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9 things you didn't know about Google's undersea cable

9 things you didn't know about Google's undersea cable

The high-speed Google-backed FASTER system will link the U.S. with Japan next year at 60 Tbps

A worker at a cable factory run by OCC in Kitakyushu, Japan, holds samples of submarine Internet cables, including an armored version (right), on July 9, 2015. The factory is supplying cable for the Google-backed FASTER system that will link Japan and the U.S.

A worker at a cable factory run by OCC in Kitakyushu, Japan, holds samples of submarine Internet cables, including an armored version (right), on July 9, 2015. The factory is supplying cable for the Google-backed FASTER system that will link Japan and the U.S.

Undersea cables carry virtually all transoceanic Internet data these days, replacing satellites as the preferred medium. Google and some telecom companies invested in one of them, called FASTER, that will stretch 9,000 kilometers between the U.S. and Japan and is due to go into operation next year.

With six fiber-pairs in the cable, each carrying 100 wavelengths at 100 gigabits per second, it will have a peak capacity of 60 terabits per second (Tbps). That's about 10 million times faster than a standard cable modem.

Here are some facts about undersea cables and about the FASTER system in particular.

1. About 99 percent of all transoceanic Internet data is sent via undersea cables. That's a huge increase from around 1995, when about half went through satellites, which require data to travel far greater distances. A few hundred undersea cables link various parts of the world, and satellites are sometimes used to connect to remote areas and islands.

2. Submarine cables have to withstand the pressure of 8 km of water on top of them, roughly the equivalent of putting an elephant on your thumb, yet the typical lightweight polyethylene cable for deep oceans from NEC, whose group company OCC is supplying cable for FASTER, is only 17 millimeters thick.

3. The optical fibers at the heart of the cable are made of highly purified glass that's as thin as a human hair. Internal reflection is used to guide light along the path of the fiber.

4. At OCC, the fiber is first embedded in a jelly compound to keep water out in case the cable is damaged. It is then encased in a steel tube to protect it from the water pressure. Then it's wrapped in steel wire for overall strength, followed by a copper tube to hold the wires together and transmit electricity to the repeater units along the cable that amplify the data signals. The final wrap is usually a polyethylene sheath to make it water resistant.

5. Closer to shore along continental shelves, submarine cable is usually armored. OCC manufactures it in versions including single armor and double armor. The single-armor version involves taking the lightweight cable, adding more steel wires for strength, an asphalt coating to prevent corrosion, plastic strings to cover the asphalt and chalk powder to prevent the cable from sticking to itself. The process is repeated for the double-armor version.

6. Submarine cables can carry up to 80 Tbps, a capacity that's equivalent to transmitting 2,100 DVDs (4.7 GB each) in one second, according to NEC.

7. At 39,000 km long, the South East Asia Middle East Western Europe 3 network stretches from Western Europe to Australia and East Asia, linking 33 countries and four continents. An interactive online map of the world's roughly 300 cable systems is published by Washington-based TeleGeography.

8. While a shark has been recorded by at least one camera gnawing on a submarine cable, contrary to online speculation sharks don't cause Internet outages. "Sharks and other fish were responsible for less than 1 percent of all cable faults up to 2006. Since then, no such cable faults have been recorded," an industry group called the International Cable Protection Committee said recently.

9. The first working submarine cable was laid down across the English Channel in 1851, decades before Alexander Graham Bell received a U.S. patent for the first practical telephone in 1876.

Tim Hornyak covers Japan and emerging technologies for The IDG News Service. Follow Tim on Twitter at @robotopia.

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