Features

Simple Setup

Security and Dependability

Effortless Handling and Upkeep

Stackable without Cables
Application Scenario
- Residential Energy Storage:
The simplified installation process and scalable design are beneficial for homeowners seeking to optimize energy usage, store excess energy from solar panels, and ensure backup power during outages. - Commercial and Industrial Efficiency:
Businesses can efficiently manage energy consumption, reduce peak demand charges, and enhance overall energy efficiency with the Ground HV system’s stackable and modular approach. - Microgrids and Community Energy:
The cable-free stackable design facilitates easy integration into microgrids, enabling localized energy distribution and fostering community-level energy sharing. - Smart Grid Integration:
The system’s compatibility with 3-phase on-grid hybrid inverters and CAN BUS communication enables seamless integration with smart grids, demand response programs, and grid stability initiatives. - Industrial Power Quality:
The stackable units can help regulate voltage and manage power quality in industrial settings, enhancing grid stability and ensuring uninterrupted operations. - Renewable Energy Optimization:
The Ground HV system can store surplus energy from renewable sources like solar and wind, allowing users to maximize the utilization of clean energy. - Commercial Facilities:
For establishments with varying energy needs, the modular approach enables tailored energy solutions, such as demand charge management and load shifting. - Remote and Off-Grid Locations:
In remote or off-grid areas, the stackable units can provide reliable energy storage and distribution, enhancing power availability. - Backup Power for Critical Infrastructure:
The system’s ability to provide backup power during grid outages makes it suitable for critical facilities like hospitals, data centers, and communication hubs. - Energy Research and Testing:
Research institutions can use the Ground HV system to study energy storage, grid interaction, and the optimization of energy systems.
In essence, the Ground HV system’s simplicity of installation, modular design, and versatile compatibility make it an adaptable solution for numerous energy management scenarios. Its applications span from residential settings to industrial complexes, microgrids, and beyond, offering efficient and reliable energy storage and distribution capabilities.
Product Advantage
- Simplified Installation:
The innovative cable-free design allows for easy stacking of units without the need for interconnecting cables. This streamlined installation process enhances user convenience and reduces complexity. - Modular Scalability:
The stackable unit design enables seamless expansion of energy storage capacity. Users can tailor the system to their needs, ranging from 7.5 kWh to 20 kWh, by combining multiple battery units. - High Voltage Capability:
With each battery unit operating at 48V, the Ground HV system achieves a significant overall voltage range of 177V to 432V(It will according the cpacity range of 10kWh to 20kWh). This high voltage enhances energy storage capacity and performance. - 3-Phase On-Grid Compatibility:
Designed to integrate harmoniously with most 3-phase on-grid hybrid inverters, the Ground HV system facilitates efficient energy management and optimization in various grid-connected applications. - Lithium Iron Phosphate (LiFePO4) Technology:
Utilizing advanced LiFePO4 cells, the system ensures superior safety, longevity, and performance, contributing to a reliable and enduring energy storage solution. - Battery Management System (BMS):
The integrated BMS optimizes battery performance, safeguards against issues, and extends the operational lifespan of the battery units, enhancing system reliability.
- CAN BUS Communication:
Seamless communication with the inverter via CAN BUS enables real-time monitoring, intelligent energy management, fault detection, and remote control, enhancing overall system functionality and responsiveness. - Diverse Applications:
From residential energy optimization to commercial efficiency enhancement, microgrid integration, and beyond, the Ground HV system’s adaptability caters to a wide array of energy management scenarios. - Energy Independence:
The system empowers users to harness and manage their energy, reducing dependence on external energy sources and contributing to sustainability efforts. - Backup Power Assurance:
During grid outages, the system provides reliable backup power, ensuring uninterrupted operations for critical applications. - Enhanced Grid Interaction:
The system’s compatibility with smart grids and demand response programs supports grid stability initiatives and contributes to a more resilient energy infrastructure.
In summary, the Ground HV system’s innovative design, modular scalability, high voltage capability, and advanced communication features establish it as a leading-edge energy storage solution. These advantages collectively position it as an efficient, responsive, and versatile asset for optimizing energy management across diverse sectors.
Product Specification
Capacity Energy |
2.5kWh |
---|---|
Typical Voltage |
48V |
Ah Capacity |
52Ah |
Maximum Current |
50A |
Battery Type |
Prismatic LiFePO4 |
Connection Method |
Series connected for high voltage battery solution Connector |
Connector |
No cable seat type socket & plug |
Weight |
28KG per module |
System Voltage |
192V 288V 384V |
Working Voltage Range |
177V-216V 265V-324V 354V-432V |
Rated Capacity |
9.9kWh 14.9kWh 19.9kWh |
Suggested SOC Range |
10%~100% |
Usable Energy |
9.4kWh 14.1kWh 18.9kWh |
Peak Charge/Discharge Current |
50A |
Charge Temperature |
0℃~45℃ |
Discharge Temperature |
-10℃~45℃ |
Cycle Life |
6000 cydles @0.5C/0SC, 25℃ |
Communication |
CAN |
Compatible Inverters |
Growatt, Sofarsolar, Sunways, Sungrow, GoodWe, Luxpower, Afore, INVT, Hypontech, etc |
Design Life |
10 years |
Dimensions |
120cm × 57cm x 22cm 150cm x 57cmx22cm 180cm x 57cmx 22cm |
Weight |
150KG 210KG 270KG |
Display |
SOC and Operation Indicators |
Install Method |
Ground stacked for one engineer |