LONDON, Feb. 19, 2013 /PRNewswire/ -- OFS, a leading edge designer, manufacturer and supplier of innovative fibre optic network solutions, today announced the introduction of AllWave®FLEX and AllWave® FLEX+ Bend-Optimized Single- Mode Fibre with a 200 micron coating for use in cables with higher fibre counts and in microcables where cable diameters must be minimized.
The fibre's bend-optimized design enables tight, low loss bends without risking fibre strength and long-term reliability. These fibres occupy 46 percent less area than conventional 250 micron coated fibre, enabling smaller diameter cables with a greater number of fibres per tube.
The new fibres with significantly increased fibre density enable OFS' new MiDia® 2FX microcables, to minimize cabled diameters for use in todays congested duct networks. The MiDia 2FX cable range provides potential for system build cost reduction by increasing installation distance, reducing the number of installations and maximizing the use of congested and limited availability ducts.
MiDia 2FX cable is being presented at the FTTH conference in London 20-21 February at OFS' Gold Sponsorship stand, G18, and is generally available now.
200 micron AllWave FLEX fibre supports higher density and lower diameter cables, providing outstanding macrobend and microbend performance for access, Fibre-to-the-Home (FTTH), and enterprise networks, or any application where small bend diameters may be encountered. This ITU-T G.657.A1 fibre maintains very low bending loss across the full usable spectrum of wavelengths from 1260 to 1625 nm. It can be coiled into a 20 mm diameter loop with < 0.5 dB incurred loss at 1625 nm and < 0.2 dB incurred loss at 1550 nm – five times better bending performance than conventional single-mode and leading "low water peak" fibres.
200 micron AllWave FLEX+ fibre offers enhanced bend performance, ideally suited for in-building and connectivity applications, and full compatibility and compliance with the current installed base of conventional ITU-T G.652 single-mode fibres. It is an excellent choice for higher density cables for Access networks, high-density Fibre-to-the-Home (FTTH) applications, cell sites, enterprise networks, or any application where high fibre count lower diameter cable may be encountered. It meets and exceeds both ITU-T G.657-A2 and G.652.D recommendations and International Standard IEC 60793-2-50 specifications.
OFS maximizes the reliability of its bend-optimized single-mode fibres through the use of synthetic glass and our highly protective D-Lux® acrylate coating. This enables significantly smaller bend diameters with lower loss and improved fibre strength and long-term reliability.
These products retain all the performance benefits of OFS' AllWave Zero Water Peak (ZWP) Fibre, the first fibre to eliminate the water peak defect found in conventional fibre, due to OFS' patented ZWP fibre manufacturing process, which eliminates hydrogen-aging defects. Their ultra-low fibre Polarization Mode Dispersion (PMD) enables speed and distance upgrades.
OFS is a world-leading designer, manufacturer and provider of optical fibre, optical fibre cable, connectivity, FTTX and specialty photonics solutions. Our marketing, sales, manufacturing and research teams provide forward-looking, innovative products and solutions in areas including Telecommunications, Medicine, Industrial Automation, Sensing, Government, Aerospace and Defense applications. We provide reliable, cost effective optical solutions to enable our customers to meet the needs of today's and tomorrow's digital and energy consumers and businesses.
OFS' corporate lineage dates back to 1876 and includes technology powerhouses such as AT&T and Lucent Technologies. Today, OFS is owned by Furukawa Electric, a multi-billion dollar global leader in optical communications.
Headquartered in Norcross (near Atlanta) Georgia, U.S., OFS is a global provider with facilities in China, Denmark, Germany, Russia, and the United States.
For more information, please visit www.ofsoptics.com.
OFS PR Contact:
Phone: +1 (770) 798-4210