About Sana cylindrical lithium battery specifications
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About Sana cylindrical lithium battery specifications video introduction
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6 FAQs about [Sana cylindrical lithium battery specifications]
Are lithium iron disulfide batteries safe?
While the PTC does impose some limitations on high rate applications for which lithium iron disulfide batteries are suitable, it is a critical element in ensuring that the battery is safe and protects the battery, the equipment and the user.
What is a cylindrical lithium iron disulfide battery?
Cylindrical lithium iron disulfide batteries use lithium for the anode, iron disulfide for the cathode, and a lithium salt in an organic solvent blend as the electrolyte. A cutaway (Fig. 1) of a typical cylindrical LiFeS2 battery is illustrated in the following diagram: Click here for larger view
What temperature should a lithium iron disulfide battery be operated at?
Lithium iron disulfide (LiFeS2) batteries have a much lower sensitivity to temperature compared to other chemical systems. The recommended operating temperature range is -40°C to +60°C (-40°F to +140°F). As with all battery systems, service life is reduced as the discharge temperature is lowered below room temperature (Fig. 2).
How many amps can a lithium iron disulfide battery drain?
The maximum continuous current drain for the “AA” size is 2.0 amps. Higher drain rates can be used for short periods of time. Because of the number of other variables involved, it is difficult to predict in advance whether lithium iron disulfide batteries can operate under extreme load conditions.
Are lithium iron disulfide batteries better than alkaline batteries?
Lithium iron disulfide batteries have a higher operating voltage than alkaline and rechargeable nickel metal hydride (NiMH) batteries and flatter discharge profile versus alkaline.
What temperature should a lithium battery be stored?
The recommended storage temperature for lithium batteries is -40°C to 60°C. Exposing lithium batteries to temperatures above 60°C can cause the insulating label to shrink and expose the battery’s steel can to potential external short circuits. Cold temperatures will have little impact on shelf life.