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How Does Bluetooth Work?

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You get that important call you’ve been waiting for, and you scramble for earphones in your bag. You groan as you find them, wires all a-tangle like yesterday’s spaghetti. And then, when you try to transfer photos from the phone to your computer, you can’t find that elusive USB cable in your desk.

Sound familiar? No? That’s because you’re using Bluetooth to connect your earphones, your phone, and your computer—no wires, no fuss. But do you know how Bluetooth makes your life so much easier?

Bluetooth—named for a 10th-century Danish king, incidentally—uses radio waves to transmit information between two devices directly. The radio waves used by Bluetooth are much weaker than those involved with Wi-Fi or cellular signals, two other common ways to connect devices. Weaker radio waves mean that less power is being used to generate them, which makes Bluetooth a particularly useful technology for battery-powered devices. Those weaker radio waves also mean that Bluetooth typically works only over short distances, of less than 30 feet, or about 9 meters. (Incidentally, long-range Bluetooth devices do exist, but they either require power not usually seen in the commercial domain or are products of precision engineering that exists only in prototypes.) But a Bluetooth connection between two devices will stay active as long as they remain within range, without the need for a router or any other intervening device.

When Bluetooth-enabled devices are close to each other, they automatically detect each other. Bluetooth uses 79 different radio frequencies in a small band around 2.4 GHz. This band is used by Wi-Fi too, but Bluetooth uses so little power that interference with Wi-Fi communication is negligible. When two devices are being paired, they randomly pick up one of the available 79 frequencies to make a connection, and, once that connection is established, they keep hopping across these frequencies many times a second. The connection will automatically break if the devices move too far apart, and they’ll reconnect once they come within range again. Security can be applied too: devices can be configured to accept connections only from “trusted devices,” and passwords can be used to block malicious actors.

All of this means that you can think of Bluetooth as a bit like a duck swimming in a placid lake. There’s a lot of churning under the surface, as connections are made and broken and renewed so that data can flow, but on the surface everything looks calm and effortless. No drama. No wires.