Suntherra Battery
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Our energy storage battery systems deliver cutting-edge power solutions designed for residential, commercial, and industrial applications.
These high-performance battery systems serve as dependable emergency backup power sources, ensuring uninterrupted operation during grid outages while optimizing energy consumption for maximum cost savings.
Serve as an emergency backup power source to ensure continuous operation.
Modular design, expansion, and customization. Convenient installation.
Optimize energy usage and reduce costs.
Reduce operation and maintenance costs, promote green energy consumption.
Grid-connected/off-grid switching, multiple protection.
| Technical Specifications | |
|---|---|
| Product Name | Commercial Energy Storage Battery |
| Keywords | Energy Storage Battery |
| Nominal Voltage | 230V/400V |
| Nominal Capacity | 80KW-125KW |
| Cycle Life | 8000 cycles+ |
| Protection Class | IP55 |
| Cooling Method | Liquid Cooling |
| Rated Output Voltage | 400V, 3L/N/E |
| Operating Voltage Range | 650V~959V |
| Cell Type | 3.2V/314Ah LFP |
| System Efficiency | >90% |
| Communication Method | 4G/LAN |
| Operating Temperature | -25°C~55°C |
Function: Achieve the conversion between chemical energy and electrical energy, serving as the basic unit for storing electrical energy.
Advantages: High-quality cells with long cycle life can reduce long-term usage costs.
Function: Combines multiple battery cells in series and parallel to achieve stable voltage and capacity, integrates cooling and protection mechanisms.
Advantages: Modular design facilitates installation and expansion; the protective mechanism enhances safety.
Integrates PCS charging, photovoltaic generation, off-grid switching, and EMS management.
Real-time monitoring and optimal scheduling to enhance energy utilization efficiency.
Monitoring voltage, temperature, and SOC/SOH to ensure cell safety and longevity.
Buying low-cost electricity during off-peak hours and discharging it during peak periods to reduce corporate energy costs and maximize profit margins.
Minimizing short-term peak loads to lower demand charges and enhance revenue while balancing grid consumption patterns.
Voluntarily reducing consumption during shortages to support grid stability and earn economic incentives.
