ADSS Optical Fiber Cable Span 80
The 144FO (12X12) Aerial Fiber Optic Cable OS2 G.652.D PE Short-Span (Part number: FO144HADSS80ALT) from ALT AMERICAN LINE TERMINAL with 144FO. All-dielectric self-supporting cable (ADSS) is strong enough to support itself between poles, being used in optical networks, in self supported overhead power lines, suspended on poles or mounted on buildings being the best solution for quick and low-cost installations since the poles are already mounted from legacy networks.
Specification for ADSS (All-Dielectric Self-Supporting) optical fiber cable for spans of 80 meters, fully compliant with ITU-T G.652D. The offered cables are entirely compatible with relevant IEC specifications (IEC 60793-1, IEC 60793-2, IEC 60794-3-10).
Each type of single-mode fiber has its own area of application, and the evolution of these optical fiber specifications reflects the evolution of transmission system technology from the earliest installation of single-mode optical fiber to the present day. Choose the right fiber is very important for each project/installation. The specification of the OS2 fiber is generally considered as the SMF standard for the single-mode fiber. For the OS2 G.652 fiber there are 4 subcategories: G.652.A, G.652.B, G.652.C, G.652.D.
The OS2 G.652.D single-mode fibers are the most used type of fiber for networking and communications applications. The OS2 G.652.D fiber type provides a zero dispersion at 1310nm wavelength therefor it is optimized for operation in the 1310nm Wavelength. The regular performance remains on the 1550nm wavelength.
Benefits of using the OS2 G.652.D fibers:
PE (polyethylene) is a versatile jacket material that offers good protection against moisture, abrasion, and chemicals. It is highly flexible and has a low coefficient of friction, which makes it easy to install and handle. PE is also resistant to UV radiation and can withstand a wide range of temperatures, making it a popular choice for outdoor and industrial applications. However, it is less flame-resistant than other materials, which may limit its use in certain environments.