fiber optic splicing

fiberoptic-internet

Top 8 Advantages of Fiber Optic Internet

Speed

Fiber optic internet (FiOS) uses cutting edge technology to reach the fastest speeds available today, as fast as 10000 Mbps (1Gpbs). It was created to provide communication services for home and personal use. Fiber Optic Internet is the future of broadband and its overcoming out of its competitors. Fiber Internet is immune to electromagnetic interference and it won’t be affected by electrical noise. These are 10 ways of fiber optic cable beats standard cable.

Time to download a two hour HD movie:

  • Fiber Optic Internet Speed 1 Gbps – 40 second
  • Cable Internet Speed 100 Mbps – 7 minutes
  • DSL Speed 25 Mbps – 30 minutes
  • 4G LTE Speed 35 Mbps – 25 minutes
  • 5G Internet Speed 10 Gbps – 4 seconds

Reliability

Your cable connection should be fast enough to stream video without interruption, but peak traffic overloads the wires. That is where fiber optic internet vs cable speed different get obvious. Fiber optics can handle more users and more data at consistently higher speeds, and fiber optic internet does not need energizes lines, so it is not as prone to outages as cable internet. As long as the fiber optic cable stays intact, it can keep delivering your bits and bytes even when the lights are out.

Bandwidth Throttling

Bandwidth throttling is the intentional slowing or speeding of an internet service by an internet service provider. It is a reactive measure employed in communication networks to regulate network traffic and minimize bandwidth congestion. Bandwidth throttling can occur at different locations on the network. On a broader level, the internet service provider may use bandwidth throttling to help reduce a user’s usage of bandwidth that is supplied to the local network.

Same speed for download and upload

Cable internet has different speeds for download and upload and upload speeds are a lot slower. That is based on how people use the internet. Most of us do a lot more downloading than uploading. In consequence, internet providers give most of their bandwidth to downloads. With fiber optic internet speed, that slow upload time goes out the window. Because there is no worry of overloading the system, fiber optic internet providers can give equal shrift to uploads and downloads alike.

Higher quality TV

Ultra-high-definition 4K TV pack four times more pixels into the same real state which makes pictures look better but it also needs more bandwidth from your internet connection. With speeds of 100Mbps pr less, cable internet may struggle at times to deliver 4K internet streaming high-quality 4K TV and movies.

Better gameplay

If you love to spend hours in front of the tv playing games you may already know fiber optic internet speed is the holy grail of gaming connections. In comparison to high-quality video streaming, gaming uses a tiny fraction of the data at less than 1 Mbps. Thanks to fiber optic internet providers, the smooth and constant flow of data means whenever you twitch your mouse hand, the game obeys.

Connecting with multiple devices

Gone are the days of the “household computer.” We now have multiple devices in our homes, from laptops to PCs to tablets, phones, smart speakers, and IoT devices like smart locks and thermostats. As our internet use increases, our need for reliable and fast data transmission does, too. Fiber optic internet providers ride to the rescue. The steady signal with less signal loss and 10 times more bandwidth means we can connect with multiple tablets, laptops, and several phones at once. Even with different people streaming music and video simultaneously, fiber optics can handle the load.

Safety

As the plan notes, first responders need faster, more reliable internet to get voice, data, and video to help them save lives. Better internet also gives all Americans deeper access to emergency services. It also provides more reliable notification in times of disaster and stronger national security.

fiberoptic-internet

Top 8 Advantages of Fiber Optic Internet

Speed

Fiber optic internet (FiOS) uses cutting edge technology to reach the fastest speeds available today, as fast as 10000 Mbps (1Gpbs). It was created to provide communication services for home and personal use. Fiber Optic Internet is the future of broadband and its overcoming out of its competitors. Fiber Internet is immune to electromagnetic interference and it won’t be affected by electrical noise. These are 10 ways of fiber optic cable beats standard cable.

Time to download a two hour HD movie:

  • Fiber Optic Internet Speed 1 Gbps – 40 second
  • Cable Internet Speed 100 Mbps – 7 minutes
  • DSL Speed 25 Mbps – 30 minutes
  • 4G LTE Speed 35 Mbps – 25 minutes
  • 5G Internet Speed 10 Gbps – 4 seconds

Reliability

Your cable connection should be fast enough to stream video without interruption, but peak traffic overloads the wires. That is where fiber optic internet vs cable speed different get obvious. Fiber optics can handle more users and more data at consistently higher speeds, and fiber optic internet does not need energizes lines, so it is not as prone to outages as cable internet. As long as the fiber optic cable stays intact, it can keep delivering your bits and bytes even when the lights are out.

Bandwidth Throttling

Bandwidth throttling is the intentional slowing or speeding of an internet service by an internet service provider. It is a reactive measure employed in communication networks to regulate network traffic and minimize bandwidth congestion. Bandwidth throttling can occur at different locations on the network. On a broader level, the internet service provider may use bandwidth throttling to help reduce a user’s usage of bandwidth that is supplied to the local network.

Same speed for download and upload

Cable internet has different speeds for download and upload and upload speeds are a lot slower. That is based on how people use the internet. Most of us do a lot more downloading than uploading. In consequence, internet providers give most of their bandwidth to downloads. With fiber optic internet speed, that slow upload time goes out the window. Because there is no worry of overloading the system, fiber optic internet providers can give equal shrift to uploads and downloads alike.

Higher quality TV

Ultra-high-definition 4K TV pack four times more pixels into the same real state which makes pictures look better but it also needs more bandwidth from your internet connection. With speeds of 100Mbps pr less, cable internet may struggle at times to deliver 4K internet streaming high-quality 4K TV and movies.

Better gameplay

If you love to spend hours in front of the tv playing games you may already know fiber optic internet speed is the holy grail of gaming connections. In comparison to high-quality video streaming, gaming uses a tiny fraction of the data at less than 1 Mbps. Thanks to fiber optic internet providers, the smooth and constant flow of data means whenever you twitch your mouse hand, the game obeys.

Connecting with multiple devices

Gone are the days of the “household computer.” We now have multiple devices in our homes, from laptops to PCs to tablets, phones, smart speakers, and IoT devices like smart locks and thermostats. As our internet use increases, our need for reliable and fast data transmission does, too. Fiber optic internet providers ride to the rescue. The steady signal with less signal loss and 10 times more bandwidth means we can connect with multiple tablets, laptops, and several phones at once. Even with different people streaming music and video simultaneously, fiber optics can handle the load.

Safety

As the plan notes, first responders need faster, more reliable internet to get voice, data, and video to help them save lives. Better internet also gives all Americans deeper access to emergency services. It also provides more reliable notification in times of disaster and stronger national security.

fiber optic splicing

Fiber Optic Splicing

Nowadays fiber optic splicing is widely deployed in telecommunications, LAN, and networking projects. Typically, fiber optic splices can be undertaken in two ways: fusion splices and mechanical splices. Fusion splicing is a permanent connection of two or more optical fibers by welding them together using an electronic arc. It is the most widely used method of splicing as it provides for the lowest loss, less reflectance, strongest, and most reliable joint between two fibers.

There are many occasions when fiber optic splices are needed when there is an available fiber optic cable is not long enough for the required distance. In this case is possible to make a permanent connection. Splicing is also designed to restore fiber optic cables when they are accidentally broken.

There are two available types of fiber optic cable splicing. Both methods provide much lower insertion loss compared to fiber connectors.

Fusion Splicing

Fiber optic cable fusion splicing provides the lowest-loss connection and has a longer life than mechanical splicing. The fusion method fuses the fiber cores together with less attenuation. Special equipment called fusion splicer is used to perform the fiber fusion splicing. The fusion splicer performs optical fiber fusion splicing in two steps:

  • Precisely align the two fibers.
  • Generate a small electric arc to melt the fibers and weld them together.

High precision fusion splicers are usually bulky and expensive. With proper training, a fiber splicing technician can routinely achieve less than 0.1 dB insertion loss splicing for both single-mode and multimode fiber cables. When adopting this method, fusion splicing machines are often used. Generally, there are four basic steps in the fusion splicing process:

1. Strip the fiber

The splicing process begins with the preparation for both fiber ends to be fused, and you need to strip all protective coating, jackets, tubes, strength members, and so on, just leaving the bare fiber showing.

2. Cleave the fiber

Cleave the fiber is crucial to a successful fusion splice. The cleaver just nicks the fiber and then pulls it to cause a clean break rather than cut the fiber.

3. Fuse the fiber

Aligning and melting are the main steps when fusing the fiber. First, the ends must be aligned within the fiber optic splicer, and once alignment is done an electrical arc must be used to melt the fibers and permanently weld the two fiber ends together.

4. Protect the fiber

A typical fusion splice has a tensile strength between 0.5 and 1.5 lbs and it is not easy to break during normal handling. However, it still requires protection from excessive bending and pulling forces. With the help of heat shrink tubing, silicone gel, and mechanical crimp protector, the splice can be protected from outside elements and breakage.

Mechanical Splicing

Mechanical splicing is an optical junction where the fibers are precisely aligned and held in place by a self-contained assembly, not a permanent bond. The mechanical splices are normally used when splices need to made quickly and easily. Like the fusion splice, there are four basic steps for the mechanical splice.

1. Strip the fiber

In this step, the protective coating, jacking, tubes, strength members must be removed to show the bare cores. It is noted that the cables should be cleaned.

2. Cleave the fiber

When cleaving the fiber, you need to obtain a very clean cut which is exactly at right angles to the axis of the fiber.

3. Mechanically join the fiber

You have to join the fibers mechanically with no heat. Simply connect the ends of fiber together inside the mechanical splice unit and the device will help couple the light between two fibers.

4. Protect the fiber

Once fibers are spliced, protection will be needed during light transmission. Typically, the completed mechanical splice provides its own protection for the splice.

Fusion and mechanical splicing both have their specific advantages and disadvantages. When it comes to choosing fusion or mechanical splicing that is up to the customer’s needs. The fusion splice offers a lower level of loss and a high degree of performance. It gives very low back reflections and is preferred for single-mode high-speed digital or CATV networks but it requires the use of expensive equipment. Mechanical splicing is deployed for applications where splices need to be made quickly. Choosing the appropriate method, whether the fusion splicing or mechanical splicing, can not only save money but also enhance work efficiency. Besides, when you are doing fiber optic splicing, it is necessary to follow the steps strictly and carefully.