The internet is simply a wire that is buried underground.

A Protective Layer for Underground Electrical Systems

Direct-burial cable is a type of cable designed to withstand direct exposure to the soil and moisture and is rated for wet, dry, and damp environments. It does not always need conduit, but it can be run inside the conduit to add additional protection to any electrical system.

What Is Direct-Burial Underground Cable?

Direct-burial cable is a special type of electrical wiring or cable that is designed to be buried in a trench underground. The individual electrical conducting wires inside the cable are encased in a solid thermoplastic sheath that seals out moisture and protects the conducting wires within.

Types of Direct Burial Cables

The most common types of direct-burial cable used in residential projects are underground service entrance (USE) and underground feeder (UF). Type USE cable is usually black and is most often used for buried lines that bring power from the utility's transformer to individual houses. Homeowners rarely deal with USE cable themselves; it is handled by utility professionals.

Type UF cable is usually gray and comes in rolls that look like standard non-metallic (NM) sheathed cable. While standard NM cable is rated only for dry, interior applications, UF cable can be used outdoors as well as indoors. For example, if you want to install a cable between the house and an outdoor lamppost, or to run power out to a garden shed or detached garage, UF cable is the standard choice.

The primary difference between standard NM and underground feeder (UF) cable is in the cable construction. Standard NM cable contains wires that are wrapped with paper and a relatively loose plastic sheath. UF cable has wires that are completely encased in solid plastic. This encasement protects each wire from the others and does not allow moisture or other external elements to travel inside the cable. UF cable is also sunlight-resistant and allowed to be used outside and above-ground, where UV light will be present.

The Rise of Buried Cable

Most homes in older neighborhoods in America have overhead service entrances that bring in power from the utility grid. The disadvantages of running wires overhead include having poles in your yard and the dangers of having an exposed power line that can be touched by ladders or damaged by tree branches or other natural elements.

Fun Fact

Running power lines underground increases safety and reliability, because the cables aren't susceptible to storm damage.

Tips for Installing Direct-Burial Cable

The biggest concern with buried cable is digging. Direct-buried cable is governed by many building and electrical code rules to ensure safe installation. Always check with your local building department to learn about specific requirements in your area and how deep a direct-burial wire can be placed. Here are some basic guidelines to keep in mind:

• Bury UF cable 18 inches deep or deeper if in PVC conduit or 24 inches or deeper if buried directly, depending on the local code requirements.
• Call the national Call Before You Dig hotline (sometimes referred to as Miss Utility) at 8-1-1 several days before starting a project. This will alert all utilities with service lines in your area, and a representative will come out and mark the lines on your property so you know where you can and cannot dig.
• Calculate for voltage drop when running a long distance with underground cable. You may need to use a larger cable to minimize a loss of voltage over long runs.
• Create a map of your property showing where you installed the underground wiring, and store it in a safe place where it can be referenced for future projects. Wiring may need to be run on an angle from your home, so make sure the map notes permanent reference points so that you can pinpoint the cable location in the future.

Recently a digital blackout in Tonga — caused by the severing of the country’s only undersea cable — generated widespread recognition of the submerged systems our connected world depends upon.

Not many people realize that undersea cables transport nearly 100 percent of transoceanic data traffic. These lines are laid on the very bottom of the ocean floor. They’re about as thick as a garden hose and carry the world’s internet, phone calls and even TV transmissions between continents at the speed of light. A single cable can carry tens of terabits of information per second.

While researching my book “The Undersea Network,” I realized that the cables we all rely on to send everything from email to banking information across the seas remain largely unregulated and undefended. Although they are laid by only a few companies – including the American company SubCom and the French company Alcatel-Lucent – and often funneled along narrow paths, the ocean’s vastness has often provided them protection. When one is broken, as the Tonga cable was this week, data traffic comes to a halt.

Far from wireless

The fact that we route internet traffic through the ocean – amidst deep-sea creatures and hydrothermal vents – runs counter to most people’s imaginings of the internet. Didn’t we develop satellites and Wi-Fi to transmit signals through the air? Haven’t we moved to the cloud? Undersea cable systems sound like a thing of the past.

The reality is that the cloud is actually under the ocean. Even though they might seem behind the times, fiber optic cables are actually state-of-the-art global communications technologies. Since they use light to encode information and remain unfettered by weather, cables carry data faster and cheaper than satellites. They crisscross the continents too – a message from New York to California also travels by fiber optic cable. These systems are not going to be replaced by aerial communications anytime soon.

A vulnerable system?

The biggest problem with cable systems is not technological – it’s human. Because they run underground, underwater and between telephone poles, cable systems populate the same spaces people do. As a result, they’re accidentally broken all the time. Local construction projects dig up terrestrial lines. Boaters drop anchors on cables. And submarines can pinpoint systems under the sea.

Most media coverage about these systems has been dominated by the question of vulnerability. Are global communications networks really at risk of disruption? What would happen if these cables were cut? Should we all be worrying about a digital blackout – whether caused by accident or terrorists?

The answer to this is not black and white. Any individual cable is always at risk, but likely far more so from boaters and fishermen than any saboteur. Over history, the single largest cause of disruption has been people unintentionally dropping anchors and nets. The International Cable Protection Committee has been working for years to prevent such breaks.

As a result, cables today are covered in steel armor and buried beneath the seafloor at their shore-ends, where the human threat is most concentrated. This provides some level of protection. In the deep sea, the ocean’s inaccessibility largely safeguards cables – they need only to be covered with a thin polyethylene sheath. It’s not that it’s much more difficult to sever cables in the deep ocean, it’s just that the primary forms of interference are less likely to happen. The sea is so big and the cables are so narrow, the probability isn’t that high that you’d run across one.

Sabotage has actually been rare in the history of undersea cables. There are certainly occurrences (though none recently), but these are disproportionately publicized. The World War I German raid of the Fanning Island cable station in the Pacific Ocean gets a lot of attention. And there was speculation about sabotage in the cable disruptions outside Alexandria, Egypt in 2008, which cut 70 percent of the country’s internet, affecting millions. Yet you hear little about the regular faults that occur, on average, about 200 times each year.

Redundancy provides some protection

The fact is it’s incredibly difficult to monitor these lines. Cable companies have been trying to do so for more than a century, since the first telegraph lines were laid in the 1800s. But the ocean is too vast and the lines simply too long. It would be impossible to stop every vessel that came anywhere near critical communications cables. Nations would need to create extremely long, “no-go” zones across the ocean, which itself would profoundly disrupt the economy. Even then, the cables could still be at risk from undersea landslides.

There are only several hundred cable systems that transport almost all transoceanic traffic around the world. And these often run through narrow pressure points where small disruptions can have massive impacts. Since each cable can carry an extraordinary amount of information, it’s not uncommon for an entire country to rely on only a handful of systems. In many places, like Tonga, it takes only a single cable cut to take out large swathes of the internet. If the right cables were disrupted at the right time, it could disrupt global internet traffic for weeks or even months.

The thing that protects global information traffic is the fact that there’s some redundancy built into the system. Since there is more cable capacity than there is traffic, when there is a break, information is automatically rerouted along other cables. Because there are many systems linking to the United States, and a lot of internet infrastructure is located here, a single cable outage is unlikely to cause any noticeable effect for Americans.

Any single cable line has been and will continue to be susceptible to disruption. And the only way around this is to build a more diverse system. But as things are, even though individual companies each look out for their own network, there is no economic incentive or supervisory body to ensure the global system as a whole is resilient. If there’s a vulnerability to worry about, this is it.

This is an updated version of an article originally published on Nov. 3, 2015.

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