When might fiber optic cables must be spliced? There are five following predicament.

(1)Link of your particular length to a different.

(2)A fiber Optic cable might have been ripped apart as a result of trenching work.

(3)Network installer probably have in the inventory several fiber optic cables, none good enough to satisfy the required link length.

(4)One of the links of 10 km could be installed by Fusion Splicing several fiber optic cables together.

(5)Fiber splices could be required at building entrances, wiring closets, couplers, and from a transmitter and receiver.

Connecting two fiber optic cables requires precise alignment of the mated fiber cores or spots in one mode fiber optic cable. This is required to ensure virtually all the sunlight is coupled from fiber optic cable to an alternative. All the above work is called Fiber Optic Splicing.

There are two principal kinds of splices. These are fusion and mechanical. Fusion splices make use of a fusion splicer machine with an electric arc to weld two fiber optic cables together. The entire process of fusion splicing involves using localized heat to melt or fuse the ends of two optical fibers together. The fiber splicing process begins by preparing each fiber end for your fusion splicer machine that may conduct fusion splicing. Allow me to share the splicing steps.

(1)Fusion splicing necessitates that all protective coatings be taken off the ends of every fiber.

(2)The fiber might be cleaved using the score and break method.

(3)The quality of each fiber end is inspected using a microscope.

(4)In fusion splicing, splice loss is often a direct purpose of the angles superiority both fiber end faces.

The basic Fusion Splicer machine is made up of fiber holders which the fibers are mounted with two electrodes. A check mark microscope assists inside the keeping of the prepared fiber ends in to a fusion splicing machine. The fibers are placed to the fiber splicer holders, aligned, and then fused together. Fusion splicing used use nichrome wire because the heating unit to melt or fuse fibers together. New fusion splicers have replaced the nichrome wire with fractional co2 lasers, electric arcs, or gas flames to heat the fiber ends, causing them to fuse together.

Another Fiber Optic Fusion splicer, Arc fusion splicer can splice single fibers or 4, 8, 12 and 24 fiber count ribbon fibers at the same time. The tiny size of the fusion splice along with the growth and development of automated fusion splicer machines have made electric arc fusion just about the most popular splicing methods of commercial applications. The fusion splicers offer sophisticated, computer controlled alignment of Fiber Optic cables to achieve loss as little as 0.02 dB.

As the best fiber optic communication supplier, Fiberstore gives a array of fiber Fusion splicers, such as Fujikura fusion splicer and Sumitomo fusion splicer, Fitel Furukawa fusion splicer. For additional imformation, please visit Fiberstore.