It seems as though fiber optic systems are here to stay, replacing copper wire as the preferred method of cabling for communication and signal transmissions. For those not in the know, this is a confusing change, especially if you do not understand fiber optics. This change is because of several reasons, as fiber optic systems have the upper hand in speed, bandwidth, distance, resistance and maintenance. To understand why fiber optics is becoming so commonplace, it is easy to start with the differences.
The difference between copper and fiber optic systems is that fiber optics use light pulses down fiber lines, rather than electronic pulses down copper lines. With fiber optic systems, a transmitter generates the information at the end of the line. The transmitter will accept coded electronic pulses, translating them into the equivalent light pulse.
To generate light pulses, you can use an injection laser diode (ILD) or a light emitting diode (LED). The reason light travels so easily and quickly with these fiber optic systems is because of total internal reflection. Because of the angles, light cannot get out of the glass, but will bounce back inside. By altering the material used for the core, you can vary the wavelengths of infrared applications. Some of the more common materials include silica, fluorozirconate, fluoroaluminate and chalcogenide glasses, which you would typically use for longer wavelength needs. For these materials to work, the core has to be very clear, and the light is typically infrared.
Fiber optic systems can operate at a higher speed than copper networks, even reaching speeds into the gigabits. When you combine that with the fact that fiber optic systems have a large carrying capacity, it is not hard to see why many users are switching from copper.
Unlike copper systems, fiber optics signals travel greater distances. This is because signals do not need refreshing or strengthening with fiber optics. Signals have the power to keep going continuously, similar to the light bent around the mirror inside a paper towel. Even if there are corners, fiber optics can travel great distances.
Fiber optic systems also have a greater resistance to electromagnetic noises than copper systems. Whether you have nearby cables, motors or radios, you will not need to worry about the resistance with fiber optics. While there is still some interference to the noise, fiber optic systems have a greater resistance than copper.
Perhaps the biggest decisive factor when choosing systems for you to consider is cost. Overall, fiber optic systems typically cost less to maintain. When you combine this low maintenance cost with all of the other advantages over copper, it is no wonder why so many individuals are using fiber optics.
With so many things in the favor of fiber optic systems, such as speed, bandwidth, distance, resistance and maintenance costs, it is easy to see where the future of cabling is. When planning your cable management and cable tray needs, consider fiber optic systems to see if they will meet your needs.
The difference between copper and fiber optic systems is that fiber optics use light pulses down fiber lines, rather than electronic pulses down copper lines. With fiber optic systems, a transmitter generates the information at the end of the line. The transmitter will accept coded electronic pulses, translating them into the equivalent light pulse.
To generate light pulses, you can use an injection laser diode (ILD) or a light emitting diode (LED). The reason light travels so easily and quickly with these fiber optic systems is because of total internal reflection. Because of the angles, light cannot get out of the glass, but will bounce back inside. By altering the material used for the core, you can vary the wavelengths of infrared applications. Some of the more common materials include silica, fluorozirconate, fluoroaluminate and chalcogenide glasses, which you would typically use for longer wavelength needs. For these materials to work, the core has to be very clear, and the light is typically infrared.
Fiber optic systems can operate at a higher speed than copper networks, even reaching speeds into the gigabits. When you combine that with the fact that fiber optic systems have a large carrying capacity, it is not hard to see why many users are switching from copper.
Unlike copper systems, fiber optics signals travel greater distances. This is because signals do not need refreshing or strengthening with fiber optics. Signals have the power to keep going continuously, similar to the light bent around the mirror inside a paper towel. Even if there are corners, fiber optics can travel great distances.
Fiber optic systems also have a greater resistance to electromagnetic noises than copper systems. Whether you have nearby cables, motors or radios, you will not need to worry about the resistance with fiber optics. While there is still some interference to the noise, fiber optic systems have a greater resistance than copper.
Perhaps the biggest decisive factor when choosing systems for you to consider is cost. Overall, fiber optic systems typically cost less to maintain. When you combine this low maintenance cost with all of the other advantages over copper, it is no wonder why so many individuals are using fiber optics.
With so many things in the favor of fiber optic systems, such as speed, bandwidth, distance, resistance and maintenance costs, it is easy to see where the future of cabling is. When planning your cable management and cable tray needs, consider fiber optic systems to see if they will meet your needs.
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