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.
Fiber optic cables usually work from a very basic principle of refraction of light. When light is refracted within the strands usually at an angle less than 41 degrees, it bounces off the walls repeatedly as it moves along the fiber strands. Light travels very fast therefore within a very short time it able to bounce and travel very long distances.
These cables have very few components with each crafted to perform very specific function. The core contains strands which are usually very thin and tiny as compared to the human hair and this is where the refraction of light takes place. The core is surrounded by a middle tube which is usually of a lower refractive index when compared to the core fibers. It prevents light being refracted from escaping from the core. There is then an outer casing which prevents the internal components from mechanical damage.
These cables are known to be of different types which include single mode. In this the core signals travel straight down the middle as they bounce along the core. Multi mode which usually have wider strands allowing light to travel along different paths. Others include the gastro scope which has the thickest optic fibers and the fiberscope.
When compared to using copper wires fiber optic cables have numerous advantages the most important of them being light used in transmitting the information is not affected by electromagnetic waves. The signals are thus safe from hacking which is usually done using electromagnetic interception of signals as they travel.
These cables are also very light to carry around making their installation very easy. Low signal degradation even over long distances also makes signals sent through them to be very clear. In terms of transmitter use it also allows one to use low signal transmitters as the signal degradation is usually low within the entire channel.
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.
Optic fibers have provided a very efficient ways of sending information with their use not only being limited to the communication industry but also in medicine where gyroscopes have been used to make keen observations on internal organs. In major industries these cables have also been used in inspecting pipes for minor details which are usually not possible to detect with the human eye.
Fiber optic cables usually work from a very basic principle of refraction of light. When light is refracted within the strands usually at an angle less than 41 degrees, it bounces off the walls repeatedly as it moves along the fiber strands. Light travels very fast therefore within a very short time it able to bounce and travel very long distances.
These cables have very few components with each crafted to perform very specific function. The core contains strands which are usually very thin and tiny as compared to the human hair and this is where the refraction of light takes place. The core is surrounded by a middle tube which is usually of a lower refractive index when compared to the core fibers. It prevents light being refracted from escaping from the core. There is then an outer casing which prevents the internal components from mechanical damage.
These cables are known to be of different types which include single mode. In this the core signals travel straight down the middle as they bounce along the core. Multi mode which usually have wider strands allowing light to travel along different paths. Others include the gastro scope which has the thickest optic fibers and the fiberscope.
When compared to using copper wires fiber optic cables have numerous advantages the most important of them being light used in transmitting the information is not affected by electromagnetic waves. The signals are thus safe from hacking which is usually done using electromagnetic interception of signals as they travel.
These cables are also very light to carry around making their installation very easy. Low signal degradation even over long distances also makes signals sent through them to be very clear. In terms of transmitter use it also allows one to use low signal transmitters as the signal degradation is usually low within the entire channel.
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.
Optic fibers have provided a very efficient ways of sending information with their use not only being limited to the communication industry but also in medicine where gyroscopes have been used to make keen observations on internal organs. In major industries these cables have also been used in inspecting pipes for minor details which are usually not possible to detect with the human eye.
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