LiFePO4 Battery 26650 With Tag Lithium iron Phosphate Battery IFR26650 2300MAH 3.2V For Back Up Power Quick Detail: 1)Welding the tabs on the battery 's pole 2)the thickness of the tabs is 0.5mm 3) The battery Can be assembed with M3 screw Specification: Lithium iron Phosphate Battery IFR26650 3.2V For Back Up Power Pictures:...
LiFePO4 Battery 26650 With Tag
Lithium iron Phosphate Battery IFR26650 2300MAH 3.2V For Back Up Power
Welding the tabs on the battery 's pole so that the buyer can DIY with their design
The thickness of the tabs is 0.5mm and tinning so that assembled easy
The battery Can be assembed with M3 screw and other conector
High discharge current 20 C to meet big current application
Standard 26650 size
Specification for LiFePO4 Battery 26650 With Tag
Charge cut-off voltage
2300mAh @ 1C Discharge
2350mAh @ 1C Discharge
Standard charging method
1C CC (constant current) charge to 3.65V, then CV (constant voltage 3.65V) charge till charge current decline to £ 0.05C
Standard charge: 2.0 hours Ref
Max. charge current
Max. continue discharge current
20C (Cell skin temperature cannot exceed 80°C)
Discharge cut-off voltage
Charging: -10°C ~ 45°C
Temperature -10°C ~ +35°C
Length: 65.0±0.3 mm
Both of cathnode and anode widing the tags
In order to avoid shortcircle , the battery put specially sponge pallet.
six pcs in one little box , and 10 box in small standard paper carton
15 days after the customer confirmed the Pi and arrange the payment.
25-30 days if the buyer require speically tag
The batteries should be stored at room temperature, charged to about 30% to 50% of capacity.
We recommend that batteries be charged about once per three months to prevent over-discharge
The period of warranty is 18 months from the date of shipment. TAC guarantees to give a replacement in case of battery with defects proven due to manufacturing process instead of the customer abuse and misuse.
Never short circuit battery. It generates very high current which causes heating of the battery and may cause electrolyte leakage, gassing or explosion that is very dangerous.
The poles may be easily short-circuited by putting them on conductive surface.
Such outer short circuit may lead to heat generation and damage of the battery.
An appropriate circuitry with PCM shall be employed to protect accidental short circuit of the battery pack.
Falling, hitting, bending, etc. may cause degradation of battery characteristics.