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At the close of the century, 80% of long-distance telephone traffic was traversing the globe via fiber optic cables.įiber optic internet is currently available in certain locations across the United States and in other countries around the world. It was capable of handling 40,000 simultaneous voice calls. TAT-8 was less than 1 inch thick in diameter. 1988 – the first transatlantic fiber-optic cable, TAT-8, successfully transmitted data across the ocean floor from New Jersey to England and France.At that time, the optical fiber carried what is equivalent to 672 voice channels. 1977 – Chicago became home to the first fiber optic telephone communication systems, which were buried underneath the city.government had used fiber optic cables to link two computers, reducing interference.
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The information transfer rate was 65,000 times faster than copper wire, showing researchers the true potential of fiber optics. This information could then be decoded at the final destination. This innovation allowed for the transfer of information via light wave patterns. In the early 1970s, Corning Glass researchers invented Optical Waveguide Fibers, commonly known as fiber optic wire.Each advancement paved the way for the fiber optic service we know today. Following that, the world experienced a surge of advancements in the design and use of communication fibers. By 1926, RCA Rocky point Laboratory in Long Island, NY, worked with Clarence Hansel to outline the principles (and later patents in the U.S.A and Britain) of, fiber-optic image bundling.Also during the mid-1800s, two valuable observations made by Daniel Colladon (1841) and John Tyndall (1854), both of which discovered the ability to conduct light through streams of water, further set the stage for fiber optic theory.Between the 1700s and the 1800s, the roots of fiber optic communication experienced significant growth, with the invention of the optical telegraph in 1790 (Claude Chappe) and the Photophone in 1880 (Alexander Graham Bell).At that time, the Romans found it was possible to draw glass into fibers. The foundational innovations behind fiber optic internet actually date as far back as 2500 B.C.When viewed over time, fiber optic internet is considered to be a relatively new technology. As it becomes more available and to satisfy user demands, fiber optic internet is becoming the main source of competition for broadband, DSL, cable, and satellite internet services Additionally, a fiber connection allows for greater data capacity while limiting loss and interference. Fiber internet speed does not degrade over longer distances, like copper based internet connections. Using fiber optic cables, which bundle glass strands to transmit data, a fiber optic internet connection offers high speed upload and download times. A fiber optic internet connection allows users to access, upload and transmit information at speeds that surpass traditional internet mediums, such as copper based DSL or cable connections. When it comes to today’s digital requirements, fiber optic internet is significantly quicker and more reliable than its predecessors. This particular transmission method can transport more data than copper, which was originally designed to transmit only voice (i.e., early telephone services). This is then decoded to present information (images, text, sounds, etc.) to the end user. The light transmits information through encoded light signals, or binary. Light moves and reflects along the bends and curves in the optical cable. Unlike copper lines, which are typically used for cable or DSL services, fiber optic lines are composed of plastic or glass strands that are used to transmit light. As the name would suggest, fiber optic internet is internet that is provided through special fibers or strands that are bundled into optic cables.