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by Zak
327 days ago
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It actually gives you 2.1V per slot because a fully charged standard Li-ion cell is 4.2V. This is also sketchy because it will likely over-discharge the cell below 2.5V if not monitored carefully. Over-discharge makes it dangerous to charge the cell again. Actual protected 14500s will be too long in most devices meant for AA, but it's possible to find protected 14430 cells marked as "14500" from some flashlight brands like Acebeam and Skilhunt. Those are safe with regard to over-discharge, but the voltage of a fully charged cell might still damage devices not rated for it. I'd rate this modification as risky and only suitable for people with significant battery expertise. Edit: saw the other comment mentioning 14500s with USB ports. These will be protected against short circuit and over-discharge, and are actually based on 14430 cells. |
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I saw some articles and ads for doing it using 3.1V LiFePO4 batteries but I couldn't find any of those with USB charge-ports... I guess your warnings are why you're supposed to use the 3.1V Li-phosphates for that. So I went with the 3.7V LiIon because I really wanted that port.
I guess I dodged a bullet. Thanks for the warning. I actually did systems engineering as an undergrad (though I just work in software) so that makes me a bit overconfident with electronics even though I don't know jack about battery chemistry besides the basic theory. I'll be more careful on research next time I undertake this kind of project.