Then you’re not exactly using wireless charging the way the average person does, are you?
A “hotter” charger will degrade the battery more. Have I at any point claimed something beyond that?
The average Qi charger wont trickle at the slowest speed possible to meet a schedule, unless a user specifically sets it up that way. Comparing the average use cases and user habits, the cooler charging solution will net you more cycles.
Does your doctorate allow you to somehow claim otherwise?
There’s a wide temperature range where these materials function optimally. You’d need to get them to the point where they’re burning to touch before any significant degradation occurs. For reference 50 °C is a good temperature for tea.
Then you’re not exactly using wireless charging the way the average person does, are you?
A “hotter” charger will degrade the battery more. Have I at any point claimed something beyond that?
The average Qi charger wont trickle at the slowest speed possible to meet a schedule, unless a user specifically sets it up that way. Comparing the average use cases and user habits, the cooler charging solution will net you more cycles.
Does your doctorate allow you to somehow claim otherwise?
There’s a wide temperature range where these materials function optimally. You’d need to get them to the point where they’re burning to touch before any significant degradation occurs. For reference 50 °C is a good temperature for tea.
https://www.researchgate.net/figure/Lithium-ion-battery-life-vs-temperature-and-charging-rate-36-39-44-45_fig2_260030309