Designed for duct installations Applied in duct, trays, blocks, tunnels, collecting channels, with no risk of rodents’ attacks.Also applied for aerial installation between supports and buildings on external strength members or using the winding method.
Applied in ducts, trays, blocks, tunnels, collecting channels, with a risk of rodents’ attacks.
Applied in harsh environments with potential mechanical impact: in grounds of all the groups, bogs, unnavigable rivers.
Applied in sea areas (coastal shelf and deep-sea), on navigable rivers, in lakes and water storage basins, in harsh environments, in bogs and unnavigable rivers.
InAir Figure 8
Applied for aerial installations: on power lines, lamp posts, between buildings and constructions. Suitable for aerial installation on transmission equipment and power facilities in dielectric package.
Applied for aerial installation on distribution and high voltage power lines, as well as railway catenary.
Applied inside buildings (including vertical runs), in trays, channels, on outer sides of buildings, as well as in duct, in tubes and blocks. Suitable for blowing-in into protecting polyethylene tubes.
Applied inside buildings and premises, in trays, cable channels, in duct, tubes and blocks. It is also applied on outer sides of buildings and for opticalal cords manufacturing.
Applied for aerial installation on transmission towers, lamp posts, between buildings and constructions.
Applied in the construction of fiber-optic link on overhead transmission lines of 35 kV and more.
Used for stationary installation when the optical fiber needs extra protection from mechanical damages.
For fiber optic monitoring systems.
Steel optical module, clad wire and temporary optical cable.
Used as a temporary cable section during repair works.
PBT optical tubes filled with water-blocking gel
High-strength armor of zinc-coated stainless steel wires
Armor is a reliable protection against strong mechanical damage
Excellent protection against rodents — can be laid in cable duct
Reduced weight and size
Cost effective design
Highest resistance to crushing loads — from 0.7 kN/cm
Up to 24 fibers — loose tube design
|Crush — from 0.7 kN/sm|
|Fiber count||up to 16||up to 32|
|Cable diameter, mm||6.2||6.4|
|Cable weight, kg/km||77.6||82.8|
|Min bending radius, mm||93.0||96.0|
|Transportation and storage temperature||-60°С…+70°С|
|Minimum bending radius||15x cable diameter|
|Life time||25 years|