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Power Transportation

Samsung's New EV Battery Tech: 600-Mile Ranges, and 9-Minute Charges? (pcmag.com) 126

"Samsung's latest solid-state battery technology will power up premium EVs first, giving them up to 621 miles of range," writes PC Magazine: The new batteries — which promise to improve vehicle range, decrease charging times, and eliminate risk of battery fires — could go into mass production as soon as 2027. Multiple automakers have been reportedly testing samples. Samsung did not list any by name but it's worked with Hyundai, Stellantis, and General Motors, among others. "We supplied samples to customers from the end of last year to the beginning of this year and are receiving positive feedback," Samsung SDI VP Koh Joo-young said at SNE Battery Day 2024 in Seoul, according to Korean outlet The Elec and translated by Google.

Perhaps unsurprisingly, the batteries won't be cheap. They will initially go in "super premium EVs" and will offer 900 to 1,000 kilometers (559-621 miles) of range and improved safety... Samsung's presentation also reiterated previously announced plans to create batteries that can charge in nine minutes and last 20 years by 2029.

More details from Notebookcheck: According to Samsung SDI's VP, automakers are interested in its solid-state battery packs because they are smaller, lighter, and much safer than what's in current electric cars. Apparently, they are also rather expensive to produce, since it warns that they will first go into the "super premium" EV segment. Those Samsung defines as luxury electric cars that can cover more than 600 miles on a charge.

Samsung's oxide solid-state battery technology is rated for an energy density of about 500 Wh/kg, which is about double the density of mainstream EV batteries. Those have capacities that already allow more than 300 miles on a charge, so 600 miles of range in a similar footprint is not out of the question, but the issue is production costs.

Thanks to Slashdot reader npetrov for sharing the news.
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Samsung's New EV Battery Tech: 600-Mile Ranges, and 9-Minute Charges?

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  • I believe it, when I see it in production cars and being sold
    • I tend to believe Samsung when they announce stuff. Samsung may not be perfect, but if they can build tanks and provide the means of defense for a country that is always under siege, they can build batteries that work well enough. They generally know what they are doing, for the most part. (Not saying they are perfect, but I'd take them over a lot of other companies any day for announcements.)

  • by SodaStream ( 6820788 ) on Saturday August 10, 2024 @04:11PM (#64695248)
    Frankly I've always accepted a 45 minute to 80% charge time as the benchmark. It's time for lunch and to kick around while your car gets to about four hour of travel time. But a nine minute charge time is pretty awesome. The rub for mass adoption will always be how quickly it charges and where that performance can be obtained. So what are the available supported charging standards? I figure getting a full charge in 20 minutes-30 minutes would still be pretty awesome, but I imagine you'd need some thick slabs of copper to deliver that juice any faster.
    • by Moryath ( 553296 )

      But a nine minute charge time is pretty awesome

      THIS. 9 minutes at Buc-ee's? 6 min to use the toilets. 2 min to fill a slurpee. 1 min to check out.

      Oh hey, my car is charged. On my way I go.

      • Re: (Score:2, Funny)

        by ravenshrike ( 808508 )

        30-50 minutes waiting in line for a charger.

        • 30-50 minutes waiting in line for a charger.

          Yeah if you read nothing but Fox News you may think that. The reality is most chargers have zero lines, and when somewhere in the country a charger is full the media pounces on it to spread FUD.

          • by AuMatar ( 183847 )

            ANd if you can really charge in 9 minutes, any wait that you would have now will be a fraction of the current time. In fact if you need In fact avg wait time should be size_of_line/number_of_chargers*4.5 minutes. So you'd almost never be waiting more than 5. minutes.

          • Chargers have zero lines because total ev adoption in the US is at less than 1%, and the vast, vast, vast majority of those evs are 2nd or 3rd vehicles in the household, not the primary vehicle.

        • 30-50 minutes waiting in line for a charger.

          Why? If the claims are true (and I have to say that I remain sceptical) then you'll have a range a refueling time comparable to an ICE. At this point the major hurdle preventing large-scale adoption of EVs will be gone and adoption will take-off rapidly leading to construction of more chargers. After all, it is much easier to build an EV charge station than a petrol station. There may be some short-term mismatch in chargers to EVs that cause problem but it is unlikely to last long..._if_ this new battery i

        • by AmiMoJo ( 196126 )

          Funny thing is I've never had to wait more than 5 minutes for a charger, ever.

          You just have to use the tools available to you. On a trip you will have a choice of chargers (at least in Europe, the US may need to catch up) and there are plenty of apps with live usage info. Just pick one that isn't too busy.

          Exactly the same way as you avoid high traffic areas and queues, or even the petrol station at peak times. I did have had to wait half an hour for petrol once, but now avoid that time. This was before Goog

          • by hawk ( 1151 )

            >You just have to use the tools available to you.

            uhm . . . outside of Texas, it's frowned upon to use your six-shooter to "acquire" a charging space from the incumbent vehicle! :)

            • uhm . . . outside of Texas, it's frowned upon to use your six-shooter to "acquire" a charging space from the incumbent vehicle! :)

              Some ancestor poster did mention Buc-ee's though. (I'm only familiar with the one at New Braunfells. Which doesn't seem likely to have queues, if extrapolating from the number of petrol pumps.)

        • Assuming it holds up, 9 minutes isn't bad, and while EVs are continuing to grow overall (in before the "fewer EV this quarter over last!"), they're still a smaller segment, and regarded as premium vehicles. So I don't think that 30-50 minutes holds up today let alone after a 9 minute battery is released.

          Some charger spots also surcharge EVs parked in a spot but not taking a charge to create an incentive to get them to move.

          Personally, I'm interested in an Plug-in Hybrid because EVs are expensive and th
      • Re: (Score:2, Troll)

        by thegarbz ( 1787294 )

        6 min to use the toilets. 2 min to fill a slurpee. 1 min to check out.

        I'm happy with 14minute charge times I already have in my car. That's 6min to use the toilets. 2min to fill a slurpee. 5 minutes to drink the slurpee . 1 min to check out.

        People who eat and drink in their car are gross.

    • Frankly I've always accepted a 45 minute to 80% charge time as the benchmark. It's time for lunch and to kick around while your car gets to about four hour of travel time.

      If you like fast food. Too much time to spend in a convenience store. Not enough time for a proper restaurant meal unless you go move your car during your dinner so you are not hogging the charger..

      • This is why I'd go with lvl 2 chargers in the restaurant parking lot rather than fast chargers.

        That, or you give them fast charge capability - but oversell the capacity. IE it might only be able to operate 2-3 chargers as fast chargers (IE 250kW+), but have 10+ charging stations capable of it. The idea is that if a really low car comes in, it can get charged up quick, but otherwise, you're looking at ~1 hour to reach a good charge, giving you a nice easy charge and still time to eat dinner without having

        • I've used a rental Polestar 2 and found that 50kW chargers were "pretty fast" in most cases. Like it's enough to (almost) fully charge in an hour if you weren't completely empty.

          That would be annoying on a highay stop but about perfect to have a lunch or do some shopping or something.

      • by hawk ( 1151 )

        > Not enough time for a proper restaurant meal unless you go move
        >your car during your dinner so you are not hogging the charger..

        I've long wondered why Tesla in particular doesn't have a dropoff zone, at which point the local controller drives the car from drop to charger, and then to pickup, notifying the customer when ready.

        • Some people would probably like that idea.

          I don't want my car driving itself anywhere, ever. No way no how.
          • by hawk ( 1151 )

            in general, no.

            But this would be in a caged off area, without people, and *all* vehicles present moving only at the direction of the controller for the entire site.

    • Around 18 minutes to 80% is already the norm for a few years now.

      45 minutes is ok if you're going to use the stop to have lunch or whatever, but on longer highway trips you'd be stopping for charing every 1.5 hours and this would get annoying really quickly.

      9 minutes pretty much "solves" charging, IMO. That's not that much more than refueling a gas car so I could deal with it even without having a charger at home.

      Solid state batteries have been "around the corner" for a while now but it seems they might act

  • Another "works at tiny scale in a laboratory for short period of time" that pretty much all solid state battery projects have been, or do they actually have anything that can in fact be deployed at scale without costing hilarious amounts to manufacture and that doesn't have horrific cracks wrecking the battery within a few years?

    Considering the stories linked are full on the marketing wank and appeals to authority of established brands and exceedingly light on any actual details, this sounds a lot more like

    • Another "works at tiny scale in a laboratory for short period of time" that pretty much all solid state battery projects have been, or do they actually have anything that can in fact be deployed at scale

      I've seen on YouTube reviews of portable battery power banks that use real solid state batteries [amazon.com], I think some of the first shipping - so if those are shipping already a 2027 target seems pretty realistic, with slippage of no more than a year - since scaling up banks of batteries is well understood.

      • Yes, you can purchase those Yoshino power banks but they are NOT using solid state batteries, despite the description on Amazon.

        https://www.youtube.com/watch?... [youtube.com] Overview of the power bank with updates
        https://www.youtube.com/watch?... [youtube.com] Thermal runaway result
        https://www.youtube.com/watch?... [youtube.com] Thermal runaway result

      • by Luckyo ( 1726890 )

        "Solid state" in these batteries is marketing wank to increase prices. They're normal lithium ion batteries with liquid electrolyte in them, but Yoshino (manufacturer/marker) claims it's "new electrolyte" and whatnot. That's how they're charging gullible people a hilarious premium on these.

      • That guy on youtube is probably Matt Ferrell? He is a clueless hype man that does nothing to test or verify the claim, he just reads out the marketing material. It's a normal lithium battery, there'd be zero reason to put a very expensive solid state battery in a power pack like that.

        He keeps getting away with it, here's one of the previous bullshit stories: https://www.youtube.com/watch?... [youtube.com]

  • Needless to say, that's about two straight days (48h) of house charge per fill-up for many people with only a 10A outlet. Suburbanites will be able to do better at about 18 hours for a fill-up with their current level-2 systems. So, building charging infrastructure is still crucial for EV adoption in America. What really excites me about the weight per KWH reduction is that it makes hot-swapping that much more attractive. I'd love to see that take hold after all of the false starts in the industry, although
    • by dgatwood ( 11270 )

      Needless to say, that's about two straight days (48h) of house charge per fill-up for many people with only a 10A outlet.

      Ten amps? Wow. Other than a power strip, unless your house electrical system is ancient, you're not likely to ever see a 10A outlet. 20A has been the norm for residential circuits since at least the early 1990s, and 15A was the norm before that. Of course, this is partially moot if you're sharing power with other outlets, but still....

    • Even if it were as high as 18 hours, that's 18 hours for 600 miles. Nobody drives 600 miles very often. Well actually that's about how far a long-haul trucker goes in a day, which is saying something.

      I really question how many cars should be built with 600 miles of range. My (gas) SUV does 400 and it's fine. I wouldn't want to pay for 600 miles worth of batteries.

      • Well, for least battery wear, though who knows if solid state batteries have the same issue, with lithium ion batteries you want to keep them between 20 and 80% charge. so 600*.6 = 360 miles of actual range. Plus, only charging to 80% allows you to keep to fast charging.

        That said, you don't want to run a gasoline engine to 0 anyways, they actually lie and tell you that you're out before you're actually out for this reason. So a 600 mile EV battery would be closer to 480 miles if you want to baby it and p

  • If I had a kilowatt-hour for every article that announced a battery breakthrough, I would never have to buy energy again.
    • If I had a kilowatt-hour for every article that announced a battery breakthrough, I would never have to buy energy again.

      Yep. 1st one I remember I was in Iraq, got my IEEE Spectrum for January 2008, I think it was, where they touted a breakthru that would triple Li-Ion battery capacity.

      • If you think today's Li-Ion batteries are anything like 2008 then I suggest asking your doctor if your PTSD meds cause memory loss. The word "breakthrough" can be used to describe virtually every metric on Li-Ion batteries changing over the past 2 decades.

        • I think his point wasn't that there aren't improvements, it's just that for decades we've gotten articles that promise world altering levels of change, while LiIon ticks up like 5% that year, because the improvement touted turned out to not be practical for whatever reason.

          For example, commercial LiIon has improved by about a third since 2008, not tripled.

  • Apparently, they are also rather expensive to produce, since it warns that they will first go into the "super premium" EV segment.

    Apparently or actually? 'Cause I can think of a lot more (cynical) reasons for "apparently" than "actually".

  • can an electronics engineer please do the math

    for a car to be able to travel 600Miles.. it would require the battery to hold a substantial KWH....

    How in this universe, playing with our known physical laws - would a device like this be able to charge in 9 minutes?

    The amount of amps needed to charge would seem unattainable at most residential builds, the hit to the grids would seem extreme, and the thermals of the power transfer, and the battery heating up due to inefficiencies again would be very high.

    • by walkerp1 ( 523460 ) on Saturday August 10, 2024 @05:49PM (#64695422)
      I'm only a software engineer, but let's do the math. Figure maybe 350 KWH per thousand miles and 600 miles gets you roughly 200 KWH for an almost full charge. The article's links mention a special 1 MW charge cable with internal cooling. 200 KWH on a 1 MW charge source takes 12 minutes, so they're probably calculating an 80% charge from 10% rather than a full charge. Still, it's pretty impressive if they can make it happen. As for amps, 1 MW at 1000V is 1000 amps.
      • by PPH ( 736903 )

        As for amps, 1 MW at 1000V is 1000 amps.

        And 1 MW at 240V (residential supply) is 4167 Amps. My service is rated at 160 Amps continuous duty. But then the transformer down the street is a 50 kW unit (they figure quite a bit of load diversity between the half dozen houses connected to it.

        In fact, 1MW would pretty much max out the underground feed to my entire neighborhood. So no. You're not charging your car at home at these rates. That's OK, because home charging can take all night. Charging on the road is where this will come in handy (being rou

        • by dgatwood ( 11270 )

          The present solution to multiple chargers at Tesla fast charge rates is often to hide a diesel gen set somewhere on the property.

          No, they aren't. Maybe in the really early days (like before I got a Tesla in 2017), some of them might have had diesel backup or something, but these days, backup power consists of large battery banks.

          They did use diesel generators for their temporary supercharger-on-a-trailer setups ("mobile superchargers") that they bring out for certain special events like the Superbowl, but for at least the last couple of years, those have also been powered by giant battery packs.

          Of course, that doesn't keep anti-EV m

        • But an EV station that could handle the volume of something like a Costco gas station would need its own dedicated substation (typically 20 MW). Such a substation has a footprint larger than a Costco gas station.

          Yeah, basically putting any concentration of these in all but a handful of places will require massive distribution grid upgrades.

        • The present solution to multiple chargers at Tesla fast charge rates is often to hide a diesel gen set somewhere on the property. But the 1 MW per charger load would take something like a gas turbine genset.

          No it's not. The present solution is batteries. And batteries scale their discharge easily so there's no need to change that solution above 1MW.

          Also a supercharger is not using a 240V residential supply, they are 3-phase 480V units. Go check the name plate next time you see one. Only Level 1 and Level 2 chargers use 240V supplies.

          • by PPH ( 736903 )

            The present solution is batteries.

            So then, where are the batteries? I can see them working to fast charge one EV by trickle-charging a fixed pack overnight. But what do you do for service station levels of storage? You are going to have to quick charge the fixed packs pretty quickly. And that puts the same sort of loads on the distribution system that quick charging vehicles would.

      • Still, it's pretty impressive if they can make it happen.

        I have heard better promises in the past. *yawn*

  • Would you buy an EV today, knowing that its second-hand value in 5 years will be essentially zero because of obsolete battery tech? Just knowing that Samsung's batteries might exist will deter buyers.

    • you could just... replace your EV's batteries with solid state batteries after they wear out and lose charge.

      • No you can't. EV battery solutions are engineered to each car. There's large differences in cars even within manufacturers for EV batteries. You can't arbitrarily change the chemistry unless the manufacturer provides an engineered solution for you to do so.

        • by ceoyoyo ( 59147 )

          You could. You just wouldn't be able to cram it into the availabe space quite as efficiently, which might not be a problem it's a much denser cell. A different chemistry would probably require different charging electronics, but that's also something a third party could make easily enough.

          You could run a Tesla on a girlfriend shaped battery pack made out of 18650s ziptied together sitting in the passenger seat if you really wanted to.

  • Firstly, I know this is just speculation and early days. But, Tesla should have a story on solid state and it just doesn't. There are enough players in this space that it is more a matter of time before they become a big part of the EV and related spaces.

    It's kind of sad. Tesla used to be really good at using cars as a test bed to get new battery tech going. Now, not so much. They had a great team around the supercharger network (getting through local paperwork and so on) and that's gone.

  • so many trolls posting it's hilarious. Love the Foe feature so I can just ignore the stupidity

  • by sonicmerlin ( 1505111 ) on Saturday August 10, 2024 @11:35PM (#64695902)

    Why not put these into smaller consumer devices first, like smartphones and tablets? I'm sure Apple could get away with jacking up the price of their "Pro" devices another $200 to accommodate double the battery life.

    • Why not put these into smaller consumer devices first, like smartphones and tablets?

      Because it is vaporware, as has all battery tech promises since the 1970s. There has been steady and gradual improvement over that time, so things are improving... but not a single promise of greatness has ever been fulfilled. This is no different. There will be some issue that keeps it from materializing... but at least we get yet another round of excited visions.

  • giving them up to 621 miles of range

    Most EV chargers stop (or become impractically slow) to fully charge a battery. Leaving the battery with only 80% of its advertised capacity.
    Plus, to account for the unavailability of public chargers in a working condition, it is wise to never allow your vehicle to drop below 20% charge. So in reality you only get 60% of the advertised range. And then, that is in ideal conditions. Add extra weight (passengers) and turn on the air-con and you will be lucky to get further than half the distance the manufactu

  • "solid state doesn't burn" is a shameless lie. A portion of solid state electrolyte materials decompose into deadly toxic gases, like the kill you in an instant type. Certainly a conflagration sucks with wet electrolyte lithium chemistries, but at least I won't die from a whiff of the smoke.
  • Every month some new battery tech is announced yet nothing is ever close to shipping. What's in the lab is rarely reproduceable at scale. What is encouraging is the development of solid state batteries which won't catch on fire.

Promising costs nothing, it's the delivering that kills you.

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