Lithium Ion Battery Storage Temperature Range

Tips for lithium ion battery storage temperature is vital for understanding how to store lithium batteries.

Lithium ion battery storage temperature range.

However with the continued intensive research on batteries most vendors have raised the high temperature exposure limit to 100 degrees celsius. That is why the upper limit the lithium ion battery can withstand before damage is between 70 to 90 degrees celsius. The possible storage temperature range for lithium ion batteries is is 20 c to 60 c but for prolonged storage period 20 c to 25 c is recommended and 15 c is ideal. The safe operating temperature for lithium ion battery at which it can be used is between 10 c to 55 c whereas the charging of lithium ion batteries should be carried out between 5 c to 45 c.

Storage temperatures between 20 and 35 are recommended relative humidity approximately 50. The storage temperature range for lithium ion cells and batteries is 20 c to 60 c 4 f to 140 f. Showed that the optimal temperature range for libs is 15 c 35 c. Generally the acceptable temperature region for libs is 20 c 60 c.

Cells should be stored with a partial charge of between 30 and 50. But that s not the case across the board so before storing lithium batteries thoroughly read labels on proper storage. Once the temperature is out of these comfortable regions libs will degrade fast with increased risk of facing safety problems that include fire and explosion. In case of long term storage cells must be recharged once a year.

In general the best performing temperature of lithium battery is around 20 but in an extreme temperature environment there are different types of lithium battery can perform. Cold temperature increases the internal resistance and lowers the capacity. Temperatures higher than this could lead to permanent damage to the lithium cells. Battery storage in any state of charge is possible.

While lithium ion batteries handle cold weather better than most battery chemistries temperatures too high or too low still compromise their ability to store and release energy. The following applies to the storage shelf life of lithium ion cells and batteries.