Unique to Atlas, the Mavros fully balanced interconnect uses a new micro-porous PTFE dielectric together with pure OCC silver conductors which are manufactured using the highest-quality technique for drawing silver.
The new micro-porous insulation with a dielectric constant between 1.3 and 1.5 improves on ordinary PTFE and provides up to 85% greater velocity of propagation (VOP) than ordinary cables and 30% better than Teflon cables. That speed introduces better musical integrity throughout the audio spectrum and especially in the area of high frequency delivery. The music has more pace and the presentation is holographic. Speaker boxiness disappears as the Mavros offers listeners an ambiance and a relaxed yet dynamic all engulfing sound that truly replicates a concert hall experience.
The XLR plugs are the unique Atlas solder free, silver plated Ohno Continuous Cast (OCC) XLR types.
The end result of this new development is a natural-sounding interconnect that neither subtracts from the music, nor adds any false details or unwanted colouration; additions that are often heard as “improvements” of the sound. This outstanding new interconnect cable is a superb match with the Mavros speaker cable, allowing music-lovers to achieve a big band-width signal and a barrier free path for their music.
The new Atlas Mavros interconnect was designed to be technically and sonically superior to any other interconnect cable currently available anywhere at similar prices.
Do you dare you to try this scientifically verifiable, technically advanced, superior quality cable in your system? If so get ready to be amazed because nothing will prepare you for the staggering improvement you'll hear!
The Atlas Mavros balanced interconnect demands to be heard with and used with the Mavros speaker cable in order that the advantages of increased signal velocity can be appreciate and that the higher band-width signal isn't strangled by a speaker cable that's unable to carry all the information provided to it without deletion.
Complementary products are the fully balanced interconnect with XLR plugs, the Pseudo balanced symmetrical audio interconnects and the Mavros speaker cable.
Recommended accessories for even better results, are the Atlas noise reducing Shield Caps, Atlas Eos power cables and the Atlas Eos balanced power supply.
Removal of the brass links between HF and LF terminals typically provided on speakers, and their replacement with better quality Atlas links will also contribute to much improved sound and listening pleasure.
WHAT YOU SHOULD KNOW
About Atlas Cables
- Atlas Mavros Digital AES EBU Digital Audio Cable
- Length: 1m
- Screen Type/Material: Braid OCC
- Screen Coverage %: 100%
- Dielectric: micro-porous PTFE dielectric
- Connector: Silver-Plated Ohno Continuous Cast (OCC) XLR
- Colour: Black
- 5 Years Warranty
- NEXT DAY DELIVERY (If ordered before 4.30pm Mon to Fri)
Atlas Cables are a major producer of interconnects and cables in the United Kingdom of Great Britain. All products are researched, developed and most are assembled in the Atlas purpose built factory in Scotland. Many of these products are unique and use advanced techniques of production or manufacture in order to bring to the user the very finest quality products. With each new model we continue to push the boundaries of reliability and performance. It's little wonder then, that Atlas Cables have had so many mile-stone advances in the past and that Atlas Cables have secured so many awards in comparative tests against other products.
What is OCC Copper
In 1985 Professor Ohno from the China Institute of Technology developed his patented method for the extrusion of a grain free copper wire. (Technical papers are available from the Japan Inst. Metals and from Chapman & Hall, publishers.)
When a pure metal solidifies, its crystals grow in a specific geometrical pattern (typical to that metal) emanating from a nucleus, rather like the dendritic growth pattern of a tree. The size of the metal crystals grown can be varied by repeatedly annealing metal such as is done in the LC-OFC process. The structure of a strand of copper may be likened to that of a bag of sugar. Every grain of sugar has a crystal boundary. In a conductor, these crystal boundaries (potential barriers) act as a non-linear resistance to the flow of electric current. It follows that, the fewer the boundaries, the less the effect on an electric signal as it propagates from one end of the conductor to the other.