The OS2 Single Mode Duplex Fiber Optic Cable with Short Boot LC to LC UPC connectors is a high-performance networking solution designed for long-range data transmission. This premium cable features a 9/125μm core/cladding configuration, utilizing Corning® glass for superior optical clarity and signal integrity.
Engineered for versatility, this cable boasts a dual LSZH/OFNR rating, making it suitable for various installation environments, including vertical risers between building floors. The yellow jacket not only aids in quick identification but also signifies its single mode classification, crucial for network technicians during installation and maintenance.
At the heart of this cable's design is its optimization for high-density networking environments. The short boot LC connectors significantly reduce bend radius and minimize large curve losses, allowing for efficient cable management in space-constrained data centers and telecommunications rooms. This feature is particularly valuable in today's compact, high-throughput network architectures.
Performance-wise, this OS2 cable excels with low insertion loss (≤ 0.3 dB) and high return loss (≥ 55 dB), ensuring minimal signal degradation over long distances. It supports both 1310nm and 1550nm wavelengths, catering to a wide range of networking applications, from Fast Ethernet to Gigabit Ethernet and beyond.
Safety and reliability are paramount in the design of this fiber optic cable. Its UL listing (E310298) attests to its adherence to rigorous safety standards. Each cable undergoes thorough testing, with a test report included in every package, providing users with confidence in its performance right out of the box.
The OS2 Single Mode Duplex Fiber Optic Cable is an ideal choice for enterprise networks, data centers, telecommunications infrastructure, and any application requiring high-speed, long-distance data transmission. Its combination of premium components, thoughtful design, and versatile specifications make it a reliable and future-proof investment for network professionals seeking top-tier performance and longevity in their fiber optic infrastructure.