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Improvements In Fiber Optic Splice Closure Continue

Date:05-02-2018

Fiber optic communications have changed the way we live for the past 40 years. There is no doubt that low loss optical transmission fiber is crucial to the great success of optical communication technology. However, it is well-known that fiber-based materials also play a key role in this success.

Initially, optical fiber transmission system is a point to point system, its length is much smaller than 100 km. In the 1980s, the research and understanding of optical components including optical fiber components made rapid progress. Many of these fiber optic components find commercial applications in optical sensor technology, such as in fiber optic gyros and other optical sensor devices. Simple components such as power dividers, polarization controllers, multiplexing components, interferometers, and other optical components proved to be very useful. Most of these components are made of PMF.

Although the application of optical fiber sensors is not a big market, since the application of optical fiber sensors has stimulated the research into the manufacture of new elements such as polarization maintaining elements, other elements such as power dividers are made up of standard multimode (MM) or Singlemode fiber optic communications. In the field of telecommunications, a so-called passive optical network is proposed for the already-assumed fiber-to-the-home (FTTH) network. This network relies heavily on the use of passive optical splitters. These splitters are made from standard single mode fiber (SMF). Click here for price Singlemode fiber optic cable. Although large-scale FTTHs do not appear until decades later, research into the components used in telecom applications continues and fiber optic splice closure is constantly being improved.

The commercialization of fiber amplifiers in the early 1990s led to the revolution in fiber optic transmission. By zooming in, the optical signal can travel hundreds of kilometers without regeneration. This has significant technical and commercial implications. Rapid introduction of new fiber optic components to achieve better amplifiers and enhance these transmission systems. Now, the fiber optic splice closure is gradually being applied to life.