silver. (Some audiophiles see silver as having a "bright," "harsh" sound with "glare," though this may simply be the synesthetic effect due to the color of the metal. Many silver-based cables have been subjectively reviewed as sounding completely unlike this common characterization.) Often, manufacturers will use oxygen-free, "long-crystal," or high-purity copper, though the particular benefits of these traits in an electrical sense are unproven with regards to audio transmission. Practically, all copper intended for electrical purposes is oxygen-free and of high purity.

External links

★ A Technical Introduction to Audio Cables by Pear Cable

★ Solving Signal Problems - Belden Corp article for ''Broadcast Engineering'' magazine

★ Speaker Wire - Roger Russell (former McIntosh Laboratory loudspeaker designer) opinions on loudspeaker wiring