When it comes to the best network hardware and cabling, fiber optics are top of the class. Compared to traditional copper wire network cables, they are faster and more durable, for a variety of other reasons.
So what makes fiber optic networks so much better than any other type of network? There are many reasons to implement GPON in your business’s network infrastructure. We at House of I.T have 5 of the best reasons why your businesses should adopt GPON.
Before jumping into the main reasons, it is important to establish a little background on fiber optics.
Fiber optic cabling is the type of cabling used in optical networks, such as Gigabit Passive Optical Networks (GPON). It is through the use of fiber optic cables that optical networks are able to operate at the level of efficiency that they do.
The material that is used in fiber optic cables (which will be covered later in this post) allows for data to be transferred at incredibly high speeds, significantly fast than traditional copper wire cabling.
GPON has faster speeds than any other cabling system. This is probably going to be the first thing people look for in a network. Fortunately, GPON delivers on that front.
Traditional copper wiring can only go up to roughly 100 megabits per second (Mbps). This is fine for the average household, but most businesses with many employees will encounter issues using copper wiring in today's business world.
GPON, however, demolishes it in terms of speed. On average, GPON transmission download speeds range from 1.25 gigabits per second (Gbps) to around 2.5Gbps. At its slowest, GPON will still be at least ten times faster than traditional cable wiring.
GPON cables are cheaper to purchase and take up less space on average, meaning building a GPON network is more inexpensive in both the short and long run. GPON cabling is cheaper than copper cables, often up to 50% cheaper to buy and implement.
Additionally, since fiber optic cables are smaller than copper cables, the amount of dedicated space needed to maintain an internal network properly will be lower.
GPON can transmit data over a longer distance than any other type of cabling. Traditional copper cabling, for example, is limited to roughly 100 meters before the signal terminates.
GPON, in comparison, can go up to 20 kilometers before termination. In other words, GPON is up to 1000 times more effective than copper cables.
A typical fiber optic cable is made up of multiple components. As a result, fiber optic cabling is more durable than traditional copper cabling. The core of all fiber optic cables is made up of an extremely thin strand of glass, which allows a signal to transmit both quicker and over longer distances than any other form of cabling available.
Around the glass strand, there are a few other materials that hold it together. Surrounding the core is a layer of cladding, which reflects light back into the core. This helps the core transmit data quicker and over longer distances. Around the cladding is a synthetic material known as Kelvar. Since Kelvar is a tensile material that can be bent and stretched, the cables can resist damage when moved. Finally, the Kevlar is wrapped with a jacket (also known as the cable's sheathing) to help prevent outside elements from damaging the cabling.
Beyond the fiber optic cables themselves, there are also materials used to connect the cabling. Immediately connected to the fiber optic cable is a plastic (or rubber) piece called the boot. The boot's primary purpose is to support the cable and the connector to prevent breaks and strain on the cabling. As its name implies, the connector is the end of the cable that is plugged into network equipment. The tip of the connector, known as the ferrule, is used for precision alignment when plugged into equipment.
As you read prior, fiber optic cables do contain glass. However, as the glass itself is thin, paired with the multiple layers of material coating it, fiber optic cables have a considerable amount of durability to them that traditional copper wire ethernet cables do not have. While you should not overly stretch or excessively bend the cabling (just like any other cable), fiber optic cables are able to be moved and bent to reasonable amounts.
Also, as fiber optic cables use glass as their primary method of transmitting data, they are not susceptible to electromagnetic interference like traditional copper wires are. This allows them to not only last longer before failing than copper wire cables but also perform better as a result. Additionally, fiber optic cables are resistant to extreme heat and catching on fire, making them safer and not a potential fire hazard.
As far as electricity and air conditioning needs are concerned, GPON networks require less than traditional copper wire networks.
This is largely due to not needing to operate at as high a temperature, as well as having fewer components across the whole system. The efficiency and high-level technology needed to set up the cabling system make it one of the best innovations of recent times.
Installing a GPON network may be an affordable, energy-efficient way to optimize both the speed and efficiency of your network, but it is not something the average person should attempt. Understanding fiber optic cabling and its installation into a network require a great degree of technical understanding, preparation, and time.
The experts at House of I.T are an IT consulting firm specializing in GPON architecture, GPON design, and installation of GPON. They have countless years of combined experience working with fiber optic cabling, as they frequently install them for businesses like yours.
If you are interested in implementing or switching to GPON or would like more information about fiber optic cables, we would encourage you to contact us. We hope to hear from you in the future!