3DPrinting
3DPrinting is a place where makers of all skill levels and walks of life can learn about and discuss 3D printing and development of 3D printed parts and devices.
The r/functionalprint community is now located at: !functionalprint@kbin.social or !functionalprint@fedia.io
There are CAD communities available at: !cad@lemmy.world or !freecad@lemmy.ml
Rules
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No bigotry - including racism, sexism, ableism, homophobia, transphobia, or xenophobia. Code of Conduct.
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Be respectful, especially when disagreeing. Everyone should feel welcome here.
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No porn (NSFW prints are acceptable but must be marked NSFW)
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No Ads / Spamming / Guerrilla Marketing
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Do not create links to reddit
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If you see an issue please flag it
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No guns
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No injury gore posts
If you need an easy way to host pictures, https://catbox.moe/ may be an option. Be ethical about what you post and donate if you are able or use this a lot. It is just an individual hosting content, not a company. The image embedding syntax for Lemmy is ![](URL)
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You really don't know the risks unless you open it and minimally reverse engineer it. The charger shouldn't be very complicated and it's not directly connected to mains so that is nice. Charging chips are super simple and there are not too many ways to screw those up, unless they do.
If anything at all is shady, it'll be the power brick or the way the USB plug is powered. If the brick is crap and somehow starts passing mains, I am willing to bet that the USB plug will pass the bulk of the current through you or whatever is connected to it. It's something to check, anyway.
Reverse engineering to determine safety is what UL does. If anything here, the charger needs to account for fucked batteries with fail-safes but as long as the batteries are fine, it shouldn't be a problem
(I can't disagree with you, cause you ain't wrong. ;) I do probably need to clarify my point though.)
That is exactly my point about the device not being UL rated. More than once, I have needed to add or replace poor ground connections to the chassis of some device, when applicable. If there is a failure point, it's usually where there were cost savings is involved and generally not with the charging circuit itself.
Most battery charging ICs have decent fail-safes for bad batteries. It's just economical to use the same, or similar, generic IC across hundreds of products. (The TP4056 (and clones) is a decent example of wide adoption, but it's not quite a 1:1 with this particular application. It has good trickle charging and a temperature safety, but not battery chemistry logic, that I am aware of.)
Again, it's just something to look for when inspecting rando devices. To your point, cloned charge regulators may have deleted safeties, so that is a thing.