For smooth transmission, since signal transmission occurs via an electro-magnetic-field, the structure of the cable should ideally be designed to optimize electro-magnetic-field formation by minimizing such adverse properties as electrostatic capacitance, inductance, and dielectric constant factor, etc.

It is said that human ears can only recognize up to 15 KHz or so, and that there is no musical information above this range. This begs the question: why does cable need to have such high speed/frequency response? A study conducted in the USA found that a significant number of randomly selected people were able to recognize the difference between two signals that were identical but for the presence of information in the 100 KHz range in one of the signals. How and why can we recognize the inaudible?

The answer to this question lies in the very nature of music itself: recorded music consists of a complex matrix of an enormous quantity of information, and every minute rise and fall contributes towards our overall musical impression.

It follows that the higher the frequency, the more quickly it must rise at a steeper ascent, and therefore it is essential for cable to have ultimate high speed capability in order to deliver a clearer transmission and decay of the signal…even far beyond the supposed capability of human hearing.

As audiophiles, we place great importance upon such subtle elements the as musicians' tone of expression, touch, personality, quality of voice/instruments, temperature, atmosphere etc. It is the interaction of these delicate and minute shapes of information that draw us into the music emotionally.

At Acrolink we have resolved to convey these essential elements of musical enjoyment by developing innovative "lateral-thinking" concepts divergent from traditional methods. This fresh approach ensures that our cables are able to operate in the crucial realm of frequencies that lie beyond normal audio range.