The type of fiber optic wire and cable is more known for use in telecommunication networks. It is interesting to know that most people have not heard anything about their use in medical and military fields.
As we mentioned, servers and telecommunication networks are the most well-known applications of these cables.
Therefore, first, let’s see what telecommunication networks are and for what purpose these cables are used.
A communication network consisting of an electronic system of links and switches, as well as the controls that regulate their operation, which allows the transmission and exchange of data between different users.
It is necessary to set up some kind of network between many people using different forms of communication technology so that they can talk to each other.
In theory, it is possible to provide each user with a direct point-to-point link to all other users in a fully connected topology (similar to the connections used in the early days of the telephone), but in practice this is impractical and expensive. is, especially for a large network that is spread in different places.
Furthermore, the strategy is inefficient, as most links will be inactive at any given point in time.
These challenges are circumvented by contemporary telecommunications networks by creating an interconnected network of switches, also known as nodes, such that each user connects to one of the nodes.
A communication channel is the name given to each individual link that makes up such a network.
There are several different communication methods that can be used, including wire, fiber optic cable, and radio waves.
Optical fibre cable
A technique known as fiber optics or fiber optic cable is used to send information in the form of light pulses on fiber strands made of either glass or plastic and stretched over long distances.
When optical fibers are included in a fiber optic cable, they have the ability to carry more data over longer distances and at higher speeds than other media.
This is because the diameter of optical fibers is comparable to the diameter of a human hair.
Providing Internet, telephone and fiber optic TV services to residential and commercial properties is possible with this technological advancement.
The number of these glass fibers included in a fiber optic cable may vary from a few to several hundred depending on the length of the cable.
Cladding is the name given to the additional glass layer that is wrapped around the glass fiber core.
The cladding is protected by the buffer tube layer and the jacket layer acts as the last layer of defense of the filament against potential damage.
Fiber optic cables have many advantages over copper lines that have led to their widespread adoption. One of these advantages is more bandwidth as well as higher transfer speed.
Data transmission over long distances and at high speed can be done with optical fiber.
In addition, it is often used in the provision of communication services, including the Internet, television and telephone.
Fiber optics, for example, is used by Verizon and Google to provide gigabit Internet speeds to customers through the use of their respective Verizon FIOS and Google Fiber services.
Fiber optic inner workings
Data is transmitted through fiber optic cables in the form of light particles, often known as photons. These photons pulse as they travel along the cable.
Both the glass fiber core and the cladding have a specific refractive index that causes light to bend when entering the fiber at a certain angle.
When light signals are transmitted through a fiber optic cable, they go through a process known as total internal reflection, where they bounce off the core and cladding in a series of zigzag bounces as they travel through the cable.
As a result of denser layers of glass, light signals do not travel at the speed of light. Rather, they travel at a speed that is approximately 30% less than the speed of light.
Repeaters at significant distances are often required at various points along the fiber optic signal path to renew or amplify the signal as it travels.
The optical signal is reconstructed by these repeaters by converting it into an electrical signal, then processing that electrical signal and then retransmitting the optical signal by these repeaters.
These days, signals of 10 gigabits per second can be transmitted using fiber optic connections.
In general, the cost of fiber optic cable increases as its capacity to transmit data in a given period of time increases.
Interesting benefits that you didn’t know
The interesting thing about these cables is that your daily activities are highly dependent on the benefits and properties of these cables, and you never imagined or knew how exactly this process happened.
If you own a business today, chances are you use cloud-based services like Dropbox or Google Drive to keep your employees and customers productive.
The emergence of cloud computing services and technologies has led to a profound change in the way businesses conduct their operations.
It is now a given that information may be downloaded almost instantly in the world we currently live in.
Enterprise network infrastructure must be evaluated so that they can continue to meet the high demands for high-speed access.
Loss of company productivity and efficiency may be the result of factors such as slow internet speed, high latency and “limited” connections. Additionally, fiber optic networks can help in several of these areas.
Fiber optic networks are able to provide faster connection speeds to multiple users at the same time.
Fiber optic networks have the potential to provide significant benefits to businesses, including advanced cloud connectivity, voice over Internet Protocol (VoIP) capabilities, and improved overall capacity.
These potential benefits can help your company maintain a higher level of communication.
It is now much easier to integrate a fiber optic network, enabling faster connectivity and higher levels of productivity.
This is due to the fact that fiber optic networks are increasingly available to people and companies.
In the following paragraphs, we take a look at some of the most important reasons why a fiber optic network can be the most suitable option for you. Below are six important advantages of using fiber optic network:
Better bandwidth
The bandwidth of fiber optic cables is significantly higher than that of metal cables. A significant advantage that fiber optic cables offer over other types of transmission media is the increased amount of data that can be carried in the same amount of time.
In addition, as the number of companies that need data transmission continues to increase, the availability of high bandwidth becomes a very important factor.
If your current network has low bandwidth or is struggling to meet some of your business’s current data transfer needs, if you’re having problems with multicast video crashes, if your CCTV images are pixelated or cropped, or if you’re having trouble accessing the cloud you have a problem Applications Upgrading to fiber optic connectivity may have significant benefits for your organization.
More bandwidth means more speed.
Since we live in such a fast-paced culture, it has become standard for us to be able to download and send content simultaneously, including videos, files, and even phone conversations.
Because of this, companies with slow internet connections can lose output for weeks at a time.
If you want your company to be as productive as possible, having a fast, efficient, and reliable Internet connection is absolutely essential.
Fiber optic networks offer speeds from 5 megabits per second (Mbps) to 100 gigabits per second (Gbps), making them significantly faster than the largest copper Internet connections.
Thanks to the high-speed data connection provided by the fiber optic network, your employees can enjoy equal loading and unloading times.
Longer transmission distances
Because fiber optic cable has low power loss, when used as a transmission medium, greater bandwidth can be achieved over longer distances.
Copper cables have a distance limit of 100 meters, while fiber optic cables can travel tens of kilometers.
The maximum distance that copper wires can travel is 100 meters.
Greater degree of compatibility
Unreliable internet connectivity can add significant costs to a company.
Productivity in an organization can come to a complete halt due to even the smallest amount of unplanned downtime. Reliability of communication and connectivity is a basic necessity for any business.
Fiber optic cables are significantly more flexible and lighter in weight than their copper counterparts. Copper can withstand less tensile stress than fibers, however, fibers are more resistant to damage and breakage than copper.
Flexible fiber is resistant to most corrosive elements and flexible, making it a superior alternative to copper cables in many applications.
Because fiber optic cables do not allow electrical currents to pass through them, connections made using fiber optics are completely immune to the effects of electromagnetic interference, lightning, and radio waves.
Copper networks are vulnerable to induced lightning, lightning, and intentional signal jamming because copper cables are designed to conduct electricity.
Additionally, fiber optic networks are not vulnerable to adverse weather conditions, which can disrupt or completely stop data transmission when carried over copper wiring.
Reduce response time
Fiber optic networks solve a significant number of latency problems that consumers face when connecting to cable Internet, especially when downloading or uploading a video or viewing high-definition content.
Reducing latency can have a number of positive effects on a company’s performance, including improving the quality of voice calls made by users over Voice over Internet Protocol (VoIP), the ability to move more applications to the cloud, download and upload without Interruption of large files and increased interdepartmental cooperation.
Increase the level of security
Fiber optic cable keeps data secure. It is very difficult to tap without your knowledge because it does not broadcast signals and it is very difficult to do so.
Unlike copper systems, which require equipment to be installed at distribution points located around the building, all necessary hardware and electronics can be installed in a single, centralized location.
This gives it a higher level of physical security.
By providing customers access to fiber optic networks, data speed and efficiency can be increased.
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Regardless of the scale of the project, each of our products is of the highest quality, and as a result, we can reliably assure our customers of excellent fixed network performance.
We offer a wide range of wires and cables with our product pricing policy in line with global market prices.
You can easily contact us and be sure that you will get a relatively lower price than the market.
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