|Nominal Capacity:||3000mah||Nominal Voltage:||3.2V|
|Internal Impedence:||Operating Votage:|
DOE optimization experiment, strict selection of incoming material, and strict manufacturing process control verify that the battery cell is stable in charge-discharge dynamic and static states of initial matching.
IFR26650-3000mAh, Lithium Iron Phosphate LFP chemical system
Diameter: 26.3±0.2mm, Height: 65.2±0.3mm
Energy storage system, Communication base station, Database UPS back up power, Medical instruments
To ensure cells' consistency and stability, only select the best raw material suppliers. Create a three-dimensional channel conductive network using array-type high conductivity carbon nanotubes and superconducting black. Multi-tabs should be designed with parallel structures. To reduce internal resistance and increase super high C rate discharge capability and high Crate continuous charging ability, apply spherical multi-direction graphite. Support 10C continuous discharge, 20C pulse discharge; 3C charge/discharge; >2000 cycles @100% DOD.
Cell AC Impedance (1KH)
Cell Weight (g)
Standard Charge Model
Cell is charged with constant current of 1C to 3.65 V, and then converted to 3.65V constant voltage charging until the charging current is less than 0.02C (60mA).
Standard Charge Current
Max. Charge Current
Standard Discharge Current
Max. Discharge Current (Continuous)
Max. Discharge Current (Long Pulse)
Max. Discharge Current (Short Pulse)
100%DOD cycle life
Charge Operating Temperature
Discharge Operating Temperature
Contact Person: Miss. Elsa Liu