SAIL SOLAR’s 51.2V stackable lithium battery series offers a high-performance and modular energy storage solution for residential, commercial, and industrial applications. Built with advanced LiFePO₄ (Lithium Iron Phosphate) cells, these batteries ensure high safety, long life cycles, and excellent efficiency. Available in capacities of 100Ah, 200Ah, 300Ah, 400Ah, 500Ah, and 600Ah, the stackable design allows flexible capacity expansion and easy installation, making them ideal for both off-grid and hybrid solar energy systems.
The 51.2V 314Ah lithium battery module is engineered for high voltage energy storage systems, delivering exceptional single module capacity and enhanced overall system efficiency.The 314Ah high capacity design minimizes the number of parallel strings, which boosts system reliability, performance consistency, and BMS control precision.
Built with LiFePO₄ cell technology, the module ensures superior safety, ultra-long cycle life, and stable thermal performance. Featuring a stackable structure, it supports series connection for flexible voltage scaling and seamless integration with hybrid inverters and PCS. This makes it the ideal solution for commercial, industrial, and microgrid applications.
The 51.2V 314Ah lithium battery module is designed for high-voltage energy storage systems, offering large capacity per module and high system efficiency. The 314Ah design reduces the number of parallel strings, improving system reliability, consistency, and BMS control accuracy.
With LiFePO₄ cell technology, the module provides high safety, long cycle life, and stable thermal performance. Its stackable structure supports series connection for voltage expansion and seamless integration with hybrid inverters and PCS, making it ideal for commercial, industrial, and microgrid applications.
The 51.2V 200Ah lithium battery module is designed for high-voltage energy storage systems, using advanced LiFePO₄ cell technology to deliver high safety, long cycle life, and stable performance.
The modular stackable design allows multiple battery modules to be connected in series to form a high-voltage battery system, significantly reducing system current, cable losses, and overall installation cost. Each module is equipped with intelligent BMS monitoring, supporting real-time voltage, temperature, and protection management.
The battery module is compatible with hybrid inverters and PCS, making it suitable for residential, commercial, and industrial energy storage applications, including solar self-consumption, backup power, and microgrid systems.
The 51.2V 100Ah High Voltage Stackable Lithium Battery Module is a safe, reliable, and scalable energy storage solution designed for residential, commercial, and industrial ESS applications. Built with LiFePO₄ (LFP) cells, the module offers long cycle life, high energy density, and excellent thermal stability. The stackable modular design allows flexible capacity expansion to meet different system requirements, making it ideal for hybrid and off-grid solar energy storage systems.
SAIL SOLAR’s 51.2V stackable lithium battery series offers a high-performance and modular energy storage solution for residential, commercial, and industrial applications. Built with advanced LiFePO₄ (Lithium Iron Phosphate) cells, these batteries ensure high safety, long life cycles, and excellent efficiency. Available in capacities of 100Ah, 200Ah, 300Ah, 400Ah, 500Ah, and 600Ah, the stackable design allows flexible capacity expansion and easy installation, making them ideal for both off-grid and hybrid solar energy systems.
The 51.2V 314Ah lithium battery module is engineered for high voltage energy storage systems, delivering exceptional single module capacity and enhanced overall system efficiency.The 314Ah high capacity design minimizes the number of parallel strings, which boosts system reliability, performance consistency, and BMS control precision.
Built with LiFePO₄ cell technology, the module ensures superior safety, ultra-long cycle life, and stable thermal performance. Featuring a stackable structure, it supports series connection for flexible voltage scaling and seamless integration with hybrid inverters and PCS. This makes it the ideal solution for commercial, industrial, and microgrid applications.
The 51.2V 314Ah lithium battery module is designed for high-voltage energy storage systems, offering large capacity per module and high system efficiency. The 314Ah design reduces the number of parallel strings, improving system reliability, consistency, and BMS control accuracy.
With LiFePO₄ cell technology, the module provides high safety, long cycle life, and stable thermal performance. Its stackable structure supports series connection for voltage expansion and seamless integration with hybrid inverters and PCS, making it ideal for commercial, industrial, and microgrid applications.
The 51.2V 200Ah lithium battery module is designed for high-voltage energy storage systems, using advanced LiFePO₄ cell technology to deliver high safety, long cycle life, and stable performance.
The modular stackable design allows multiple battery modules to be connected in series to form a high-voltage battery system, significantly reducing system current, cable losses, and overall installation cost. Each module is equipped with intelligent BMS monitoring, supporting real-time voltage, temperature, and protection management.
The battery module is compatible with hybrid inverters and PCS, making it suitable for residential, commercial, and industrial energy storage applications, including solar self-consumption, backup power, and microgrid systems.
The 51.2V 100Ah High Voltage Stackable Lithium Battery Module is a safe, reliable, and scalable energy storage solution designed for residential, commercial, and industrial ESS applications. Built with LiFePO₄ (LFP) cells, the module offers long cycle life, high energy density, and excellent thermal stability. The stackable modular design allows flexible capacity expansion to meet different system requirements, making it ideal for hybrid and off-grid solar energy storage systems.
