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Toshiba's One-Minute-Recharge Li-ion Batteries

Posted by timothy on from the zap-zap-zap dept.

TheGuano writes "No idea if this is related to Altair's six-minute-charge Li-ions,, but Toshiba has just announced a similar Li-ion that recharges to 80% capacity in one minute, while losing only 1% total capacity after 1000 cycles. It's set to debut in 2006 for use in hybrid cars (my current Toshiba Satellite doesn't get very far on battery power, but it's a beautiful shade of blue), but 'should' make its way to other, hopefully smaller devices eventually."

8 of 413 comments (clear)

  1. Fantastic for travelers by mytest23 · · Score: 5, Insightful

    I regularly run through airports leeching power briefly between flights. I would pay handsomely to recharge 80% in a minute my: Laptop, Cell Phone, Video Camera Batteries, etc.

  2. Nice power density too by PxM · · Score: 4, Insightful

    2) High Energy Density Small and light, the new battery offers a high level of storage efficiency. The prototype battery is only 3.8mm thick, 62mm high and 35mm deep and has a capacity of 600mAh.
    Given the recharge times that is an amazing amount of energy for PDAs, cameras and the like. However, if you're going to scale up that system for cars, you are going to have a hellishly dangerous amount of current flowing in order to get a charge in a minute (or time similar to a gas station) so they better figure out some good safety systems if they want to go to market with this for pure electic cars rather than the hybrids they're planning for in 2006. However, they might not need the one minute charge if they use the charge at home system the some electric car designs. You could charge to full in an hour or get enough of a charge at the supermarket or other store to make short hops without a problem.

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    1. Re:Nice power density too by tmortn · · Score: 3, Insightful

      Probably a battery farm of these at the gas station similar to the ones in the cars. Since they can charge at this rate they should also be able to discharge at this rate. So you build a bank of batteries that are constantly trickle charging to full off the grid and doing massive discharges as needed to refule cars. You would probably design your sustaining capacity somewhere around your average and be able to maintain peak outputs for rush periods.

      Could also have an onsight Generator capable of zapping a couple of cars at a time running from the gas tanks with a smaller assitent battery bank absorbing idle time from the generators and distributing more power when more cars are being refuled simultaneously. Also big incentive to add solar cells to the gas stations once they get cheap enough.

      Either should avoide needed new super duty power lines to carry massive. In either case utilities have to then start producing that power we used to get by harnessing gas in an ICE.

      If this is for real it is a world changer. And electric car could be a serious alternative to an ICE and the infrastructure is much easier to implement than hydrogen. Then if we make the leap to fusion we can use that to power the utilities and eliminate fossil fule burning altogether. Would still be utilizing them for plastics though.

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  3. 6 minute batteries by Jaiden · · Score: 4, Insightful

    This will go well with my 6 Minute Abs tapes.

    Though I may have to throw them out if they come up with 1 Minute Abs.

    Seriously though, you still have to pump in the energy you want to get out later. For a car this is a LOT of energy. I'd do the calculations if I were more clever. Without distributed power generation (think fuel cells) it may be hard to get that much juice in one spot without frying someone.

    You'd have to bump up the voltage to keep the wires from being too thick to be managed by a single person. Then you have to worry about shocks (rain anyone?) and fumes (presumably there would be filling stations in/near gas pumps for legacy support). Also, some batteries vent hydrogen. not sure if these do though.

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  4. Re:So how much heat do these give off? by Total_Wimp · · Score: 4, Insightful

    ... and how much power will they require to charge? People are forgetting something. If you expect steady, large power over a large discharge period then you'll need huge power if your charg period is a small fraction of the discharge period.

    It makes me question the scaling the article implied for hybrid cars. The "one minute" charge timeframe is very much depending on having a power source capable of delivering that much energy to the battery. Hybrid batteries are many times the size of standard car batteries. That's a lot of power to deliver in a minute.

    TW

  5. Re:Perpetual motion machine by Anonymous Coward · · Score: 4, Insightful

    Unfortunately, energy output will never equal energy input on any machine. The speed that the battery could recharge has nothing to do with the amount of energy that is being put into it. That's 7th grade physics, sir.

  6. Smaller Devices will benefit regardless by Artifakt · · Score: 4, Insightful

    The best part of this is the batteries are being developed for cars. Compare this with the various high tech alloys and such that end up being available first in luxury items such as golf clubs or tennis racquets but not making it out to more fundamental products for another generation, or more. If this really starts showing up in 2006 models, it should slow the increase in gas prices within a few years, maybe a great deal if sales are good.
    For Americans, would you rather have these batteries make it more quickly to your MP3 players and laptops, or have 2010 gas prices only rise to say $4.50 instead of $5.75 a gallon?
    (And for most Europeans figure somewhere around EU 8 or 9 instead of EU 12, even if the Euro rises against the Dollar, as most of your governments have already agreed to discout hybred fuel costs in various ways, but a lot of the cost will still be taxes).
    Indirect savings, i.e. from trucked goods costs and smaller winter spikes in heating oil prices would add substantially to that.
    $1.25 a gallon difference (or likely more) will pay for lots of older model batteries for all your smaller appliances, and then some.

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  7. Re:This is cool because it helps efficiency by Hal9000_sn3 · · Score: 5, Insightful

    900 amperes may seem like a lot, but I have seen electrical systems in aircraft designed (with safety margins) for 1500 A, and have also seen ground equipment peg an ammeter past the 2500 A mark. Starter/generators in larger, general aviation, aircraft typically draw 750 A at room temperature with cooled down engine, to get the engines up to speed. More current when cold, and at altitude they have to be able to spin an engine that could easily be at ambient temperatures around -40 degrees.

    Large bus bars, and multiple 00 or 000 guage wires can easily handle that much current with high temperature insulation. The common tables of ampacity for stationary use are very conservative, and you must take into account the assumptions of those tables.

    Then, my understanding is that most hybrid and electrical cars use more like 250-400 volt battery systems, so current handling would only need to be in the 225 to 360 ampere range.

    Probably you would want actually to stop from 60MPH in about 3.5 seconds, and also you would not likely need to dissipate all the energy as generated electricity. In any case the engineering is not as difficult as it might seem, and with good enough bumpers and airbags, who needs brakes anyway?