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Debunking the Batteriser's Claims 172

An anonymous reader writes: Last week we discussed news about the "Batteriser," a small device that fits around a battery and extends its lifetime. Many of us were skeptical, particularly with the claim that it could extend battery life up to 8x. Now, David L. Jones at the EEVBlog explains exactly why the device won't be as good as its creators claim. The technology itself, he says, does actually work at extending battery life, and has existed for a long time. What this company seems to have done is just shrink it down to a more useful size. Unfortunately, their claims about when a battery stop working and how much energy is left don't really hold up. Batteroo, the company making the Batteriser, claims products stop working when a battery's voltage drops below 1.3v, but a simple test of common household gadgets finds that to be untrue. Further, the percentage of energy left in the battery after this cutoff can vary wildly. Sometimes it will be 80%, but most of the time it won't, and it's frequently 20% or lower for Alkaline batteries. Jones writes, "I'm genuinely baffled as to why Batteroo would need to resort to claims like 8 times life. This thing would still sell like hot cakes if they claimed realistic practical figures. 50% increase in your battery life? – great, countless people would still buy it at the super low price point it's at."
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Debunking the Batteriser's Claims

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  • Baffled? (Score:4, Funny)

    by Anonymous Coward on Monday June 08, 2015 @10:07AM (#49867027)

    "I'm genuinely baffled as to why Batteroo would need to resort to claims like 8 times life."

    Really? You are genuinely baffled why a company might exaggerate their claims? Really?

    • Re:Baffled? (Score:5, Insightful)

      by Penguinisto ( 415985 ) on Monday June 08, 2015 @10:28AM (#49867275) Journal

      To be fair, there is a difference between a realistic-yet-slightly-exaggerated claim like most companies give, and Billy Mays 'as-seen-on-TV' territory...

    • Re:Baffled? (Score:5, Insightful)

      by Rei ( 128717 ) on Monday June 08, 2015 @10:28AM (#49867281) Homepage

      Yes, I am. Because if people go into it expecting an 8x increase and only get a 50% increase they write terrible reviews for it everywhere and the idea spreads that it's snake oil. If they go into it expecting a 50% increase and get it, they'll be quite happy.

      One shoots themselves in the foot by going too far with their claims. Often it's better to underpromise and overdeliver.

      Anyway, I can think of some applications where you might get 8x, or even more. I've owned electronics which don't run on alkalines at all and require NiMH because regular alkalines suffer too much voltage drop under high peak current loads and thus you can't turn the device on at all. In such a case the battery life increase of a voltage booster could be basically "infinite", in that useful life goes from "zero" to "nonzero". I've also had electronics that work with alkalines, but just barely. In such cases you might get 8x (or 2x, or 50x... it all depends on the device).

      On the other hand, if people use one of these in, say, a TV remote or flashlight, yeah, they'll be really disappointed with the 8x claim.

      • Re:Baffled? (Score:5, Insightful)

        by MightyYar ( 622222 ) on Monday June 08, 2015 @10:50AM (#49867559)

        He needs to sell as many of these as he can in as short a period as possible - there will be no repeat customers because it will take almost no time at all for other companies to copy this thing and undercut his price. There is not much IP here - just a slick miniaturization.

    • "I'm genuinely baffled as to why Batteroo would need to resort to claims like 8 times life."

      Really? You are genuinely baffled why a company might exaggerate their claims? Really?

      Smiling Bob is their ad agent. And, I'm sure the "shipping and handling" charges will be quite reasonable.

    • Two words: Because marketing.

  • by penguinoid ( 724646 ) on Monday June 08, 2015 @10:07AM (#49867035) Homepage Journal

    What is the world coming to?

  • Longerer (Score:3, Funny)

    by Impy the Impiuos Imp ( 442658 ) on Monday June 08, 2015 @10:08AM (#49867045) Journal

    > It will last 8x as long!"

    That'll learn ya to cut-and-paste boilerplate from an ExtenZ ad.

  • by gurps_npc ( 621217 ) on Monday June 08, 2015 @10:08AM (#49867047) Homepage
    If only to see if it works.

    I have a battery tester and when batteries stop working, I sometimes check and easily see they still have some power left, if not enough to run the device.

    Even if this device extends battery life only 10% it is probably worth it.

    Of course, the real question is why don't they build it into the batteries/devices in the first place?

    • My thoughts exactly. I fully expect that getting one of these is going to be a waste of money. But, I'm going to buy a pair of AA sized batteroos, for testing. I want to see for myself if it works. THEN, I'll write a review or ten, on Amazon and other places. If I see a 10% improvement, my review will say so - if I see 800% improvement, or a 0% improvement, my reviews will reflect that.

      And, yes, your trailing question is a damned good question. If the battery manufacturers can improve the life of thei

    • Re:I still want one (Score:5, Informative)

      by gweilo8888 ( 921799 ) on Monday June 08, 2015 @10:34AM (#49867377)
      If it extends the battery life by only 10%, it is almost certainly *not* worth it. Priced at $2.50, it's appearance suggests a relatively flimsy product that's unlikely to last very long before you break it. Looking at the most popular AA batteries on Amazon, price per cell is just 24 cents.

      That means a 10% increase in battery life is saving you 2.4 cents per cell, so you'd have to run 104+ cells through each Batterizer you need to buy before you first break even. (And most products, in my experience, use at least two cells, suggesting that you'll need multiple Batterizers and will have to run multiple hundreds of cells through them before you break even.)

      Add in the fact that despite Batterizer's claims, the deeper you drain a battery, by far the more likely it is to leak, coupled with the fact that the kinds of things that are likely to leave any significant power in the cells in my experience tend to be those which drain power very slowly, and the chances of you saving any money with Batterizer are zip. This is a product for morons who lack the ability to think critically: No more, no less.
      • by miknix ( 1047580 )

        This is a product for morons who lack the ability to think critically: No more, no less.

        You don't know anything about what you are talking about! I'm using these batterisers with my CD rewinder device right now and it allows to rewind 5 more CDs using a single battery! How great is this?

    • Of course, the real question is why don't they build it into the batteries/devices in the first place?

      Doing this efficiently is expensive, per amp anyway. A cheap boost converter is wasteful. It would make batteries much more expensive, or they would only be efficient near maximum output.

    • It does work, but not as advertised and many devices do have such converters in them. They trade current for voltage but they cannot give you more total power than is available. For a device that is already using it's own converter the efficiency losses could make things worse not better. The product is a classic example of how to get rich selling as little as possible for as much as possible to the large part of our population who are so technologically illiterate that everything just seems like magic to
    • This is their secret marketing plan. Make outrageous claims, and all the do-gooders on the Internet will HAVE to buy one to debunk the claims!

  • by suso ( 153703 ) * on Monday June 08, 2015 @10:11AM (#49867069) Journal

    I don't work for the company, but to give some support of the claim that some electronics stop working at 1.3V. I've removed a lot of "dead" batteries from kids electronic toys and when testing them with a volt meter found that many of them were still putting out between 1V and 1.4V. I save anything that is over 1V because I sometimes use them with hobby electronics projects. Sometimes its only one battery in a set that has died as well, but of course that can just be fixed by finding the dead battery and only replacing that one.

    My question about the batteriser is if its reusable or not. Also, I could see this thing causing quite a few more battery leaks than usual.

    • by gweilo8888 ( 921799 ) on Monday June 08, 2015 @10:24AM (#49867227)
      I've routinely tested my batteries for years, and only a handful of kids toys died at 1.3 to 1.35V, but they were in the extreme minority. And the summary is wrong, anyway -- Batterizer didn't claim 1.3 volts, they claimed 1.35 to 1.4 volts, which is utter nonsense. I've never seen a single product I own that died at 1.4 volts. (And the Batterizer PR folks didn't say "some" products, they said "most" or even all, which is a bald-faced lie.)
    • by Anonymous Coward

      Did you read the article? Simply because the battery measures 1.4V or 1.3V doesn't mean that the voltage under load is anywhere near that high.

      • by TheCarp ( 96830 )

        Actually there is a rather hillarious video out on youtube, don't have time to find it now, I suppose someone else will and besmirch my upbringing for not posting it.

        The entire video is based on people not understanding the concept of load. Basically the guy builds this massive (and by massive I mean "compared to its output") electrical generator in a basic config like you might do in order to demonstrate the princible of electrical generation rather than actually produce power.

        Anyway, the entire thing boil

    • by Anonymous Coward

      I've removed a lot of "dead" batteries from kids electronic toys and when testing them with a volt meter found that many of them were still putting out between 1V and 1.4V.

      He directly addresses that in TFA. Voltage will measure higher when the battery is not under load. He even speculates that this is how they got the 1.3V figure in the first place: the battery was putting out 1.1V or less under load in the device, but when removed it measured at >=1.3V. In that situation this device will probably be able to extract a little more energy and keep the high-load device running a little longer, just as you extract a little more energy by using them in a lower-load hobby device

    • by Rei ( 128717 )

      Leaks or overheating is something that would concern me. If you're compensating for reduced voltage by drawing more current then that means more ohmic heating.

      How much of a problem this would be in the real world, I really don't know. I assume (or at least hope) they have limits on their product to prevent overheating.

    • And yet any rechargeable battery puts out 1.2V (the average voltage of a 1.5V alkaline under load) and most devices allow rechargeables to be used.

    • I haven't done the measurements, but I believe once an alkaline battery gets down below 1.3V, the drop off with load becomes quite dramatic. So while it may read something like 1.2V under no load, voltage will drop like a rock as soon as current starts flowing.
    • Yes, it is reusable. It just snaps around the battery.
    • by AmiMoJo ( 196126 )

      You are probably just seeing the voltage rise once the load is removed. Battery voltage falls with the current draw, so the cell might only produce 1.1V in the device when being used, but as soon as you turn it off and take the battery out it comes back up to 1.1V.

      That's why testing with a volt meter is fairly pointless. You need a proper battery tester or at least a load resistor.

    • A good way to tell is with nickle metal hydride rechargables. They have a 1.2v cell voltage. So does a device work with them? Then it'll work on less than 1.3v. Of the things in my house that take batteries, all but one have worked with them. That device, a swifer wetjet, specifically says no rechargables so I haven't tried.

      NiMH batters work well in devices including, but not limited to, remotes, wireless microphones, EOTech sights, laser pointers, cordless phones, headphone amplifiers, and wireless mice.

    • by hattig ( 47930 )

      Yet rechargeable AAs work at 1.2V and most products don't have problems with them...

      It makes more sense for this tech to be installed in the devices that require that 1.4V+ supply rather than be external.

      And in that case, the tech needs to be cheap, and we talking cents for a device cheap here.

      And just stop buying non-rechargeables already!

    • Toys are a bit of a special case. Motorised ones draw a LOT of current and so you're better off with something with low internal resistance like NiCad or NiMH. This device probably won't do much since the limiting thing is how much power you can get out of the battery in those cases and that's determined by the internal resistance.

    • but to give some support of the claim that some electronics stop working at 1.3V. I've removed a lot of "dead" batteries from kids electronic toys and when testing them with a volt meter found that many of them were still putting out between 1V and 1.4V.

      I won't. The single most popular rechargeable chemistry produces cells which have a nominal voltage of 1.2V. The number of devices on the market which refuse to work on a NiMH battery are minuscule.

      Now one thing that may be of interest is the concept of internal resistance, and no load voltage. When you pull batteries out of the device and then test their voltage you're reading no-load voltage. This will be higher than the voltage under load due to the internal resistance of the battery. Different chemistry

    • by guruevi ( 827432 )

      That is largely because your voltmeter has an incredibly large internal resistance. Try putting the battery under load to test it's actual output.

  • NiCd (Score:2, Insightful)

    by tverbeek ( 457094 )

    Considering that a standard NiCd AA cell has a voltage of 1.2V, , the notion that most devices will stop working with a voltage below 1.3V is rather obviously false.

    • And NiMH as well. That's because the average voltage of a 1.5V alkaline under load is only around 1.2V.

    • by Rei ( 128717 )

      Electric circuits aren't that simple. When you put a load on a battery there's a voltage drop. NiMH have much lower internal resistance than alkaline and experience much less voltage drop and are thus able to handle higher current loads much better. When you see a figure of "1.2V" or "1.5V", that's in a no-load state. A "1.3V alkaline battery" will yield a much lower voltage in almost any realistic load state than a 1.2V NiMH.

  • Internal resistance (Score:3, Informative)

    by AntronArgaiv ( 4043705 ) on Monday June 08, 2015 @10:16AM (#49867127)
    When you measure terminal voltage, it's going to vary, depending on the load you put on while you measure, and the battery's internal resistance. So 1.3V with no load is different than 1.3V with a 100mA (for example) load. Put another way, 1.3V without a load may translate to much less when the battery is put into the system. At the end of the day, when the battery starts to die, you don't have much energy left. You can maybe prolong it for a bit with one of these gadgets, but it's like sucking the last slurps of a smoothie...pretty soon, you're going to be out of juice.
  • by mlts ( 1038732 ) on Monday June 08, 2015 @10:32AM (#49867355)

    IIRC, didn''t they have some article about someone breaking into their company and stealing product samples? Please correct me if I'm wrong.

    However, lets be real here. This voltage booster is just a mini autoformer, using a coil, a transistor, and a capacitor. This technology isn't new. MPPT controllers for solar units use this.

    What is new is the form factor. However, to boost volts, there has to be a trade... and what is trades is amperage, so that a battery with a voltage drop now has to put out more current, which only accelerates the discharge process.

    Of course, there is the downside... high amps being demanded, without some form of fusing or limiter can result in leakage, or even worse, fire, as a potential failure mode.

    I vote no on this. Instead, my recommendation is just to spend the 30 bones and get an Apple Battery Charger or something similar, and some rechargeable batteries. This is a far safer option, and no part of the system is being driven past its engineered tolerances.

  • The old NiMH rechargeables start at 1.2V fully charged. If devices stop working below 1.3V, then they can't use these rechargables at all.

    However, a "1.5V boost converter sleeve" on a NiMH does make an interesting case....

    • The old NiMH rechargeables start at 1.2V fully charged.

      All my chargers will overcharge all of these cells to a reasonable amount, any good charger (most aren't) will decrease the charging voltage differential when the charging current drops so that they don't overcharge. And more complicated things I don't understand :)

  • by jones_supa ( 887896 ) on Monday June 08, 2015 @10:37AM (#49867401)
    If you haven't yet checked it out, Dave's YouTube channel [youtube.com] is quite interesting stuff if you are an electronics geek or want to learn more about the topic.
  • Joule Thief (Score:5, Interesting)

    by bigattichouse ( 527527 ) on Monday June 08, 2015 @10:57AM (#49867661) Homepage

    (oops accidentally posted A/C)

    I've coincidentally been running a battery experiment using a joule thief on a 1.5v Energizer battery (starting voltage 1.621v)

    The LED and resistor I use would normally draw about 20mA from a battery, but run at 3v, requiring 2 AA batteries, and running for around 5 or 6 days in total.

    Through the joule thief (similar, I am guessing the to guts of the device), I know that I can run the same LED down to 0.450mV (with a much larger current draw)... but since it basically consists of spikes of power (which can reach 5-12v) with a very short duty cycle, I can run off a single AA battery for some time.

    As I use the thief in my own battery experiments (think edison cells), I decided to run an AA down and chart the voltages. I'm currently on day 10, and have made it down to 1.257v I think it will drop off quite quickly around 1.0 or 0.9v, but you can see I've easily doubled the servicable life span. At this point it has only dropped ~20mV per day, so I could possibly get 10 more servicable days out of this battery for the purposes of running an LED... so we're up to around 5X the service life.

    I did not major engineering to make my thief, and it isn't particularly well made.. so I think 8X life for an LED is very possible with the data I have.

    EXCEPT... I'm just making light, for a human, who can't see that it's not actually "ON" all the time. This is a very simple circuit and can easily handle the duty cycle. I have some concerns about running a microprocessor or similar toy with the device without damage.

    ADDITIONALLY.. batteries can swell when they get very low voltage, and all sorts of nastiness can occur. I'd be cautious to drain one to the minimum voltage for my thief... or at least keep it on a glass plate in case of leakage.

    • by Agripa ( 139780 )

      Linear Technology had ads in ED and EDN when they released their low voltage boost converters which could start at 1.2 volts and operate down to 0.65 volts. Their advertising phrase was "how to suck a battery dry" with a picture of the battery rolled up like a toothpaste tube.

  • It's pretty easy to make your own one of these, you can make it a voltage doubler too so that you can drive LEDs.

    https://duckduckgo.com/?q=joul... [duckduckgo.com]

    • And, amazingly enough, the marketing literature even agrees with you. Their secret sauce is the packaging - getting it to slip over an AA cell so it can be used anywhere.

      They even point out that most battery powered devices actually have this circuit built into them. The batterizer just adjusts the parameters differently - optimizing battery life over perhaps some battery longevity factors and the inability to use an internal battery meter to gauge capacity.

  • Still useless... (Score:5, Interesting)

    by Lumpy ( 12016 ) on Monday June 08, 2015 @11:28AM (#49868019) Homepage

    Most modern electronics already do what this does. For example Xbox 360 and Xbox One controllers will suck nearly every last drop of power out of the batteries.

    If your device shuts off when they claim, it's either from the 80's or is poorly designed.

    • Yeah well my wireless mouse doesn't suck every drop. Instead it will start randomly freezing,etc at well above 1.1v. Gigabyte M7700B.

      I'd like to know what you call sucking every last drop.

      And how about a cite for most modern electronics. My Dish remote certainly doesn't suck every last drop. The drivers in my flashlights have voltage cutoffs well above whatever you define as every last drop.

      Furthermore, IMO, if you're using electronics that handle lower voltages well, you should be using rechargeables. The

  • Batteroo, the company making the Batteriser, claims products stop working when a battery's voltage drops below 1.3v

    NiCd recharcheables are 1.2v, so clearly they're talking bollocks.

    • Uh, they're referring to alkaline batteries. I'm pretty sure you would just recharge a NiCd. On the downside, most the NiCd's I've seen are AAA size and even if they are their voltage makes them unusable in things like wireless mice.

      • No they aren't. Is there some part of "products stop working when..." that's giving you particular problems here?

  • Not sure why he is blaming Batteriser for the claims.

    This comes straight from a blog post at phys.org.; "When we get a new battery it is 1.5 volts, when we use it in a device it goes down to 1.3 volts under load condition, at that point we consider it to be dead and throw it away," said Dr. Kiumars Parvin, professor of physics at San Jose State University.

    It seems that the claim is from a physics professor, not Batteriser. Or maybe Batteriser started using making the claim based on the comments of a profess

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