Judul : Why Your Next Wire Should Be Glass
link : Why Your Next Wire Should Be Glass
Why Your Next Wire Should Be Glass
Author: John SchipperThe communications industry is built on copper wires. As well as the computer network industry. They are familiar with the installation and maintenance of steel wire technology. Cat5e or Cat6 cable will work with most of your networking needs. So why look exclusively for fiber optics for your next connection?
Ethernet works better over short distances than copper. This is why it is so popular for home network cables. Most users do not have a NIC above 1000Mbps and they rarely need much bandwidth. Running fiber on the desktop seems like an expensive and unnecessary project.
In plants, the fibers extend long distances between floors or other buildings. This is also important for some network devices that can use a bandwidth of 10 to 100 Gbps or more.
WAN is another matter. Ethernet was originally designed with small connections in mind. The Carrier Ethernet specification has added provisions that allow carriers to extend your LAN anywhere, within a city, between cities, or around the world. There is also a product called Ethernet over copper, or EOC. It uses multiple pairs of cable between your site and the communications desk.
Ethernet reception is several kilometers from the building. But that's the problem. The bandwidth of the remote EOC is lost. This is an upgrade for T1 copper lines to increase the 1.5 Mbps for T1 to 10 or 15 Mbps. In some short term situations it can reach 20, 30, 50 Mbps or more.
Glass is the future
Companies may find themselves having to upgrade almost entirely from legacy copper WAN connections to fiber optic services. Most new installers should look into fiber options first. You should only settle on copper services like T1 or EoC if fiber is not needed due to low bandwidth requirements or lack of availability in rural areas.
The first reason, as you might think, is bandwidth. Recently, the demand for commercial bandwidth has increased. The reason is that more and more work processes are being automated to achieve productivity. The program is more complex than it has been in a while. Multimedia, especially video content, consumes faster volume bandwidth requests than texting and reporting. More functions based on embedded computers or networked devices with high-end processors require very fast connections to connect.
The "cloud" is another driver. Behind all this magic is a large, large cloud data center that is far from a LAN connection. The cloud is marketed as a way to turn capital investment into monthly expenses and reduce the cost of workplace maintenance and support staff. The economies of scale and the ability to scale resources for any user in real time are attractive advantages. A fly in the ointment is the network bandwidth.
Cloud computing and telecommunications require more performance than your broad connection from a regular phone line or Internet service, which is used primarily for email and general web browsing. Throughput, including audio and video performance, depends on high-bandwidth, low-latency connections.
Not yesterday's fibres.
Fiber-optic broadband service is often expensive and difficult to obtain. It has changed a lot in recent years. What began as a specialized technology for telephone companies to carry large phone calls between call centers has become the standard for private lines and Internet services. Buildings are quickly "lighted" using optical fiber bandwidth to deliver things like services, electricity, and water. In today's information age, digital communication should be considered really useful.
Another big player is the mobile phone industry. In the decades since the introduction of cellular service, its use has evolved from simple mobile phone calls to full desktop applications that run on cell phones, tablets, and laptops. Carriers cannot deploy 4G fast enough to keep up with demand. 5G is in progress.
T1 lines were ideal for cell towers carrying voice traffic and worked well until 3G was replaced by 4G. Even interconnected T1 lines can't run 20 or 30 Mbps, let alone peak speeds. This means that the delivery of fibers to all cell towers is essential. Fiber is no longer a rarity. It's planted in hidden tubes and poles flying everywhere you look.
Fibers that make sense for your organization
The best deals for optical fiber bandwidth are Ethernet over Fiber (EoF) services, rather than the traditional SONET communications standards. EoF has the advantages of being competitive among many service providers, ease of up and down bandwidth scaling, low latency, packet loss and congestion, and much cheaper than expected.
Today, the most popular fiber optic services are 10Mbps for entry-level small businesses, 100Mbps Fast Ethernet for most established businesses, and 1000Mbps Gigi for high-bandwidth applications such as video production or medium to large computer-based businesses. . Design and Manufacturing Processes.. School districts find Gigabit Ethernet attractive because of the many benefits it offers.
Are you getting bandwidth for a new site or looking to upgrade your existing buyer service? Now is the time to find out what companies have in store for fiber-optic broadband services .
Note: The fun "Glass Wire" products featured on this page are available at Gigapack's Zazzle Store.
That's the article Why Your Next Wire Should Be Glass
That's it for the article Why Your Next Wire Should Be Glass this time, hopefully can be useful for all of you. okay, see you in another article post.
You are now reading the article Why Your Next Wire Should Be Glass with link address https://direcway-satelite.blogspot.com/2022/08/why-your-next-wire-should-be-glass.html?m=0
0 Response to "Why Your Next Wire Should Be Glass"
Posting Komentar