Power trip: Globetrotter's guide to charging your gadgets

Thu May 8, 2008 3:43PM EDT

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Watch out—even with the right adapter, that power socket in your far-flung hotel room could fry your precious gear. Find out how to keep your AC on the up and up while you're on the go.

Lifehacker found a wealth of crucial power tips on the Wired how-to wiki, which goes well beyond the typical charts of which adapters you'll need for each country. For example:

Check the voltage: As the Wired wiki notes, voltages around the world vary anywhere from 100V to 240V. Before you travel, check your gadgets and make sure they'll handle a good range of voltages, typically between 100V and 240V; the info should be printed directly on the gadget and/or its power brick. If your gear only handles one voltage or another (unlikely), then you'll need a voltage converter before you travel (click here to find one).

Check the Hertz: Power outlets also dole out varying degrees of Hertz (frequency), usually between 50-60Hz. Once more, check your gadgets—if the proper range isn't listed (again, unlikely), make sure your converter covers both your voltage and Hertz needs.

Watch out for DC: Plug your laptop into a DC outlet and...poof! The editors on the Wired wiki say they've never encountered a DC (direct current) outlet while traveling, but it's worth asking the concierge if you're not sure.

Get a surge protector: A good idea at home, an even better idea when you're globetrotting. Click here to shop for compact travel models.

Buy power adapters once you're abroad: Well, that's what the Wired wiki suggests, noting that native adapters are often cheaper and more reliable than the universal kits available in your home country. Personally, I like to be equipped before I go—but that's me. Anyway, if you're more of a kit person, check out this cool, all-in-one power adapter I blogged about last year.

USB ports are your friends: As much as possible, use your laptop's USB ports to charge your iPods, cell phones, etc.

The Wired wiki also links to this helpful world electric guide, which lists the voltage, Hertz, and adapters you'll need for more than 200 countries.

Make sure to check out the Wired wiki for more tips and tricks. And jetsetters—have any other power tips for us? Fire away!

Related:
Stay Plugged In While Traveling [Wired Wiki, via Lifehacker]

 

Comments on Power trip: Globetrotter's guide to charging your gadgets

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  • 1 Posted by middlenamefrank on Thu May 8, 2008 7:59PM EDT Report Abuse

    Uh, Ben....a simple transformer can't change 50 to 60 cycles or versa vice. Fortunately, very few appliances (even old-school ones that only work at 110V or 220V, not both) can't tolerate both 50 and 60 cycles. Also fortunately, most every small gadget/appliance I've seen recently has a 'universal' power supply that can run from either 50 or 60 cycles, at either 110V or 220V.

  • 2 Posted by geraldtjew on Fri May 9, 2008 2:48AM EDT Report Abuse

    Ben: You mention that voltages around the world vary from 110V to 240V. You're forgetting about Japan where the voltage is 100V. Why do you think most adapters will accept 100V to 240V input?

  • 3 Posted by jack07079 on Sun May 11, 2008 5:27PM EDT Report Abuse

    Ben, these items are common knowledge. Try a little harder if you want to keep the audience

  • 4 Posted by thembitches321 on Sun May 11, 2008 5:36PM EDT Report Abuse

    theres a difference between informing people and being dicks about it. lets all take a step back and think.

  • 5 Posted by jeffgivens on Sun May 11, 2008 5:38PM EDT Report Abuse

    lol, what a load! As mentioned, you can't readily convert frequency, nor does it matter, especially when it is a DC device being powered from a power supply. The only matter would be if the caps in the rectifier were of such a size that a 50 cycle AC signal would give an uneven DC voltage, but that is unlikely. About plugging into a DC outlet? The only damage that would do would be a direct DC device (no power supply) expecting a low voltage getting a high voltage. Using a usual power supply, nothing would happen. The DC would not be passed through the transformer.

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