96C OPGW Cable Stranded Loose Tube design with protective steel tubes, ensuring robust protection for long time using. Features 62.5/125um multimode fibers and hydrogen-absorbing fiber jelly, enhancing signal stability and longevity. OPGW Fiber Optic Cable's Aluminum-clad steel wires serve as fillers, while aluminum alloy wires form the stranded single wires, boosting structural integrity. Designed for overhead installation, UnitekFiber’s OPGW cable boasts high tensile strength and large cross-sectional area, handling tough conditions. Versatile for various spans and compatible with both low and high-voltage lines, OPGW optical cable delivers reliable performance across diverse power network setups.
It is specifically designed for overhead use in high-voltage power grid communication systems, suitable for environments with various tower distances, sag requirements, ice loads, wind loads, and allowable tension at hanging points.
Its large cross-sectional area enables efficient heat dissipation, preventing overheating in high-voltage environments, ensuring stable operation.
This structure enhances flexibility, allowing the cable to adapt to thermal expansion and contraction without damage, improving its durability.
It makes the cable capable of spanning long distances while maintaining stability, reducing the need for intermediate support structures and lowering installation costs.
As a professional manufacturer, we offer various options, including single-mode fibers like G.652D and G.655D, and multimode fibers such as OM1, OM2, OM3, OM4, and OM5.
This 96 core OPGW transformed our high-voltage grid. Its heat dissipation and flexible stranded structure handle summer heat and thermal shifts effortlessly.
Upgraded to this OPGW, and 62.5/125μm multimode fibers boosted bandwidth massively. It handles growing data needs and works for future upgrades, no replacement needed.
This OPGW with anti-corrosion treatment has held strong for 2 years. The hydrogen-absorbing paste keeps signals steady in humid junction boxes zero issues.
This OPGW cable survived heavy ice and strong winds with no glitches.
This OPGW nails urban grid demands: handles high tension and tight sag, adapts to tower distances, and cuts costs by skipping extra supports.
