Deep Cycle LFP Battery 51.2V 100Ah 200Ah 300Ah Home Solar
Power Storage Battery
The 51.2V 200Ah battery system is applicable to home energy
storage, small or medium sized shopping mall energy storage,which
uses 32 pieces of 3.2V 50Ah battery cells in 16s2p
configuration.Built-inSeplos smart BMS suppor tmaximumof 16packs of
battery in paralleltoachieve high ercapacity.The system can not
becon nected in series.And do not mixusea ocell battery with
anyother battery brands or models.
O'Cell is committed to providing high-quality solar inverter
solutions that help to power a greener future. With its advanced
technology,flexible design, and user-friendly interface, [Inverter
Model] is the ideal choice for anyone looking to harness the power
of the sun and make the switch to clean, renewable energy.
Solar Inverter Characteristics
1.Battery and ambient temperature detection: 4 battery temperature
sensors, 1 ambient temperature sensor, and 1 MOS temperature
sensor, with a deviation of ±2°C.
2.Battery capacity and cycles: Complete a full charge/discharge
cycle to set the actual capacity. The remaining capacity of the
battery is monitored with a capacity estimation accuracy within 5%
deviation. Additionally, charge and discharge cycle times as well
as full charge and discharge cycle times are configurable
3.Intelligent cell balancing: The charging and static balancing
strategies can be set flexibly to effectively extend the service
life.
4.Communication port: PC or smart front-end can monitor battery
pack data, control operation and set parameters through commands
such as telemetry, remote signaling, remote adjustment, and remote
control. The communication protocol conforms to the requirements of
YD/T 1363.3, and realizes cascade communication at the same time.
5.Communication interface: PC or intelligent front-end can monitor
battery data, control operation and set parameters through
telemetry, remote signaling, remote adjustment, remote control and
other commands. The communication protocol meets the requirements
of YD/T 1363.3 and realizes cascade communication
6.History data recording, saving and reading: Battery condition and
alarm information will be recorded and save in real time when there
is abnormality in the battery. A maximum of 500 history failure
data can be stored.
7.Battery management system parameter setting: battery management
system parameters, including cell battery over
voltage/under voltage, battery total voltage over voltage/under
voltage, charge and discharge over current, battery high/low
temperature, battery capacity, working mode, charge and discharge
limit current, can be set in the battery monitoring system.
8.Working mode: charging and discharging current limiting, constant
voltage output, direct output and other working modes can be set in
the monitoring system
9.Multiple protection functions: hardware protection, battery
protection, high and low temperature protection, output short
circuit protection, etc.
Items | Specifications |
Rated energy(kWh) | 5.12KWh |
Configuration | 2P16S |
Nominal Voltage(V) | 51.2V |
Working Voltage(V) | 42V~58.4V |
Nominal Capacity(Ah) | 100Ah |
Rated charge/discharge Current(A) | 50A@25±2℃ |
Maximum charging current | 100A@25±2℃ |
Maximum discharge current | 100A@25±2℃ |
Working Temperature | 0~40℃(Charge) -20~40℃(Discharge) |
Humidity(%) | 5~95% |
Altitude Limited(m) | 0-3000m |
Dimension(mm) | 544.7×432.5×166mm |
Storage temperature and humidity | -10℃~35℃(Within one month of storage) 25±2℃(Within three months of storage) 65%±20%RH |
weight | 47kg±3kg |
cycle life | 4800 cycles @25℃ 50A charge and discharge current 70% standard capacity 90% DOD |
Communication mode | CAN&RS485 |
1. What is an energy storage battery?
An energy storage battery is a device that stores electrical energy
in the form of chemical energy and releases it as electrical energy
when needed. It is used to store surplus energy generated from
renewable sources or during low-demand periods for later use.
2. What are the common types of energy storage batteries?
Common types of energy storage batteries include lithium-ion,
lead-acid, nickel-cadmium, and flow batteries. Lithium-ion
batteries are the most widely used in residential and commercial
applications.
3. Why are energy storage batteries important?
Energy storage batteries play a crucial role in stabilizing the
electrical grid, managing energy supply and demand, and increasing
the efficiency of renewable energy sources by storing excess energy
for use during peak demand periods.
4. How long do energy storage batteries last?
The lifespan of an energy storage battery varies depending on the
type and usage but typically ranges from 5 to 20 years.
Lithium-ion batteries often have a lifespan of 10-15 years.
5. Can energy storage batteries be used for off-grid applications?
Yes, energy storage batteries are commonly used in off-grid and
remote locations to provide a reliable source of electricity when
there is no access to the main grid.
6. Are energy storage batteries environmentally friendly?
Energy storage batteries can be environmentally friendly,
especiallywhen used with renewable energy sources. However, it's
essential to consider the environmental impact of battery
production and disposal.
7.What kind of the package of the cells?
Pack with strong package, each cell into thickness PE foam or bag,
then into 5 layers strong carton.