The benefits of optic fiber technology

optic fiber technology
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With the advent of fibre optics, the telecommunications sector has undergone radical change

The connection of modern small and medium-sized company networks is becoming more dependent on fibre optics. For this to work, bandwidth has to be increased. Fibre optics is well-suited to handle bandwidth-intensive devices because of its high throughput. However, fibre optics have a high price tag. The following four advantages, on the other hand, far exceed the installation expenses.

communicating in a non-public manner

One of the most secure methods of data transfer is through fibre optic cable. Intercepting transmission signals is almost impossible due to the cabling’s design. If you try to break the glass table, you’ll have “light leakage,” which will result in a noticeable breakdown in communication.

Electromagnetism compatibility:

Many of the external factors that might harm copper wire are absent from fibre optic cable. The use of fibre optic cabling is highly suggested in areas such as industrial buildings, which have a lot of big motors, controllers, and air conditioners continuously beginning and stopping, as well as hospitals. Network equipment’s EM/RFI (electromagnetic and radio-frequency interference) may cause data loss and substantial packet stream delay as it travels over the network.

The maximum speed has been raised.

Data may be transferred across great distances using fibre optic cables, which have a light-carrying core within. There is a 31% difference in data transmission speed between fibre optic connections and copper wires, making fibre optics much superior to copper in terms of speed. Using fibre optic connections also reduces the degradation of the signal.

Distances that are longer in distance

Cable type, wavelength, and network design all have an impact on how far a connection can travel in real-time.

System Reliability Is Improved

In contrast to the copper wire which may have connection issues due to temperature fluctuations and harsh weather, fibre optic cable is unaffected by moisture. Fibre is also immune to electromagnetic interference (EMI), which may cause data transmission to be stopped since it does not carry electric current. Unlike old or worn-out copper wires, it doesn’t catch fire.

Thickness is reduced, and the product is more durable.

In comparison to fibre optic cables, copper wires are thicker and heavier. Fibre is more damage- and fracture-resistant than copper and can sustain higher drawing pressures than copper.

Future Increased Flexibility

With the use of media converters, it is feasible to connect fibre to existing networks. UTP Ethernet connections may be extended over fibre optic cable by using converters These systems, which may be accessed through panels, contain a variety of cassettes for various kinds of fibre patch cables.


Fibre-optic wiring is more costly and slower than copper wiring. High bandwidth rates per strand may be achieved using glass fibres with very tiny dimensions. Even though the copper cable is capable of delivering these speeds, a significant number of category 6 lines would need to be aggregated to achieve the rates achieved by a single fibre strand.


Electromagnetic interference cannot interfere with fibre optics (EMI). To conclude, this means the signals coming from both ends are of a comparable type. Lightning or waves generated by large corporations have little impact on fibre optic links, making the technology a very effective communication tool. Fibre cable transmissions are ideal for sensitive data transfer because they are not influenced by outside signals.

Secure and private communication

Fibre optic cables communicate more securely than conventional electrical connections because they utilise light instead of electrical currents. Because so much data is being sent over these lines, a fibre optic wiretap would be very difficult to perform. When fibre optics are used for communication, the sent data is safeguarded from being intercepted by hostile people since it is more secure than conventional communication methods.

Electricity is not transmitted through cables.

Glass or plastic fibre optic cables are used. Electrical currents cannot harm these materials since none of them transfers electricity. Lightning hits the connection, but the fibre optic cable is unaffected, thus communication may continue as normal. Fibre optic technology is an excellent choice for communication in regions prone to lightning and other natural disasters.

Installing the software is a snap.

Lightweight fibre optic cables, which are one-tenth the weight of conventional copper wires, make them ideal for use in a wide range of applications. Installation costs are decreased because labour expenditures are reduced throughout the process. Fibre optic networks may be put up more rapidly and effectively due to the simplicity with which they can be deployed. Because fibre optics are small and light, they are easier to install and move about once they are installed. Never store copper wires in a dark place at night to prevent corrosion or other environmental conditions that may shorten their lifespan.

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