Slim minicable with stranded loose tubes and light strain relief for outdoor applications up to 192 fibers
The 192FO (8x24) Air Blown Fiber Microduct Loose Tube Fiber Optic Cable SM G.657.A1 (Part number: BCmicro 200 8D17 192FSB2 G.657A1 8x24 SW) from Solifos with 192FO. Air blown microduct fiber cable is optimised for injection into microducts and is used in optical networks, more specifically for use in Fiber-to-the-home (FTTH) and Fiber-to-the-Desk (FTTD) networks. This technique that is lower at cost, quicker and more environmentally friendly than traditional deployment, allowing a simpler instalation with less resources.
The 192FO (8x24) Air Blown Fiber Microduct Loose Tube Fiber Optic Cable SM G.657.A1 from Solifos is a Air Blown Fiber Microduct cable with 192 fibers within 8 loose tubes. This distribution cable for optical networks has a loose tube structure and a polyethylene sheath with a FRP central strength member allowing strenght and durability. Very compact fiber optic cable. The optical fibers comply with ITU-T recommendations G.657A1
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 OS2 G.657 standard single-mode fibers were developed to allow a better bending radius regarding the G.652 standard. For the OS2 G.657 fiber there are 4 subcategories: G.657.A1, G.657.A2, G.657.B2, G.657.B3. The G.657.A1 fiber type is characterized by 10 mm minimum bending radius. These specifications of the G.657 fibers allow to have a better cost-efficiency due to compact cable designs and reduced space requirements.
While using a loose tube construction in cables, you can:
The loose tube construction solution can be chosen for the following applications:
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.