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POWEROAD Meta H1 Vysokonapäťový stohovací systém skladovania energie z batérií LiFePO4 pre obytné budovy

POWEROAD H-S10250HV 102.4V 52Ah high-voltage stacking residential LiFePO4 battery energy storage system with built-in own-developed BMS.

● High voltage design ensures power up home appliances with high efficiency.
● Scalable from 5.32kWh to 63.90kWh power configurations.
● Modular design allows convenient installation, more operation.
● Safest LiFePO4 technology, sustained power supply.
● Long lifespan, up to 8000 cycles.
● Armed with POWEROAD designed BMS, three layer over current protection, safety first.
● Floor space sparing, allowing more space management.
● RS485, CAN communication support. Wi-Fi / BLE optional.
● Compatible with mainstream brand inverters: Growatt, Deye, Sunsync, Victron, Studer, Aiswei, Voltronic, MEGAREVO, Afore, SRNE…
● Remote access with Bluetooth / WiFi for monitoring, to reduce operation and maintenance costs.

The META H1 is powered by lithium-ion phosphate (LiFePO4) battery and is for use with an external inverter.

Given the credit to the POWEROAD BMS, the systems will automatically trigger four-layer over-current protection to ensure powerful output and safety.

Starting with 1 module of 102.4V 52Ah batteries, users can configure the system capacity according to their requirements from 5.32 kWh to 63.90 kWh by quick installation.

Kľúčové vlastnosti

Qualified Cell Selection:

We offer the best selections, giving you a wide range of choices of battery cells, including CATL, CALB, EVE, etc. All battery cells are UL1642/IEC62133/IEC62619-qualified. You make the decision, and we handle the rest.

High-Efficiency Components:

Poweroad only applies top-tier conductors to the battery products, giving one of the best guarantees to reduce resistance and boost performance.

Trusty Production:

POWEROAD has passed the major global manufacturing certifications. We promise our customers a professional and rigorous production standard operation procedure, ensuring the build process is scientific and the build quality is solid.

Rigorous Inspection:

POWEROAD has over 20 steps of inspection that cover before, during, and after production. We deliver one of the most rigorous inspection SOPs in the industry, ensuring product quality and improving the customer experience.

META H1

Module Quantity (pcs)

2

3

4

Battery System Capacity (Ah)

52

Battery System Energy (kWh)

10.65

15.97

21.3

Battery System Voltage (Vdc)

204.8

307.2

409.6

Battery Module Capacity (Ah)

52

System Charge Upper-Voltage (Vdc)

57.6

System Discharge Lower Voltage (Vdc)

43.2

Cycle Life

8000 cycles

Communication

RS485, CAN

Battery System Charge Current (A)

Standard

10

Normal

25

Peak

50

Battery System Discharge Current (A)

Standard

10

Normal

25

Peak

50

Physical Spec.

Dimensions (W*D*H mm)

550*310*640

550*310*873

550*310*1106

Battery System Weight (kg)

103

148

193

Cooling Type

Natural cooling

Protection Class

IP55

Operation Temperature (°C)

Charge: 0 ~ 45

Discharge: -10 ~ 50

Humidity

5% ~ 95%, without condension

Altitude (m)

<2000

Certification

CE, UN38.3

Úvod

In today’s world, energy conservation and sustainability are at the forefront of global consciousness. With the ever-increasing demand for electricity and a growing emphasis on renewable energy sources, residential lifepo4 battery have emerged as a revolutionary solution for efficient energy storage. This comprehensive product description will delve into the world of residential LiFePO4 batteries, exploring their features, benefits, applications, and the technological innovations that make them a game-changer for homeowners seeking to optimize their energy consumption.

Chapter 1: Understanding Residential Lifepo4 Battery

1.1 What is LiFePO4?

LiFePO4, or Lithium Iron Phosphate, is a type of lithium-ion battery known for its superior performance, longevity, and safety. Unlike other lithium-ion batteries that use cobalt-based cathodes, LiFePO4 batteries employ iron-phosphate as the cathode material. This unique composition provides a range of advantages, making LiFePO4 batteries ideal for residential applications.

1.2 How Do LiFePO4 Batteries Work?

LiFePO4 batteries store electrical energy through the movement of lithium ions between the anode and the cathode. When discharging, lithium ions travel from the anode to the cathode, generating electrical energy. During charging, the process reverses, allowing the battery to store energy. The LiFePO4 chemistry enhances the overall efficiency and safety of this process.

Chapter 2: Key Features and Advantages

2.1 Enhanced Safety

Residential lifepo4 battery are celebrated for their remarkable safety features. Their stable chemical structure reduces the risk of thermal runaway, a common concern with other lithium-ion batteries. This safety factor is paramount for residential use, providing peace of mind for homeowners.

2.2 Longevity

With a significantly longer lifespan than traditional lithium-ion batteries, LiFePO4 batteries can last up to 2,000 to 3,000 charge cycles. This extended lifespan translates to reduced replacement costs and long-term savings for homeowners.

2.3 High Energy Density

Residential lifepo4 battery offer a high energy density, meaning they can store a substantial amount of energy in a compact package. This is essential for homeowners seeking to maximize energy storage in limited space.

2.4 Rapid Charging

LiFePO4 batteries charge quickly, often within 1-2 hours. This rapid charging capability ensures that homeowners have access to energy when they need it most, such as during power outages or peak energy demand periods.

2.5 Wide Operating Temperature Range

Residential lifepo4 battery are capable of operating in a broad temperature range, from -20°C to 60°C (-4°F to 140°F). This makes them suitable for various climatic conditions, ensuring consistent performance year-round.

2.6 High Discharge Current

These batteries can provide high discharge currents, making them ideal for applications that require a sudden surge of power, such as starting heavy appliances or EV charging.

2.7 Minimal Self-Discharge

LiFePO4 batteries exhibit minimal self-discharge rates, meaning they can store energy for extended periods without significant loss. This is particularly advantageous for backup power solutions.

Chapter 3: Residential Applications

3.1 Home Energy Storage

One of the primary applications of residential lifepo4 battery is home energy storage. Homeowners can use these batteries to store excess energy generated by solar panels or wind turbines for use during peak demand periods or power outages.

3.2 Solar Energy Systems

LiFePO4 batteries complement solar energy systems by storing surplus electricity during the day for use at night. This maximizes the efficiency of residential solar power installations and reduces reliance on the grid.

3.3 Backup Power

For homeowners concerned about power outages or those living in remote areas with unreliable access to the grid, LiFePO4 batteries offer a dependable backup power source. When the grid fails, these batteries can provide seamless energy supply.

3.4 Electric Vehicle Charging

LiFePO4 batteries can also be used for electric vehicle (EV) charging at home. By charging during off-peak hours and utilizing the stored energy, homeowners can reduce EV charging costs and alleviate grid congestion.

3.5 Off-Grid Living

Residential lifepo4 battery are an essential component of off-grid living. They enable homeowners to live independently of the grid by storing energy generated from renewable sources such as solar panels and wind turbines.

3.6 Energy Cost Reduction

By storing electricity when it’s cheapest and using it during peak demand hours, homeowners can significantly reduce their energy costs. LiFePO4 batteries empower homeowners to take control of their energy consumption and expenses.

Chapter 4: Technological Innovations

4.1 Battery Management Systems (BMS)

Battery Management Systems play a crucial role in maximizing the performance and lifespan of residential lifepo4 battery. These systems monitor the battery’s state of charge, temperature, and voltage to ensure safe and efficient operation.

4.2 Advanced Cooling Systems

Innovative cooling systems are integrated into LiFePO4 battery designs to maintain optimal operating temperatures. This technology enhances the overall efficiency and longevity of the batteries.

4.3 Smart Grid Integration

LiFePO4 batteries are increasingly equipped with smart grid integration capabilities. This allows homeowners to seamlessly interact with the grid, optimize energy consumption, and participate in demand response programs.

4.4 Lithium-Iron Phosphate Chemistry

The unique iron-phosphate chemistry of residential lifepo4 battery offers inherent stability, longevity, and safety. Innovations in this chemistry continue to improve performance and efficiency.

Chapter 5: Installation and Maintenance

5.1 Installation Considerations

Proper installation is crucial to ensuring the safety and performance of LiFePO4 batteries. Homeowners should work with certified professionals to install and integrate these batteries into their residential energy systems.

5.2 Maintenance Requirements

Residential lifepo4 battery have minimal maintenance requirements compared to other battery technologies. Routine checks of the battery management system and cooling system, along with keeping the battery clean, are typically sufficient to ensure their longevity.

Chapter 6: Environmental Impact

6.1 Sustainable Energy Storage

LiFePO4 batteries contribute to sustainable energy storage by enabling homeowners to harness renewable energy sources effectively. This reduces reliance on fossil fuels and decreases greenhouse gas emissions.

6.2 Recycling and Disposal

Residential lifepo4 battery are recyclable, and their components can be repurposed for future battery production. Responsible recycling and disposal practices are crucial to minimize the environmental impact of these batteries.

Chapter 7: Case Studies

7.1 Residential Energy Independence

Explore real-life case studies of homeowners who have achieved energy independence through the use of LiFePO4 batteries, reducing their carbon footprint and energy expenses.

7.2 Solar Energy Maximization

Learn how residential lifepo4 battery have helped homeowners maximize the benefits of their solar energy systems, making their homes more energy-efficient and eco-friendly.

Chapter 8: Future Trends and Prospects

8.1 Emerging Technologies

Discover the latest advancements in residential lifepo4 battery technology, including developments in solid-state batteries, improved energy density, and enhanced integration with smart home systems.

8.2 Market Growth

Analyze the growing market for residential LiFePO4 batteries and the factors contributing to their increasing popularity among homeowners and businesses.

Chapter 9: Conclusion

Residential lifepo4 battery represent a significant leap forward in energy storage solutions. With their safety, longevity, rapid charging, and versatile applications, they empower homeowners to take control of their energy consumption, reduce costs, and contribute to a more sustainable future. As technology continues to advance, LiFePO4 batteries are poised to play an even more crucial role in revolutionizing residential energy storage.

In summary, LiFePO4 batteries are not only a smart investment but also a powerful tool for homeowners looking to lead the way in sustainable living. As the world transitions towards a greener and more sustainable energy landscape, residential lifepo4 battery are set to be at the forefront of this transformation, making them an indispensable asset for the eco-conscious homeowner.

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