Atlas Hyper Balanced Symmetrical XLR Analogue Interconnects
The new Atlas Hyper Symmetrical XLR to XLR analogue audio interconnect replaces the famous Navigator cable; it employs an OFC screen with copper mylar to give a 100% rejection of RFI. The signal carrying conductors are our high purity grain free OCC copper laid in a concentric fashion and contained in a PEF dielectric. The outer PVC sheath is in a gloss black finish.
The Hyper XLR to XLR analogue audio interconnect uses separate going and return conductors. The screen with 100% coverage, rejects RFI interference. The two separate conductors dedicated to the going and the return signals are wired in a fully balanced fashion thereby keeping the going, return and ground paths separate. Balanced interconnects will reduce noise when they're used in balanced systems between the amplifier and pre-amplifier for example.
OCC conductors with polyethylene foam dielectrics improve signal transfer by reducing harmful deletions; with the Hyper balanced symmetrical cables, you'll experience the joys of listening to a wider band-width signal; it will provide an even sound with no artificial or forced emphasis of higher frequencies to make the sound brighter in order to impress in the way silver plated cables usually do. It will offer a realistic, accurate sound with excellent width, height and depth
Atlas XLR plugs are wired as follows:
A few amplifier producers wire their systems with different conventions. Always check with the manufacturers instructions before ordering. If you need these wired in a different way, the factory will do that for you. Because the conductor to plug interface is crimped, they may not readily be altered in retrospect.
|Construction : ||Symmetrical |
|Conductor Material : ||OCC |
|Screen Type/Material : ||Braid OFC+AL Mylar |
|Screen Coverage %: ||100% |
|Dielectric : ||PEF |
|Connector : ||Solder Free XLR Plug |
|available lengths |
|Lengths : || |
0.5m 1.0m 1.5m 2.0m
also available in custom lengths.
|technical data |
|Capacitance (pF/m) : ||97.27 PF/M |
|Resistance (Ohms/m @20°C): : ||0.0288 Ω/M AT 20oC |
|Inductance (µH/m @1 kHz) : ||0.954 uH/M at 1KHz |
|Velocity of propagation : ||0.707 |