UX Power
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| 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 |
| Transport Package | Standard Packaging or Customized |
| Package Size | 110.00cm * 150.00cm * 240.00cm |
| Package Gross Weight | 2300.000kg |
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.
Safe and reliable: Emergency backup power source for continuous operation.
Flexible configuration: Modular design, expansion, and customization.
High efficiency: Optimize energy usage and reduce costs.
Intelligent O&M: Reduce maintenance costs and promote green energy.
Grid-friendly: Grid-connected/off-grid switching with multiple protection.
| TECHNICAL SPECIFICATIONS | |
| Product Name | Commercial 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 |
| Cell Type | 3.2V/314Ah LFP |
| System Efficiency | >90% |
| Operating Temperature | -25°C~55°C |
Achieve conversion between chemical and electrical energy. High-quality cells with long cycle life reduce long-term usage costs.
Combines multiple cells for stable voltage. Modular design facilitates installation and enhances system safety.
Integrates PCS, PV generation, diesel switching, and EMS. Features 200% DC oversizing and AI-driven management.
Real-time monitoring and optimal charging/discharging strategies to enhance energy utilization efficiency.
Precise control of cell voltage, temperature, and SOC/SOH. Core guarantee for operational safety and lifespan.
Buying low-cost electricity during off-peak hours and discharging it during peak periods to capitalize on price differentials 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 power shortages to support grid stability and earn economic incentives.
