Products Description |
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Model
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PM5000-S2
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PM5000-S3
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PM5000-S4
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Model Number
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2
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3
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4
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Rated Voltage(V)
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48/51.2
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Voltage Range(V)
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40-54;44.8-56
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Charging Voltage(V)
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52.5~54 ;57.6~58.4
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Internal Impedance
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≤50mΩ
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Rated Energy
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5KWH
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15KWH
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20KWH
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Maximum Continuous
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200
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200
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Charge Current(A) |
200
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Maximum Continuous
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200
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200
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Charge Current(A) |
200
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OperationTemperature Range
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Charge: 0~45°C
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Discharge: -20~55°C | |||
IP
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IP55
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Less than 12 months: -10~35C
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Storage Temperature Range
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Less than 3 months: -10~45°C
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Less than 7 days: -20~65°C
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Cycle Life
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≥8000
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Safety & Certification
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IEC62619, UN38.3, ROHS, CE- EMC, UL1973, MSDS
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Dimensions(L*W*H)
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500*500*736mm
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500*500*996mm
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500*500*1256mm
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Features Long cycle life: LiFePO4 technology offers long-term durability and dependable performance with a service life of thousands of charging cycles, minimizing the need for regular replacement. Elevated safety requirements: LiFePO4 batteries are renowned for their superior safety and thermal stability. They are a safer option for home and business use since they are less likely to overheat, catch fire, or explode than other lithium-ion batteries. Scalable energy solutions: This battery system offers a range of capacities (10KWH, 15KWH, 20KWH, 30KWH, and 40KWH) to accommodate a range of energy storage requirements, from modest homes to huge commercial buildings.
Environmentally friendly: LiFePO4 batteries are more environmentally friendly than conventional lead-acid batteries. They have a reduced lifetime environmental impact and don't contain any hazardous heavy metals. Rugged Construction: The system is built to last in both indoor and outdoor settings thanks to a weatherproof and sturdy enclosure that can resist challenging climatic conditions.
FAQ: Can you solar charge a LiFePO4 battery?
Renewable and Sustainable Energy Source: Solar power is a sustainable energy source. You may lessen your carbon footprint and help the environment by charging your LiFePO4 batteries with solar power. Cost Savings: Using solar energy to charge LiFePO4 batteries can result in lower electricity costs.
What are the disadvantages of LiFePO4 batteries?
High temperatures may result in decreased performance from LiFePO4 batteries. This restriction may make them unsuitable for use in extremely hot situations, such as certain industrial settings or areas with continuously high temperatures.
What is the difference between Li ion and LiFePO4 solar panels?
For Portability and Power: If you require a high-energy, lightweight battery for vehicles or portable equipment, go with Li-ion. For longevity and safety: If you're installing a system that needs a long-lasting, safe battery, such as solar power storage or maritime applications, go with LiFePO4.
Can you use lithium batteries in a solar system?
Globally, lithium-ion batteries are becoming an increasingly common option for solar systems. The development of this kind of battery was influenced greatly by its use in the electric vehicle sector. Its prismatic shape helps with solar system use and permits ventilation.
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