HEFEI ECOLITE ENERGY CO., LTD.
Let's use lithium energy technology to return the earth to a blue sky and sea.
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LiFePO4 12V80Ah Battery Integrated BMS And MPPT for Solar Street Light
Solar street light is not only energy saving and environmental protection will not produce electricity,In the past, many solar street lamps used lead-acid batteries, but now, almost all of them use lithium batteries.
Advantage
1. Lithium batteries are small in size, light in weight and easy to transport.
Compared with lithium-ion energy storage systems and lead-acid colloidal batteries used for power solar street lamps, they weigh about a third and are a third by volume.
That makes it easier to transport, and the cost of transport falls.
2. Lithium battery has high energy density and long service life.
Energy density refers to the amount of energy stored in a given unit of space or mass.
The more energy density a battery has, the more power it can store per unit weight or volume.
There are many factors that affect the service life of lithium batteries, and energy density is one of the most important internal factors.
3. Solar street lamps using lithium batteries are easy to install.
The installation of traditional solar street lamps needs to reserve a battery pit, and the buried box will put the battery into the sealed.
And the installation of lithium solar street light is more convenient, you can directly install the lithium battery on the bracket, the use of suspension or hidden type.
4. Lithium-ion solar street lamps are easy to maintain.
Lithium-ion solar street lamps only need to take out the batteries from the lamp pole or panels during maintenance, while traditional solar street lamps need to dig out the batteries buried in the ground during maintenance, which is much more troublesome than lithium solar street lamps.
ECOLITE produces LFP12V80AH battery pack, specially designed for solar street lamps.
The service life is up to 20 years.Be brave of any inclement weather.
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BATTERY DATA SHEET
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| Electrical Parameters | Mechanical Parameters | |||||||
| Nominal Voltage | 12.8V | Dimension(L×W×H) | 360x202x154mm | |||||
| Rated Capacity | 80Ah | 14.17x 7.95x 6.06" | ||||||
| Energy | 1024Wh | Weight | 12.6kg | |||||
| Resistance | ≤30mΩ | Terminal Type | MC4,SP1712/S4 | |||||
| Efficiency | ≥0.98 | Battery Housing | Cold rolled steel sheet | |||||
| Cycle Life | >4000cycles @1C,80% DOD | Housing Protection | IP65 | |||||
| Self Discharge | < 5% per Month | Cell Type-Chemistry | LiFePO4 Cell | |||||
| Max. Cell in Series/Parallel | 4S/1P | Communication | Option | |||||
| Discharge Parameters | Charge Parameters | |||||||
| Continuous Discharge Current | 40A | Charge Method | CC-CV | |||||
| Pulse Discharge Current | 60A (<10S) | Charge Voltage | 13.7~14.6V | |||||
| Recommended Volt. Disconnect | 10V | Recommended Float Voltage | 13.5~14.3V | |||||
| BMS Discharge Cut-off Voltage | 8.2V | Recommended Charge Current | 15A | |||||
| Reconnect Voltage | 8.6V | Maximum Charge Current | 40A | |||||
| Short Circuit Protection | 100-300us | BMS Charge Cut-off Voltage | 15V | |||||
| Temperature Parameters | ||||||||
| Discharge Temperature | -20 ℃ to 60 ℃ | |||||||
| Charge Temperature | 0 ℃to 55 ℃℃ | |||||||
| Storage Temperature | -20 ℃ to 60 ℃ | |||||||
| BMS High Temperature Cut-off | 85 ℃ | |||||||