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You can use lithium solar cells primarily in combination with solar photovoltaic (PV) systems to use renewable energy to power your home solar with the 3000 Watts home energy storage battery wall-mounted type power wall and more than 6,000 charge cycles (more than 10 years of service life in daily use). You can use lithium solar batteries primarily in conjunction with a solar photovoltaic (PV) system to charge your home solar backup battery with renewable energy, allowing you to provide solar energy from the solar cells on a regular basis.
Product Description
With the 3000 Watts home energy storage battery wall-mounted type power wall, more than 6,000 charge cycles (more than 10 years of service life in daily use), you can use lithium solar cells primarily in combination with solar photovoltaic (PV) systems to use renewable energy to power your home solar You can use lithium solar batteries primarily in conjunction with a solar photovoltaic (PV) system, using renewable energy to charge your home solar backup battery, so you can provide solar energy from the solar cells regularly.
OPTIMIZED SOLUTION FOR ENERGY SAVING & HIGH-QUALITY POWER
Energy Storage System(ESS) stores electric energy and utilizes them for later consumption. It is purposed to improve energy efficiency, by enhancing the quality of renewable energy that results in stabilization of the power supply system. We provide the most optimal energy solution for the users using our state-of-the-art energy storage system with a long lifespan and top-notch quality.
Product parameters
Model | HS-BG3000W |
Rated Voltage(V) | 51.2 |
Rated Capacity(Ah) | 70 |
Rated Energy(Wh) | 3584 |
Voltage Range(V) | 44.8-56 |
Charge Voltage Range(V) | 55.2-56 |
Cut-off Voltage(V) | 44.8 |
Recommend Charge Current(A) | 30 |
Max Charge Current(A) | 60 |
Max Discharge Current(A) | 60 |
Dimension:L*W*H(mm) | 374*138*530 |
Weight(kg) | 32 |
Communication Port | RS485、CAN |
Display | LED+LCD |
Terminal | Plug-in |
Compatible inverter | Growatt, Goodwe, Sol-Ark, SRNE,DEYE |
Humidity(%) | 5-95% RH |
Charge Temperature Range(℃) | 0-45 |
Discharge Temperature Range(℃) | -20-60 |
Storage Temperature Range(℃) | -20-45 |
Cycle Life | >6000 (0.5C@ 25℃,80% DOD) |
Design Life (Year) | 15 |
Safety & Certification | CE,EMC,TUV(IEC62619),UL1973 |
Transportation | UN38.3 |
THE WORLD'S SMARTEST BATTERY MANAGEMENT SYSTEM
The built-in battery management system integrates with multilevel safety features including overcharge and deep discharge protection, voltage and temperature observation, over current protection, cell monitoring, and balancing, and over-heat protection. This high-performance BSLBATT Lithium Battery has a large power capacity, with fast charging and continuous discharge power, providing 98% efficiency.
CONTROL INTERFACE FOR COMPATIBLE INVERTER/CHARGER UNITS
The BMS provides relay and analog outputs and CAN Bus for independent control of (and communication with) the inverters and solar charge controllers through a multi-core cable and Ethernet cable respectively. Charge and discharge current limits and state of charge values are some of the important parameters transmitted by the BMS. The Lite is configured before delivery for the applicable inverter brand.
Expensive?
Lithium Iron Phosphate batteries might seem expensive when compared to lead acid batteries, but this is not true. A proper scenario comparison will reveal that the purchase costs are very similar and any marginal premium for a LiFePO4 battery is more than compensated for by longer life and very high efficiency. The high efficiency means that far less energy is wasted and that the solar array can be 30% smaller to achieve the same results. In general - because of the high DoD capability and high efficiency the ampere-hour rating of a Lithium Battery need only be 35% of a lead acid battery to give the same useful output - this is important when comparing costs between the two technologies.
Power Interface
Suitably sized positive and negative cables are provided for connecting the 48V DC cables to the inverter and solar charge controller. The DC circuit is protected with a shunt trip circuit breaker.
You can use the power wall to protect your home by
Battery Backup – A simple, robust option for using clean energy to keep a building powered during a power outage.
Self-Supply –Obtain energy independence by storing excess solar energy for later use
Time-of-Use –Store off-peak grid power for use when utilities charge the highest rates.
Demand Charge Curtailment –Reduce the demand charge for businesses
Off-grid – Use renewable energy to power your home during the daylight, and stored excess energy for the night.