Striking Resolution and Dynamics, with More Detail Than Ever
Shunyata's Anaconda Interconnects host a wealth of technical innovations which deliver a shocking performance. Despite the Anaconda's standard-setting performance, Shunyata Research has gone to great lengths to ensure that its Statement Interconnect design will be defined first, by its unprecedented value.
Rather than follow the price-inflation theme that has become common in the cable industry Shunyata is committed to offering its signature performance products at real-world prices. The Anaconda interconnects are designed to deliver the ultimate in technology and fidelity at a reasonable cost.
Shunyata uses a specially designed electromagnetic field to align the
molecular structure of their copper conductors. Applied during the
extrusion process, the result is greater coherency and superior
Alpha Cryo Process
Shunyata Research cryogenically treats all wire and electrical contacts
used in the production of its signal cables. A state-of-the-art computer
controlled chamber is used to lower the temperature of the contents to
-320 degrees Fahrenheit. This exclusive process uses a proprietary
combination of gases to enhance the cryogenic treatment.
CDA-101 copper is the highest purity copper available, with signed
certifications to verify its authenticity and purity. Shunyata Research
exclusively uses CDA-101 copper for their electrical products, from
signal cables to power cords and power conditioners.
VTX Wire Geometry
Long known for ultra-complex wire geometries which measurably improve
conductivity and desirable characteristics, Shunyata has developed a new
geometry which greatly reduces the so-called “skin-effect”. Skin-effect
is a distortion caused by differing speeds of conductivity between the
center of the conductor (where the bass travels) and the outer part or
skin of the conductor where the midrange and treble travel. Skin-effect
plagues both stranded and solid core wire, causing smearing, timing and
phase errors, in some cases even changes in tonal balance. The ideal
conductor is a hollow tube, but this is wildly impractical in the real
world, so using DTCD analysis, Shunyata created a new type of wire
geometry which is a “virtual tube” greatly reducing skin effect and