| Product Catergory : : Cables : Supra |
| HF100 |
4 screened twisted pairs of solid OFC conductors (with a PE foam insulation layer) improve the High Frequency response for wide-bandwidth and efficient signal transfer
Heavy Double layer shielding: 1st layer: Aluminium foil, 2nd layer: Aluminium foil, shield signals from external influences and prevents the digital signal being radiated into nearby components or other cables
0.8 micron thick 24k gold-plated contacts on connectors deliver long term reliability
Small form factor cable - diameter only 9.5 mm, enabling cable to be easily hidden.
|
| AV6.4 |
 6 cores of 75 ohm tin-plated OFC cable
Individual tin-plated OFC screens around each core
4 other cores for audio send/receive
A separate aluminium/polyester shield surrounds all six cores
Very low capacitance, due to the use of PE foam for inner insulation. |
| Trico Digital Audio Cable |
 Very low capacitance, only 58pF/metre, and insulated with PE foam, leading to a propagation velocity of 0.78 light speed.
Double shielded, with an inner braid of silver plated OFC and an outer braid of bare OFC.
The two shields together provide efficient noise protection from external sources.
The silver plated signal carrying inner conductor enhances the high frequency properties of the cable, leading to an extremely low level of attenuation : 0.6 dB per 100 metres at 1.0 MHz and just 7.1 dB per 100 metres at 100 MHz.
|
| X-ZAC |
 The new range of fibre optic cables have been introduced to bring Supra quality to the field of digital audio transmission from DVD and CD players. The Zero Attenuation Concept (ZAC) has been designed to minimise losses and make the cost-effective plastic optic fibre achieve the same transmission quality as that of glass fibre cores.
This is achieved by an innovative curving of the fibre core tip to ensure a zero divergence loss at the input and output of the cable. |
| Ply 3.4S |
Increasing cable size can usually reduce cable resistance, but at the expense of increasing cable inductance. This is musically unacceptable for high quality sound and music applications. Some solutions exist, but these may have other limitations, which can make them impractical.
Conventional stranded cables made from copper, silver or related conductors can suffer from complex oxidation, making the surface into a semi-conductor. The diodes so formed between the strands are not seen by steady-state signals, but look like the plates of a high value capacitor to transient signals. This causes low-level energy storage and release after transients, that is invisible to steady-state testing yet nonetheless is perfectly audible with many music recordings.
|
|
TOP |
|
|
