Principle of fiber optics is founded on transmission of information by means of light. Reasoning behind fiber optics was basically conceived by Claude Chappe in 1790’s. His idea for OTDR was based on an optical telegraph concept designed by Graham Bell also tried the ways to send information through the atmosphere but failed to succeed. Finally, fiber optics emerged with the onset of new era in accordance with the principle of total internal reflection which is a distinct quality of light rays.
Fiber optics emerged and grew into sophisticated phase due to requirement from radio and telephone engineers. These engineers required more bandwidth for data transmission. Thus these engineers ended up being looking out to get a medium to deliver data in reliable and faster form instead of copper cables. In addition they wanted to steer clear of the hazards of electric shocks and interference that were a continuing problem of copper cables.
Fiber optics had attracted some attention since they were analogous in principle to plastic dielectric waveguides found in certain microwave applications. Finally a technology evolved that used glass or plastic threads to deliver data. Cables involved in fiber optics contain several bundles of glass threads which are designed for transmitting data in modulated form.
With all the onset of fiber optics and fiber optic cables data begun to transfer faster as fiber optic cables have greater bandwidth than metal cables and they are more immune to external interference. Lighter and thinner fiber optic cables readily transfer data in digital form as opposed to analogue form. This technology is most useful in computer industry which now forms an integral part of telephone, radio and tv industry.
Telecommunications applications of OTDR use flexible low-loss fibers, employing a single fiber per optical path. Combined with the communication industry fiber optics plays an important role in ff8Od1 and industrial applications also. Many medical appliances like endoscope utilize the principle of fiber optics. Industrial applications viz. in television industry make use of the principle of fiber optics to acquire flattened images in cathode ray tubes.
Fiber optics yield distortion free data transmission in digital form. The audio waves transmitted via principle of fiber optics deliver accurate signal transfer. Fiber optics is also valuable in automotive and transportation industry. Traffic lights, organized and scrutinized highway traffic control, automated toll booths, etc. are some of the benefits associated with use of fiber options in the transportation mechanism.
Cable TV companies and Internet Agencies equivocally find fiber optics indispensable with their industry. Fiber optics provides tamper free, high bandwidth and larger data carrying capability to the providers. This eventually results in better consumer satisfaction.
Unlike copper wire system fiber optics do not use and electrical form to transport data. The usage of light offers a edge against your competitors to fiber optics over regular data transmission options. But eventually use of splicing machine is extremely expensive as compared to copper cabling system.