Safer
The system is equipped with a module-level battery controller and adopts matrix-based active safety management technology to ensure ultimate safety;Utilizes modular multiple high-frequency electrical isolation, with core-network decoupling, resistant to high penetration events;Low-potential battery system design eliminates the risk of high-voltage short circuits caused by electrolyte leakage.
Intelligent redundancy supports online bypass for single-module or single-converter module failures
More Refined
The DC side is not restricted by inverter conditions, reducing the number of series-connected cells by 50%, and decreasing series-connected energy loss by approximately 4%.The system is equipped with module-level battery controllers that feature active thermal balancing capabilities, increasing usable energy per cycle by over 7% and enhancing cycle life by over 25%
More efficient
The DC side is not restricted by inverter conditions, reducing the number of series-connected cells by 50%, and decreasing series-connected energy loss by approximately 4%.
The system is equipped with module-level battery controllers that feature active thermal balancing capabilities, increasing usable energy per cycle by over 7% and enhancing cycle life by over 25%.
Strong support
The system's power electronic transformer replaces traditional transformer and inverter solutions, using SiC + soft-switching, improving efficiency by 2% compared to traditional solutions;
No no-load loss from the power frequency transformer, resulting in a 1% efficiency improvement over traditional solutions
cYield-enhancing
Intelligent operation and maintenance, cloud-based monitoring, and unmanned operation reduce O&M costs;
The available energy over the entire lifecycle increases by 34%, charging and discharging cycle efficiency improves by 3%, the levelized cost of storage (LCOS) decreases by 32%, and the internal rate of return (IRR) on total investment increases by 45% (relative value)
Language