PatR
Premium Pilot
Over discharging a lithium chemistry battery can cause cells to sustain damage that prevents charging them back to a full charge. It can also cause damage that increases internal resistance, where they may quickly discharge after being charged and returned to use. All too often lithium chemistry battery failures are induced by users that don't understand how they must be used.
The message here is to take the initiative and learn about the differences between lithium chemistries, how each is most effectively used, and the usage limits of each type. Read the battery label carefully to identify the type. Don't assume because a quick glance caught the word lithium or the abbreviation Li.
That info has been published by many manufacturers and distributors and can be easily found in a Google search.
Lithium polymer and lithium ion are not the same chemistry, just as li-on and li-fe are not the same. They all contain lithium but they are very different from each other and are handled and perform differently.
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The message here is to take the initiative and learn about the differences between lithium chemistries, how each is most effectively used, and the usage limits of each type. Read the battery label carefully to identify the type. Don't assume because a quick glance caught the word lithium or the abbreviation Li.
That info has been published by many manufacturers and distributors and can be easily found in a Google search.
Lithium polymer and lithium ion are not the same chemistry, just as li-on and li-fe are not the same. They all contain lithium but they are very different from each other and are handled and perform differently.
Sent from my iPhone using Tapatalk