125KW Energy Storage PCS Module
Boco Electronics' 125KW?Energy Storage PCS Module, engineered on a next-generation SiC technology platform, supports a 600V-1000V DC voltage range, delivering 125KW?rated output with a sustained 1.1x overload capacity. With 99% peak efficiency, it maximizes power conversion while minimizing energy dissipation. Fully compatible with high-capacity battery systems (280Ah, 314Ah, 320Ah), it integrates advanced cluster-level management to enhance reliability and efficiency. Designed for scalable deployment, its built-in parallel operation capability enables seamless system expansion. Its robust architecture makes it ideal for industrial-scale energy storage, UPS, dynamic power distribution reinforcement, and hybrid microgrid integration.
High Conversion Efficiency Employs advanced Silicon Carbide (SiC) technology to substantially improve power conversion efficiency, ensuring optimal system performance, minimizing heat loss, and enhancing overall reliability.
Flexible Parallel Configuration The modular design enables seamless system expansion, supporting parallel configurations to achieve scalable power growth.
Low Construction Costs Capable of operating with 100% unbalanced loads in a three-phase, four-wire system without requiring additional transformer equipment. Equipped with AC/DC disconnect capabilities and integrated contactors and fuses, this design simplifies system architecture while reducing both construction and maintenance costs.
Multi-Protocol Compatibility Integrated with an Energy Management System (EMS), the device supports multiple communication protocols, including MODBUS, CAN, and ETHERNET, allowing for flexible customization and a range of management functions to facilitate intelligent system operation and scheduling.
Wireless Connectivity Supports wireless connectivity and remote monitoring, facilitating routine operations and fault diagnostics. This significantly improves operational efficiency and enhances the user experience.
Multi-Scenario Adaptability Supports both battery grid-connected charge and discharge modes, as well as self-constructed DC bus voltage modes, making it ideal for applications including commercial and industrial energy storage, dynamic capacity expansion in power distribution, and DC microgrids.
