The fiber optics is just one of those new technologies that have greatly revolutionized the way we send and receive information. Wires had been for a long time the only way that we could send and receive information but the coming of this technology provided a new and more efficient way of doing this; hence, the need for Fiber Optic Training which therehence empowers people on how to adopt to these technological advancements made over the years.
Refraction of light is usually the basic principle used in transmitting the signals in these cables. The walls of fiber optic strands allow light to be refracted along its path and in a very short period of time usually micro seconds. Since the strands are usually very tinny it is possible to compact very many of them within a single cable allowing a lot of information to be sent.
The cable is usually made up of a protective casing which protects the internal components from elements of weather, the middle pipe usually of a lower refractive index ensuring the light signals being transmitted do not escape and the core which is usually where the refraction of light takes place.
Depending on use there are usually different type of cables in the market. Single mode optic fibers usually have very thin fibers as compared to all the other kind of fibers this makes them only allow light to travel in a straight line in them. Multi mode cables have thicker strands creating enough room for light to travel in a wide array of paths in the strand. Other types of fiber optics present include the fiberscopes and also the gyroscope which has the thickest of all the fibers.
There are many benefits that come along with use of optic cables chief among them being the fact that they are not affected by electromagnetic interferences which cause signal degradation. This makes them very safe as it is not easy for hackers to tap into the information being sent. Hackers usually capitalize on electromagnetic interferences as the loop hole which they use to get information.
The cables used are also light weight and easier to carry and install with them supporting a higher bandwidth with much faster high speed signals as a result of using light, which usually travels very fast. Due to lower signal degradation in optic fibers signals sent through them are crisp clear. Low signal degradation also allows use of low power transmitters instead of the high voltage once used in copper wires that usually consume a lot of power.
Setbacks of optics fibers include the high installation cost and fragility of these strands when exposed to elements of weather such as hydrogen. It is also not easy to join up the optical fibers as is usually the case with copper wires. Joining them up requires one to use very specialized technical expertise so as not to interfere with the refraction of the light signals.
More and more people have embraced the use of this technology. Use of fiber optic cable has spread to the medical field. It is now being used in study of internal body parts when detecting illnesses. Industries have also embraced the technology and it is now extensively used to inspect pies for cracks and also minor defects in machine parts during manufacture.
Refraction of light is usually the basic principle used in transmitting the signals in these cables. The walls of fiber optic strands allow light to be refracted along its path and in a very short period of time usually micro seconds. Since the strands are usually very tinny it is possible to compact very many of them within a single cable allowing a lot of information to be sent.
The cable is usually made up of a protective casing which protects the internal components from elements of weather, the middle pipe usually of a lower refractive index ensuring the light signals being transmitted do not escape and the core which is usually where the refraction of light takes place.
Depending on use there are usually different type of cables in the market. Single mode optic fibers usually have very thin fibers as compared to all the other kind of fibers this makes them only allow light to travel in a straight line in them. Multi mode cables have thicker strands creating enough room for light to travel in a wide array of paths in the strand. Other types of fiber optics present include the fiberscopes and also the gyroscope which has the thickest of all the fibers.
There are many benefits that come along with use of optic cables chief among them being the fact that they are not affected by electromagnetic interferences which cause signal degradation. This makes them very safe as it is not easy for hackers to tap into the information being sent. Hackers usually capitalize on electromagnetic interferences as the loop hole which they use to get information.
The cables used are also light weight and easier to carry and install with them supporting a higher bandwidth with much faster high speed signals as a result of using light, which usually travels very fast. Due to lower signal degradation in optic fibers signals sent through them are crisp clear. Low signal degradation also allows use of low power transmitters instead of the high voltage once used in copper wires that usually consume a lot of power.
Setbacks of optics fibers include the high installation cost and fragility of these strands when exposed to elements of weather such as hydrogen. It is also not easy to join up the optical fibers as is usually the case with copper wires. Joining them up requires one to use very specialized technical expertise so as not to interfere with the refraction of the light signals.
More and more people have embraced the use of this technology. Use of fiber optic cable has spread to the medical field. It is now being used in study of internal body parts when detecting illnesses. Industries have also embraced the technology and it is now extensively used to inspect pies for cracks and also minor defects in machine parts during manufacture.
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