Splicing fiber optic cable is definitely not like splicing metal cables together. It can reach a very precise method is best with a fusion splicer. A splicer connects two optical waveguides with each other by melting or fusing them.sfp might be divided into 3 groups: simplex, duplex and many soluble fiber connectors To minimize the potential visual loss or loss of signal, optical fibers must be connected to each other absolutely perfect.

Here’s how the process works. The fiber cable ends are first mounted in an enclosure in the splicing, to protect them during the melting process. Next to the ends of their coating shall be exempt. When an outer sheath is present, it is also stripped. The next step includes a tool called a fiber cleaver. Fiber separation device is used to the fibers in a manner which leaves the ends of the cables perfectly smooth and flat. If the ends are not absolutely perfect then just splice will not occur. After the split, the ends they are placed in holders in the splicer.Our mission is to save shoppers time, money by bringing together everything that’s needed to buy a optical splitter

Now the engines of the splicer, cables align ends together. Then, the cutting device a small spark generated at the gap between two electrodes. The reason for this is that you burn no moisture or dust, there is need. Dust or moisture may cause the splicing process to fail. After this step, a much larger spark is generated, the temperature rises at the cable ends above the melting point of the glass. This connects the cable ends together. The location of the spark and the amount of electricity it contains are to be monitored very carefully. To this precise control is necessary to ensure that the glass fiber and its cladding is not allowed to mix. If they mix it together to lead to optical losses.

After the cable ends fused together the splicer injected light through the jacket on one side of the splice and measures the light emerges from the sheath on the other side. This measurement is carried out to determine the amount of the splice. Splice loss is the amount of optical power at the connection point lost by the splicing. A splice loss of less than 0.1 dB is routine in the use of a fusion splicer.

As a general rule, the fiber ends is inspected before and after splicing. This is done using the Splicer screen that provides a magnified view of the splice.

Splicers are extensively used in telecommunications and computer networking. They are of inestimable value to the insurance that fiber-based network downtime is kept to a minimum.