I’m not sure though — the power output and the charging input are both regulated and (almost certainly) current limited. So I think (not positive…) that you’re basically dissipating your power in the inefficiency the charging and output circuits, with this power coming from the battery.
The inefficiency should (I think…) just be the round-trip inefficiency of the charging/discharging of your power bank — this should be way, way less than the short-circuit power dissipation.
The simplest toy model is to take a battery and try to charge itself. So you put jumpers on the + terminal and you connect those to the + terminal, and same for - (charging is + to +, NOT + to -). But this is silly because you’ve just attached a loop of wire to your terminals, which is equivalent to doing nothing. With charging circuits in between things get much more complicated, but I’m not sure if it goes full catastrophic short…
You’re probably mostly correct. Some of them do literally count that, but (to my knowledge) most measure voltage as a battery with lower charge usually outputs less and vice versa.
My guess is it didn’t, and the numbers were pulled out the OP’s ass.
Otherwise, idk how power banks monitor their percentage of charge, but being that it’s a percentage, if you fuck up the capacity, the same amount of energy will take up a higher percentage of that capacity. /shrug
No you shorted your battery
I’m not sure though — the power output and the charging input are both regulated and (almost certainly) current limited. So I think (not positive…) that you’re basically dissipating your power in the inefficiency the charging and output circuits, with this power coming from the battery.
The inefficiency should (I think…) just be the round-trip inefficiency of the charging/discharging of your power bank — this should be way, way less than the short-circuit power dissipation.
The simplest toy model is to take a battery and try to charge itself. So you put jumpers on the + terminal and you connect those to the + terminal, and same for - (charging is + to +, NOT + to -). But this is silly because you’ve just attached a loop of wire to your terminals, which is equivalent to doing nothing. With charging circuits in between things get much more complicated, but I’m not sure if it goes full catastrophic short…
I think you’re right and I was just memeing, but I’m curious how the battery percentage went up
I think the charge controller counts the amount of energy that has passed through it.
You’re probably mostly correct. Some of them do literally count that, but (to my knowledge) most measure voltage as a battery with lower charge usually outputs less and vice versa.
My guess is it didn’t, and the numbers were pulled out the OP’s ass.
Otherwise, idk how power banks monitor their percentage of charge, but being that it’s a percentage, if you fuck up the capacity, the same amount of energy will take up a higher percentage of that capacity. /shrug
Physicists hate this one weird trick…