Product Details:
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Product Name: | Lithium Ion Phosphate Battery | Rated Voltage: | 48V/96V/220V/380V/600V |
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Rated AH: | 100AH/200AH | Warranty: | 5 Year |
Application: | UPS/Energy Storage/Communication Base | Cell Type: | Lithium Ion Phosphate |
High Light: | External Casing Lithium Storage Battery,Lithium Storage Battery 48V,150AH off grid lithium battery systems |
Lithium batteries have a higher energy density (up to 100 times) than conventional batteries. They are divided into two categories: primary batteries and secondary batteries.
• A primary (non-rechargeable) lithium battery consists of a disposable battery that contains Lithium metal anode. Non-rechargeable batteries refer to the entire industry as a "lithium" battery.
• Secondary (rechargeable) lithium batteries consisting of Intercalation lithium compounds for anodes and cathodes. Rechargeable Lithium Battery, often referred to as "lithium-ion" batteries.
Powerwall LiFePO4 Battery(48V 200Ah) | ||
Technical Parameter | ||
NO | Item | Parameters |
1.Performance | Type | LiFePO4 battery(CELL:3.2V100Ah) |
Nominal Voltage | 51.2V | |
Rated Capacity | 200Ah(0.2℃/25℃)(Min:198Ah) | |
Operating Voltage Range | 42V-57.0V(Typical 51.2V) | |
Charging Voltage | 57.0V | |
Discharge Cut-off Voltage | 42V | |
Charging Current(Max.) | 60A | |
Discharge Current(Max.) | 100A | |
Width | 435mm | |
Height | 875mm | |
Depth | 190mm | |
Weight | 102Kg | |
2.Function | Installation Method | |
Communication | RS485 | |
Terminal Stud | M8 Bolt | |
Alarm&Protection | Over Voltage,under Voltage,short circuit,over current,over temperature,low temperature protection etc. | |
3.Working Condition | Cooling Mode | Automatic Cold and hot |
Altitude | ≤4000m | |
Humidity | 15%-85% | |
Operating Temperature |
Charge 0℃-45℃ Discharge -10℃-60℃ |
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Recommended Charge Temperature | 15℃-40℃ | |
Recommended Discharge Temperature | 15℃-40℃ | |
Recommended Storage Temperature | 0℃-35℃ |
The battery storage system is charged by clean electricity generated by solar or wind turbine.
STEP 2: DISCHARGE
Product Feature
1.Lithium Ion Battery For Energy Storage
2.Rechargable
3.Over-charge,over-discharge and overload protections for batteries
4.Compatible with energy storage system
5.CE Certification
6.WIFI or Bluetooth communication is optional
Battery energy storage systems are rechargeable battery systems that store energy from solar arrays or wind turbine or the electric grid and provide that energy to a home or business. Because they contain advanced technology that regular batteries do not, they can easily perform certain tasks that used to be difficult or impossible.
The idea of combining solar panels and batteries is not new. Early solar pioneers often attached a series of oceanic deep cycle batteries to their solar arrays. Before net metering became commonplace, this was the only way to use stored solar energy at night. Modern battery energy storage systems are conceptually similar but more complex and powerful. If those old battery arrays were like flip phones, modern battery energy storage systems are like the latest smartphones—they have the same main functions, but everything else is worlds apart.
Modern battery energy storage systems often include built-in inverters and computer control systems. This means they are all-in-one turnkey systems that are simple to install, essentially maintenance-free, and require no effort or expertise from the owner. They are also weatherproof and safe for people and pets.
Q1 What are the three types of energy storage?
A1 Storage options include battery, thermal or mechanical systems. All of these techniques can be used in conjunction with software that controls the charging and discharging of energy.
Q2 What is an energy storage system?
A2 An energy storage system is a set of methods and technologies for storing energy. The stored energy can be utilized later to perform useful operations. For example, many renewable energy sources (such as wind, solar or solar, tidal) are intermittent
Q3 What is the voltage of battery?
A3 The operating voltage (V) range of a single cell Li-Ion battery (also known as a battery) is 3.6–4.2V. Lithium ions move from the anode to the cathode during discharge. ion inversion Orientation during charging. The lithiated metal oxide or phosphate coating on the cathode defines the
The "chemistry" of the battery.
Q4 Why do we need energy storage?
A4 At its simplest, energy storage saves electricity for later use when and where it is needed most. This creates efficiencies and capacity for the grid, including the ability to reduce greenhouse gas emissions.
Contact Person: Leo Wang
Tel: +8613827286949