Wild is natural. Wild is beautiful. Wild is dangerous. Wild LP incorporates RCA or XLR connectors machined from C1100 copper. These machined connectors allow us to design and manufacture a connector with the least sonic character. It's almost as if there were no connector there at all.
SOLID 100% PERFECT-SURFACE SILVER CONDUCTORS (PSS):
Perfect-Surface Technology applied to extreme-purity silver provides unprecedented clarity and dynamic contrast. Solid conductors prevent strand interaction, a major source of cable distortion. Extremely high-purity Perfect-Surface Silver minimizes distortion caused by the grain boundaries which exist within any metal conductor, nearly eliminating harshness and greatly increasing clarity compared to OFHC, OCC, 8N and other coppers.
FEP AIR-TUBE INSULATION (FEP is a Fluoro-Polymer):
Any solid material adjacent to a conductor is actually part of an imperfect circuit. Wire insulation and circuit board materials all absorb energy (loss). Some of this energy is stored and then later released as distortion. All of Wild LP’s conductors use Air-Tube insulation because air absorbs next to no energy, and FEP is the best extractable solid insulation and absorbs less energy than other materials. The FEP Air-Tubes used in Wild LP have almost nothing but air around the solid PSS conductors.
DIELECTRIC-BIAS SYSTEM (DBS, US Pat #s 7,126,055 & 7,872,195 B1):
All insulation slows down the signal on the conductor inside. When insulation is unbiased, it slows down parts of the signal differently, a big problem for very time-sensitive multi-octave audio. AudioQuest’s DBS creates a strong, stable electrostatic field which saturates and polarizes (organizes) the molecules of the insulation. This minimizes both energy storage in the insulation and the multiple nonlinear time-delays that occur. Sound appears from a surprisingly black background with unexpected detail and dynamic contrast. The DBS battery packs will last for years. A test button and LED allow for the occasional battery check.
CARBON-BASED 4-LAYER NOISE-DISSIPATION SYSTEM:
100% shield coverage is easy. Preventing captured RF Interference from modulating the equipment’s ground reference requires AQ’s Noise-Dissipation System. Metal and Carbon-Loaded synthetics prevent most RFI from reaching the equipment’s ground plane.
This plug design enables a perfect heat-free connection between cable and plug. The connection between the plug and conductors is made using AQ's Cold-Weld System, which provides a superior connection that ensures that the structural integrity of the conductor is kept completely intact. The Cold-Weld System refers to a combination of high pressure at the point of contact and the use of copper- or silver-impregnated paste. (Wild LP’s silver conductors get silver paste.) XLR plugs are also available.
What is DBS?
- Audioquest Wild LP Tonearm Cable
- Length: 1.2m
- Metal: Solid PSS Silver Conductors
- Dielectric: FEP Air-Tubes (FEP is a Fluoro-Polymer)
- Termination: Right angled or straight machined-barrel 5-pin JIS plug to 2 x Wild RCA plugs + ground RCA or XLR
- Noise-Dissipation System: Carbon-Based 4-Layer Noise Dissipation System
- Jacket: Black with Blue stripes
AudioQuest’s founder and chief designer, William Low, explains the Dielectric-Bias System: “DBS puts all of a cable’s dielectric into a comparatively high voltage DC field ... continuously from the time the cable is terminated. The exceptionally simple design uses a wire down the middle of the cable, which is simply an extension of a battery’s cathode. This wire is attached to negative (-) of a DBS battery pack, and nothing else. It is not in the signal path and has no interaction with the signal. Depending on the model of interconnect (analog or digital) or speaker cable, an existing foil “shield” is used as the DBS anode by connecting it to positive (+) of the DBS battery pack. A battery terminal, anode or cathode, has no current waiting to pour out, as does the earth relative to a negatively charged cloud. A battery is a chemical reaction waiting to happen. Both poles of the battery have to be connected to each other in order to initiate this reaction. The point is that since the anode and cathode of a DBS battery pack are never connected, there is no current flow, only a potential across the dielectric (insulation) in-between the DBS field elements.