It has been rumored for a long time and now it’s really underway. The end of over a century of copper wire based phone and network lines is here, with a key event on June 30. That’s the start of AT&T’s first major wave of wire center decommissioning. Over 277 of these facilities will go dark when completed, with more waves of decommissioning to follow. In the end, we’ll have completely moved on from Alexander Graham Bell’s original network.
What The Loss of Wire Centers Really MeansIn simple terms, a wire center is where all the wires connect. It’s the building that connects the central office switching with all the local loops. That’s often thousands and thousands of individual twisted copper pairs that are bundled into larger cables. Your analog phone line, the “landline” or POTS (Plain Old Telephone Service) line, is one of these loops. You can trace the wire pair directly from the phone jack on your wall all the way to the line card at the central office that provides power and signaling to run the phone handset.
Those twisted pairs can carry a lot more than individual phone calls. They can be set up with digital termination equipment to provide DSL and T1 broadband or PRI digital multi-line phone service. They may also be used in special applications such as fire alarms, elevator phones, gate entry systems, security systems, and fax machines.
Decommissioning means taking these lines out of service. No more wire center. No more copper line service.
In actuality, the phone companies that own these lines have already been discouraging their use through higher service prices and refusal to add more customers. Another group, copper wire thieves, have been doing their own decommissioning by cutting and stealing cables and then burning off the plastic insulation so they can sell the copper at recyclers. Copper prices are way up due to the expansion of data centers, electric vehicles, and solar power, to name a few.
What Replaces Copper Telecom Lines?
Like the incandescent light bulb, it’s time to move on from 19th century technologies. The new options are primarily fiber optic and wireless.
Fiber voice and broadband started with phone company Optical Carrier standards but has migrated to Carrier Ethernet standards to be compatible with the vast majority of company networks. Ethernet over Fiber service ranges from 10 Mbps up to 100 Gbps, with Gigabit Ethernet and 10 GigE becoming popular standards.
You need what is called an Ethernet Port at your end. That connects via fiber to your service provider, often an Independent network operator but perhaps a traditional telco. The speed of the Ethernet port limits the amount of bandwidth you can have. A Gigabit port lets you order up to 1,000 Mbps. A 10 Gigabit port supports anything up to 10,000 Mbps.
There are different flavors of fiber optic service. Your Internet access can be on a fiber line that is shared among many businesses and residential users to save cost. You may prefer to order Dedicated Internet Access (DIA) so that your connection to the Internet itself in essentially on a private line.
Direct Cloud Access is a similar service without the Internet being involved at all. You have a private fiber service from your facility to your cloud service provider. This gives you the best low latency and low congestion for higher productivity and smoother voice calls and video conferences.
You might also want to consider dedicated point to point fiber to interconnect your facilities across town or around the world. These private lines offer high performance and better security than what you could hope for on the Internet.
Wireless Options
Of course you have mobile phones, tablets and laptop computers that connect to the Internet using 5G cellular broadband. Another flavor of that services is Fixed Wireless Access. It comes in a box with higher gain antennas and Ethernet connection. It’s the 5G broadband without the phone features. There are also options to add outside antennae for better coverage and some controllers offer multiple providers for service continuity if one company goes offline temporarily. FWA can be as speedy as fiber, but without having to run the fiber line itself.
Some Wireless Internet Service Providers do not use cellular networks. Instead, they have their own towers and beam and point to point signal to a small dish antenna on your roof. These are very private lines and can have Gigabit or higher speeds.
Satellite broadband and satellite phone have been around for years. The broadband using geostationary satellites can be very reliable and speeds have been improving with newer generations of satellites. The half second or more of latency due to the distance to geosynchronous orbit is one sticking point. LEO or Low Earth Orbit satellite constellations, primarily SpaceX Starlink, reduces the latency to something similar to terrestrial broadband. Bandwidths are also competitive for many applications. Just stating now is direct to handset service that turns satellites into alternative cell towers. Soon there will be no dead spots, even in the most remote areas.
What to Do About Specialty Services? Those fire alarms, fax machines and elevator phones that were designed for twisted pair copper and nothing else still have hope. AT&T, among others, is offering a “POTS Replacement” service that consists of 4G LTE cellular wired to support these services along with built-in battery backup. Why 4G LTE? This standard can mimic the old phone lines and is still readily available.
The One Remaining Copper Service
There is still one very popular copper broadband service, but it is not from any phone company. This is Cable Broadband that is brought in on coaxial copper wiring. In reality, the cable companies have converted to fiber optic transmission, but the latest DOCSIS standards let them keep their existing copper coax into your building and still achieve speeds of 1,000 Mbps or even 10 Gbps… competitive with fiber.
Is your company experiencing an upcoming loss of service due to copper decommissioning? No time to wait. Find out what copper replacement services are available for your business needs. You may be surprised to find you can actually get more capability at a lower cost.