The 2x2 Fibrain FPLC splitters can be applied for splitting of optical power transmitted in a fiber optic link. Unconnectorized.
The PLC Splitter Gold 2x2 Housing Alubox 55x7x4mm Input Fiber 2m 900um Output Blockless 2m 900um G657A2, No Connectors (Part number: FPLC-G1-2-22-90-2-2-X2-2-XX-XX) from Fibrain is a PLC type with a Unconnectorized connector . Fiber optic splitters are passive component that split the fiber and its signal. The signal is sent along of fiber and when it reached a fiber optic splitter, the signal is divided into two or more signals.
The Fibrain FPLC series of optical splitters can be applied for splitting of optical power transmitted in a fiber optic link. Versions with a large number of output ports are available while a small size of the product is guaranteed by the planar technology used. Fibrain FPLC splitters ensure very high stability of operation within the whole 1260-1650 nm band and have perfect thermal stability, guaranteeing operation in thermal range -40/+85 °C. An important advantage from the point of view of link design and maintenance is high uniformity of attenuation.
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.A2 fiber type is characterized by 7.5 mm minimum bending radius. These specifications of the G657 fibers allow to have a better cost-efficiency due to compact cable designs and reduced space requirements. Find some benefits when using the G.657.A2 fiber type:
Single mode fiber uses a LASER light source, is a type of optical fiber with a small core diameter that allows only one mode of light to propagate. It is used in telecommunications and data transmission systems to transmit signals over long distances with low attenuation and high bandwidth. Single mode fiber is ideal for high-speed and long-distance applications, such as internet backbone networks, cable television networks, and fiber-to-the-home (FTTH) services. Its narrow core reduces the dispersion of light, allowing signals to travel further and faster than with multimode fiber.
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