A fiber optic cable is a network cable that contains strands of glass fibers inside an insulated casing. These fiber optic cables are designed for long distance and very high bandwidth network communications. The optical fiber elements are typically individually coated with plastic layers and contained in a protective tube suitable for the environment where the cable will be deployed. Different types of cable are used for different applications, for example long distance telecommunication, or providing a high speed data connection between different parts of a building. Fiber optic cables carry communication signals using pulses of light. While expensive, these cables are increasingly being used instead of traditional copper cables, because fiber offers more capacity and is less susceptible to electrical interference. So called Fiber To The Home (FTTH) installations are becoming more common as a way to bring ultra high speed Internet service to residences. To understand how a fiber optic cable works, imagine an immensely long drinking straw or flexible plastic pipe. For example, imagine a pipe that is several miles long. Now imagine that the inside surface of the pipe has been coated with a perfect mirror. Now imagine that you are looking into one end of the pipe. Several miles away at the other end a friend turns on a flashlight and shines it into the pipe. Because the interior of the pipe is a perfect mirror, the flashlight’s light will reflect off the sides of the pipe (even though the pipe may curve and twist) and you will see it at the other end. If your friends were to turn the flashlight on and off in a morse code fashion, your friend could communicate with you through the pipe. That is the essence of a fiber optic cable. Transmitter A transmitter is a device found at the beginning of a fiber optic cable network. The transmitter takes information and turns it into a pulsing light wave that can be sent along a fiber optic cable. A lens is then used to send the light into a fiber optic cable. The light will travel along the fiber optic cables more quickly and with less signal degradation than occurs when sending data along traditional coper wires. Fiber Optic Cable The core of a fiber optic cable is made of a very clear glass tube that transmits light. This glass core is surrounded by a coating called cladding. Light will travel down the fiber optic tube in a straight line. Unfortunately, not all fiber optical cables can be laid along a straight path, so the cladding surrounding the cable is mirrored. The light bounces off of the mirrors on the cladding and is directed back into the fiber optic core to continue its journey along the cable. Optical Regenerator Sometimes a light signal must travel through a fiber optic cable over a very long distance. Although signal degradation is minimal in a fiber optic cable, some degradation does occur. When a cable covers a long distance, optical regenerators are placed at certain intervals along the cable. Optical regenerators are fibers that have been treated with a laser. The molecules in the fiber allow the signal traveling through the fiber optic cable to take on laser properties themselves, which strengthens the light signal. Optical regenerators essentially strengthen the light signal that is traveling through a fiber optic cable. Optical Receiver At the end of the fiber otic network there is an optical receiver. This receiver is essentially performs the opposite function of the transmitter found at the beginning of the system. Optical receivers receive the light signal from the fiber optic cable and turn it back into information that a computer or television know how to understand and use. It then sends the decoded signal to the computer or television. FiberStore provides a wide range of quality optical fiber cables ( such as Large core glass fibers, loose tube cables, indoor outdoor cables and so on)with detailed specifications displayed for your convenient selecting. Article Source: http://www.fiber-optic-components.com/
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