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Scalable Power for Commercial and Industrial Demands
Engineered for performance and scalability, our modular LiFePO4 ESS batteries are the ideal choice for demanding commercial and industrial applications. Each rack-mounted module is a building block, allowing you to easily expand your energy capacity as your needs grow. Achieve significant savings through peak shaving, ensure critical backup power, and stabilize your microgrid with a robust and intelligent energy storage solution.
Key Features:
Modular & Scalable Design:
Start with a single rack and expand capacity by adding modules, future-proofing your investment.
High Power Output:
Supports high discharge rates for C&I equipment and peak shaving demands.
Advanced Centralized BMS:
Monitors and manages the entire battery bank for maximum efficiency, safety, and cycle life.
Industrial-Grade Construction:
Built with premium prismatic LiFePO4 cells for durability and long-term performance in harsh environments.
Smart Communication Protocols:
Supports CAN, RS485, and Ethernet for seamless integration with energy management systems.
Major Technical Parameters:
Market Applications:
● Commercial & Industrial Peak Shaving and Load Management
● Uninterruptible Power Supply (UPS) for Data Centers and Factories
● Large-Scale Microgrids and Renewable Energy Integration
● Telecom Base Stations and Backup Power
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Our 51.2V systems reduce current draw by ~75% compared to 12V/24V systems at equivalent power output, minimizing energy loss and heat generation. This enables longer cable runs, smaller wire gauges, and higher efficiency (≥96%) for large-scale applications. The higher voltage also simplifies integration with hybrid inverters and reduces balance-of-system costs.
Yes. The 51.2V nominal voltage aligns with standard high-voltage inverters (e.g., Sungrow, Sol-Ark, Deye) and MPPT charge controllers. Communication protocols (CAN/RS485) ensure seamless BMS-to-inverter data exchange for optimal charging, discharging, and grid interaction.
Absolutely. Our modular design supports parallel stacking of up to 256 units, achieving capacities beyond 1MWh. Centralized BMS coordination ensures voltage synchronization and load balancing across the entire array, making them ideal for microgrids, peak shaving, and frequency regulation.
