IonicBond
Enlightened
Over the years, we've all been accustomed to seeing something like storing cells at 40-50% or so, but I believe that may be due *partly* to hazmat shipping issues. You kill two birds with one stone, ie not having cells sitting around in retail fully charged, and low enough to satisfy hazmat.
But once you get cells home, perhaps this low capacity storage is not ideal since we no longer have to deal with hazmat shipping.
Battery U. identifies 3.92v as the ideal voltage between oxidization and SEI growth, and this resting voltage seems to be approximately 70-75% or so of SOC voltages.
Maybe I'm mis-interpreting something - if so, let me know!
But once you get cells home, perhaps this low capacity storage is not ideal since we no longer have to deal with hazmat shipping.
Battery U. identifies 3.92v as the ideal voltage between oxidization and SEI growth, and this resting voltage seems to be approximately 70-75% or so of SOC voltages.
Maybe I'm mis-interpreting something - if so, let me know!