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LiFePO4 Battery 48V 40AH(with BMS,Fast Charger and Bag)

48V 40AH LiFePO4 Battery(with BMS,Fast Charger and Bag):

Brand New, A Grade!!!

Free BMS, Free Fast Charger, Free Battery Bag!!!

48V 40AH LiFePO4 Battery Specification:

Battery Model

48V 40AH

Nominal Capacity (AH)

40Ah

Nominal Voltage (V)

51.2

Source Resistance (mΩ）

＜40

Cell Combination

16-Series
14-Paralles

Cell Type

26650 Cylindrical (3.2V 3000mAh)

Cell Quantity (series*parallels)

224 pcs

Cell Size
Diameter: 26mm
Height: 65mm

Battery Size
380×210×140mm 430×200×140mm

Discharge Cutoff Voltage (V)

35.2

Charge Cutoff Voltage (V)

62.4

Rated Discharge Current (A)

40

Instantaneous Maximum Discharge Current (A)

120 (without BMS)

Maximum Continuous Discharge Current (A)

80

Maximum Continuous Charge Current (A)

20

Maximum Standard BMS Limited Current (A)
30
If you have special requirement, please kindly tell us

Charge Mode

CC-CV

Standard Charge Current (A)

2

Charge Time under Standard Charge Current

24 hours

Fast Charge Current (A)

6

Charge Time under Fast Charge Current

8 hours

Charge Temperature Range

0-45℃

Discharge Temperature Range

-10-60℃

Battery Net Weight (include BMS) (kg)

21

Battery Gross Weight (include BMS) (kg)

24

Lasting Distance (48V 1000W Motor)

106km

Charging Cycles
>1000 times

Equipment
BMS + 6A Fast Charger + Bag

Recommend Motor Application

48V 1000W and above

What is the LiFePO4 Battery ?
LiFePO4 is an intrinsically safer cathode material than LiCoO2 since exothermic reactions can not occur in batteries based on this material: LiFePO4 cells do not incinerate or explode under extreme conditions. In addition, LiFePO4 cells have a higher discharge current, are not toxic and have a much higher cycle life than LiCoO2 cells.

Battery system design
LiFePO4 cells can be purchased from various suppliers with diverse characteristic and price levels. The art of engineering a full-sized EV battery system is to select the proper cells, design the battery pack and battery management system (BMS) -taking geometric, thermal and electric constraints into account- and select the appropriate charger.

The above characteristics make LiFePO4 the ideal chemistry for electric vehicle applications.

LIFEPO4 Battery Wide Application Fields!
◆Light electric vehicles such as electric motorcycle, e-bike, e-scooter, golf car, folk lifter, floor cleaner
◆Power tool, electric garden tool, agricultural tool, special application tool ,Remote control plane, car, boat
◆Remote control plane, car, boat ,Solar energy, wind energy storage systems

COMPARISON DATA AMONG VARIOUS LITHIUM BASE BATTERIES

Safety CYCLE LIFE POWER WEIGHT DENSITY LONG TERM COST Temperature Range

LiFePO4 Excellent
Safest and most envirofriendly among all the listed groups Excellent Cycle life can be as long as over 2,000 cycle, best among all the listed groups. Acceptable Excellent
Most economic Excellent (can be discharged at -45~ 70 Centigrade)

LiCoO2 Very unstable, must handle with extremely care, it might explode or catch fire under collision, over-charged, short circuit or when heat build-up. Acceptable Cycle life only up to 300~500 cycle. Not good for high C-rate discharge. Good High > Decayed beyond 55 ~ -20 Centigrade

LiMn2O4 Have to handle with care, or it might explode or catch fire under collision or over-charged. Unacceptable Cycle life only up to100~800 cycle, depending on the discharge C-rate. Acceptable Acceptable High

Li(NiCo)O2 Very unstable, must handle with extremely care, it might explode or catch fire under collision, over-charged, short circuit or when heat build-up. Acceptable Cycle life can be 300~500 cycle. Not good for high C-rate discharge. Good High Decayed extremely fast over 55~ -20 Centigrade