The really nice thing is that the larger phone batteries get the more you get to use at 50% depth of discharge. My phone is 5,000 mAh and so I get to use 2,500 mAh of it. Once average phones start getting 5,500 mAh, that will mean I will be able to use 2,750 mAh. 250mAh may not sound like a lot, but it can go a decently long way.
What did you actually gain here? With my Pixel 7 it looks almost the same with 3.1% capacity loss per year without taking any special care of my battery. Is my phone an outlier or does it just not matter? And I almost exclusively charge with wireless.
This is a 50% DoD and is considered best possible practice to prevent lithium-ion dendrite formation.
Updoot for good advice.
Proof:
If you don’t mind clarifying, what do you mean by DoD?
Depth of Discharge, sorry – 0 to 100 would be a 100% depth (the entire battery), 30 to 80 is 50%.
What kind of software creates this plot?
Looks like AccuBattery.
It’s AccuBattery
Missed opportunity to call it “AkkuBattery” for all the dual language pun enjoyers out there 🎩
ThanCC!
The really nice thing is that the larger phone batteries get the more you get to use at 50% depth of discharge. My phone is 5,000 mAh and so I get to use 2,500 mAh of it. Once average phones start getting 5,500 mAh, that will mean I will be able to use 2,750 mAh. 250mAh may not sound like a lot, but it can go a decently long way.
What did you actually gain here? With my Pixel 7 it looks almost the same with 3.1% capacity loss per year without taking any special care of my battery. Is my phone an outlier or does it just not matter? And I almost exclusively charge with wireless.
I charge wired (high speed, 18-22W). Wireless is known to be a lot slower and theoretically gentler on the battery.
I also use the phone heavily, like a computer, I’m a “power user”, so my battery thrashing is higher than average.
Us having the same durability lost on our engine despite me driving double the miles is a good analogy.
To my knowledge wireless charging is harder on the battery because of the heat it produces.
Not entirely true. “Best possible” would be left plugged in and charged to 50%. Next best would be 49-51%. Then 48-52% and so on.
Also it’s not that difficult or expensive to swap a battery and not really worth the stress, in my opinion.
Well, you are absolutely correct. A 1-2% DoD is something for like, the Voyager Probe though, not a smartphone :)