Materials - more on those
The dielectrics that we employ are used in the purest way, e.g. without any color pigmentation added. Pigments in dielectrics can look very attractive, of course, but they alter the dielectric's primary qualities. How many times can we see thick and bright colored dielectrics inside cables ?
The unique technology we employed in our cables permits us to reject skin effects as high as 5 Mega Hertz, totally outside the audio band.
Skin effect is of great concern, and we suggest you shouldn’t trust the view that it can’t be heard 'because the speed of electricity in a cable approaches the speed of light' … The skin effects are perfectly audible. If you consider the signal in terms of magnetic and electric field across the conductors, some simple measures will show that within the dielectric and guided by the wires, all frequencies travel at a different speed. For example, at 50 Hz, the velocity of the wave is only 2,9 m/s . The same measure at 1000 Hz shows a 13,12 m/s value, and the same measurement at 20 kHz shows 58,7 m/s.
This is related to the skin depth of concerned frequencies. And as the frequency rises it tends to flow to the periphery of the wire. Given this, it becomes obvious that the thicker the single cable is, the more time smear between all frequencies, from lowest ones tending to flow inside the conductor to highest ones on the outside surface.
We believe that skin effects can be perceived and are really detrimental. Because we use highly conductive elements to transmit audio signals they must be taken seriously and we have found a simple, elegant way to do so. As always the simplest was the hardest to achieve. We had to force audio currents to flow together without letting them dispatching between skin depths of the conductors ; as a result we are able to eliminate time smear across the entire audio band, the one that muddies transients of fast signals, leaves bloat in the bass region and false warmth in the highs.
This result was obtained without any external passive or active network compensation. We believe this is the least degrading sound option, given all external network parts have finite defects and sound penalization drawbacks.
Listening tests have proven the value of our approach given the naturalness of sound transmitted through the cables.
More : using specific primary dielectric (this data will stay hidden), the cables not only transmit audio signals at their best, but also Emotion. Insert our cables into your system and you'll immediatly experience this feeling, which cannot be described by real words.
