LiFePO4 batteries are highly safe, have no risk of explosion and fire, and are environmentally friendly, non-toxic and non-polluting. No memory effect - the battery can be charged in any state of discharge, giving you peace of mind.
Nominal Voltage:3.2V
Nominal capacity:50Ah
Working voltage:2.0V~3.65V
AC impedance resistance(1khz):≤1mΩ
Max. pulse charge / discharge current: 1C(30S)
Dimension:160.5mm(L)*140.5mm(W)*24.5mm(T)
Weight: 1.15kg
Product Name:
3.2V 50Ah Lithium Ion LiFePO4 Battery Cells Prismatic Deep Cycle 50Ah battery cell for Solar Energy Storage
Highlights
Compared with traditional AGM/lead acid batteries, LiFePO4 battery/ Lithium iron phosphate batteries are:
Application
Energy Storage
--Solar-Wind Power System / City Grid (On/Off) / Community and Family
Back-up System and UPS
--Telcom Base / CATV system / Computer Server Center / Medical Instrumnt / Military Equipment
Other Applications
--Security and Electronics / Mobile POS, Mining Lihgt / Torch / LED Light / Emergency Light
--RV Motorhome /Golf Carts Battery / Boat Marine Yachts / Electric Skateboard
--LED Backup / Engine Starting Battery,etc.
Technical Parameters:
No. |
Items |
Specifications |
1 |
Nominal Voltage |
3.2V |
2 |
Nominal Capacity |
50AH |
3 |
Standard Charge Current |
50A |
4 |
Max. Charge Current |
75A |
5 |
Continuous Discharge current |
50A |
6 |
Peak Discharge Current |
150A |
7 |
Charge Cut-off Voltage |
2.0V |
8 |
Discharge Cut-off Voltage |
3.9V |
9 |
Inner Resistance (Impedance) |
≤ 0.65mΩ |
10 |
Weight |
6.4Kg |
11 |
Dimensions |
Length: 160.5mm Width: 140.5mm Thickness:24.5mm
|
12 |
Operating Temperature |
Charging: 0°C ~ 45°C Discharging: -20°C ~ 60°C (The cell surface temperature cannot exceed 70°C) |
13 |
Storage Temperature/Humidity |
Temperature: -10°C ~ +35°C Humidity:65%±20%RH (optimal store temperature of 23 ± 5°C for long term storage) |
14 |
Cycle Life |
≥2000 times (100% DOD till 80% of initial capacity at 0.2C rate, IEC Standard) |
Below is the chart- LFP vs Lead Acid:
Battery Economics
Lead Acid
Lithium
Voltage
6.4 Volts
3.2 Volts
Amperage ‘AH’
225 Amps
100 Amps
Usable Watts
792
256
Price each
$120
$120
Batteries Required
24
48
Battery Pack Cost
$2,800
$5,760
Battery Life
500 Cycles
2000 Cycles.
Cost Per kilowatt
$0.01
$0.00
There is no doubt that choosing LFP is the most cost effective, environmental way.
Come us at service@osnpower.com to get LiFePO4 catalog and quotations.
Packing and Shipping
We offer a variety of shipping methods: sea, land, air
Related LiFePO4 Battery Cell
How To Find
the right deep cycle battery?
We provide 24 hours online service. Any interest, please contact service@osnpower.com for support and more information, our professionals will reply you ASAP. OSN POWER will provide you with a variety of lithium deep cycle batteries. We're here to help you find the right battery.
Features:
• IEC Certification on the combination of BMS and individual cell for complete safety peace of mind
• High energy density (less than half the weight of SLA) lowering total weight of application
• Fast recharge, battery is charged and ready to be used sooner
• Flat discharge curve, longer run time and more efficient use of capacity
• Extremely low self-discharge rate, can sit unused for longer periods of time
• Large numbers of cycles >2000 (100% DoD), up to 8 times cycle life of SLA lowering your total cost of ownership
• Safe and stable chemistry and integrated BMS, the use of LiFePO4 along with integrated BMS ensures protection against over charge/discharge, temperature and short circuit providing the highest degree of safety.
• Bluetooth versions available, monitor the health and state of your battery from your phone
• Greater capacity utilisation 60% more than SLA, gives longer runtime than equivalent SLA
Electric Performance Curve
Attentions:
For safety usage, please be careful on below:
Warning!
1. Do not immerse the battery in water and keep it dry when not in use;
2. Do not knock, throw or affect the battery near a fire source or under extremely hot conditions;
3. Please charge according to the charging requirements;
4. Do not reverse the positive (+) and negative (-) terminals;
5. Do not short-circuit the battery by connecting wires or other metal objects to the positive (+) and negative (-) terminals;
6. Do not directly weld the battery terminals.