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NEW DELHI: Siemon unveils TERA fully shielded end-to-end cabling solution in India. TERA exceeds the ISO/IEC category 7/class F specifications and is known to be the highest performing twisted pair copper cabling system available.
TERA delivers performance up to 10Gb/s and beyond, far exceeding all performance requirements for 10GBASE-T. It has a bandwidth of 1.2 GHz per pair and the highest of any available copper system. It allows for cable sharing—shielded design and 1-, 2- and 4-pair outlet and plug modularity allow the simultaneous support of multiple applications over a single cable, administered in a single outlet.
Future-proof performance and flexibility make TERA ideal for data centers, call centers, government, healthcare imaging and banking and financial applications, says company.
Carrie Jane Higbie, global network applications manager, Siemon, said, "Rising copper prices have led some to explore fiber to the desk alternatives. Although fiber can provide a future-proof option, it is not capable of supporting the growing demand for power over Ethernet applications.
“ Fully-shielded (S/FTP) category 7/class F copper cabling, such as Siemon's TERA, is capable of supporting application speeds well beyond 10Gb/s. This future-proof performance provides an extended cabling lifecycle, driving the total cost of ownership (TCO) well below that of category 5e, category 6 and even category 6A UTP," he added.
Rajesh Kumar, country manager, Siemon India, adds, "As enterprises face difficult network infrastructure decisions, it is a well-established best-practice to install future-proof cabling solution that's capable of supporting the next generation of application speeds. The TCO on TERA 10Gb/s capable cabling is far better than lower performing options."
Accepted by both TIA and ISO, cable sharing describes the practice of running more than one application over different pairs of a twisted-pair copper telecommunications channel. In the case of category 7/class F TERA, up to four applications can be supported with a single cable. This ability is a function of both cable and outlet construction.
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