Description
Dynamic Design digital Interconnects are designed to transmit digital information with precision, making them extremely critical in getting the best out of connected equipment. As good as a component may be, its performance can be limited by poor interconnection that may degrade the information transmitted. This means you are not getting the type of performance you paid for and expect from your system.
Symptoms of poor interconnection include hazy or diffuse images, spectral anomalies where some frequencies are highlighted over others, flat two-dimensional images that always seem to stick to the front wall, lack of soundstage acoustical cues with poor perception of relative placement within the soundstage, murky transient performance with indistinct attack & decay characteristics and, many more.
Our digital cables adhere, within ultra-precise parameters, to the specifications required for all formats:
Precision 75 Ohm Clock and S/PDIF Digital/Clock Cables
Our 75 Ohm RCA or BNC S/PDIF cables feature ultra-precise 75 Ohm coaxial cable and connectors that maintain a constant impedance value from tip to tip thereby reducing damaging reflections. This design is also featured in our precision BNC terminated clock cables.
Precision 110 Ohm AES3 Digital Cables
Our 110 Ohm XLR terminated digital cables are designed to the latest AES specifications, building to the more stringent AES3 specifications results in improved transmission characteristics that are easily discernable when listening to your favorite music.
Dynamic Design award-winning digital interconnects, in a well-designed and balanced system, will float images that are devoid of boundaries, wrapping around you with a strong sense of 3-D dimensionality, incredibly wide bandwidth frequency extension and, stunning acoustical cues that put you right in the middle of the performance. Our digital interconnects are designed to get out of the way of your components so your music can soar to new heights and beyond. We pay special attention to all cable design parameters, the conductors, insulation, shielding and, connectors.
We achieve our design goals by researching and developing the following: