Used by electric utilities on transmission lines with the voltage of 35 kV and higher for creating optical communication lines and protecting the power lines from lightning strikes.
Applied for aerial installation on distribution and power transmission lines for building long distance optical communication systems.
Used for distributed fiber optic sensing in different applications.
Used for indoor and outdoor applications where fire resistance is a must. Remain functional under direct flame for at least 180 minutes.
Applied in ducts, conduits and trays with no risk of rodent attacks. Can also be lashed.
Designed for high reliability in harsh environments with potential mechanical impact. Applied in all ground types, swamps, and harsh rivers.
Designed for air blowing in ducts and microducts for building reliable underground communication networks.
Designed for underwater application with increased crush and tensile loads.
InAir Figure 8
Used for cost-effective one-step aerial installation mostly in rural areas where the spans between poles are not long .
Applied in substations for control purposes.
Used to create communication lines between the common distribution box and a location inside the building (including vertical runs), between entrances or corridors in office buildings.
Applied for aerial installation on transmission towers, lightning poles, between buildings and structures for communication networks in rural areas.
Suspension of fiber optic cables onto the existing power transmission towers is the most common way of building long distance optical communication systems. ADSS fiber optic cables are designed for outside plant aerial and duct applications and used in different installations (from pole-to-building to town-to-town).
When it comes to aerial deployments, ADSS fiber optic cables can provide a cost-effective and reliable solution in most of the cases. Fiber optic cables of this type are small and lightweight, yet they can withstand high loads and are flexible in applications.
This method of installation is fast and does not require a lot of special-purpose equipment.
Incab America uses NESC (National Electric Safety Code) as a guideline to calculate loading conditions. The standard NESC Load Conditions are Light, Medium and Heavy.
Whatever your project needs are, Incab America have a solution. We offer a wide range of All-Dielectric Self-Supporting fiber optic cables:
InAir ADSS FRP Defender – All-Dielectric Self-Supporting FiberGlass Rods Defender
InAir ADSS DJ – All-Dielectric Self-Supporting Double Jacket
InAir ADSS FiberGlass DJ – All-Dielectric Self-Supporting FiberGlass yarns Double Jacket
InAir ADSS – All-Dielectric Self-Supporting
InAir ADSS FiberGlass – All-Dielectric Self-Supporting FiberGlass yarns
Take a moment to click through our Configurator ACES: Advanced Cable Engineering System, a unique software tool to help engineers select the optimal cable design along with the associated accessories, estimate costs, generate datasheets, calculate space potential, and more! Online, free and simple!