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.
اسم العلامة التجارية :
SAIL SOLARنوع :
LiFePo4الفولطية المقدرة :
51.2Vسعة البطارية :
10.24KWHعدد الدورات :
>8000 Cycles @0.2C 80%DoDكفاءة الشحن :
100% @0.2Cكفاءة التفريغ :
96~99% @1Cانتقال :
RS485/RS232/CANاللون وتصنيع المعدات الأصلية :
White or customizedالضمان :
10 Years
The 51.2V 200Ah high-voltage lithium battery module enables series voltage stacking, which significantly reduces system current, cable size, and conduction losses compared with low-voltage battery solutions.
The high-capacity 200Ah design minimizes the number of parallel strings, improving system reliability, consistency, and BMS management accuracy. With LiFePO₄ cell technology, the module delivers high safety, long cycle life, and stable thermal performance.
Its modular and stackable architecture supports flexible capacity expansion and seamless integration with hybrid inverters and PCS, making it ideal for commercial, industrial, and microgrid energy storage systems.
1. Battery Modules
Each module is a lithium battery unit designed for series connection. The stackable structure allows multiple modules to be combined to form a high-voltage battery system.
2. DC Power Cable
The DC power cables connect the battery modules in series, enabling voltage stacking and delivering high-voltage DC output to the system. This design reduces current and cable losses.
3. Communication Cable
The communication cable links all battery modules to the master BMS, allowing real-time data exchange such as voltage, temperature, and operating status.
4. Cooling Fan and Power Supply Cable
Each module is equipped with an active cooling fan. The fan power supply cable ensures stable operation of the cooling system and effective thermal management.
5. Master BMS (Top Unit)
Installed at the top of the stack, the master BMS collects data from all modules, manages charge and discharge limits, and provides system-level protection and control.
High-Voltage Battery System Connected to Inverter
The diagram shows two stacks of 51.2V 200Ah lithium battery modules connected in series to form a high-voltage battery system. Each stack integrates multiple battery modules and a top-mounted master BMS for centralized monitoring and protection.
The battery stacks are connected to the inverter through:
-DC power cables (P+ / P−), delivering high-voltage DC energy for charging and discharging
-RS485 / CAN communication cables, enabling real-time data exchange between the battery BMS and the inverter
This configuration allows the inverter to accurately control charge and discharge based on battery status, ensuring safe operation, high efficiency, and reliable integration with hybrid inverters or PCS.
The diagram illustrates an integrated solar PV and high-voltage lithium energy storage system for residential or commercial applications.
Solar panels generate DC power, which is managed by the inverter to supply electrical loads and charge the battery storage system. The high-voltage lithium battery stores excess solar energy and discharges when solar generation is insufficient or during peak demand periods.
The system is connected to the utility grid, allowing grid import or export of energy to ensure stable, continuous, and efficient power supply.
Certification
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