By integrating power electronics, electrochemistry, and advanced grid support technologies, our energy storage system delivers unmatched safety, performance, and efficiency, all while supporting advanced grid-forming (GFM) capabilities.
Integrating the batteries and PCS into one container improves overall energy density while significantly reducing the footprint.
Integrated, standardized DC cables reduce the risk of arc faults. Along with near instant shutdowns and ArcDefender’s 100% precision for absolute safety.
By eliminating circulating current and barrel effects, the system increases discharge capacity by 8%; by ensuring failure isolation, it reduces failure loss by 92.8%.
Real-time monitoring with 6D sensing technology delivers early warnings up to 24 hours in advance, preventing thermal runaway before it starts.
Active FFS temperature and smoke detection provides early fire risk alerts, while gas-liquid hybrid suppression neutralizes hazards before they spread.
With over 500 tests covering everything from cell to system, both safety and quality are ensured. The world's most comprehensive combustion test sets a new industry benchmark.
With liquid cooling for both batteries and PCS, temperature difference is maintained within 2.5°C, reducing thermal stress. Smart mode switching also allows the system to adapt to actual operating conditions, minimizing energy usage and boosting RTE.
All devices and DC cables are pre-installed and factory-commissioned, minimizing on-site work. The turnkey design allows for fast grid connection upon arrival, further reducing setup time.
Full-stack in-house R&D of core equipment ensures fast, one-stop delivery and clear after-sales accountability. This minimizes O&M disputes and maximizes long-term efficiency.
Grid-specific solutions and technologies enable rapid frequency and voltage response and more robust black-start readiness, helping renewable energy plants maximize their performance.
With enhanced compatibility and flexible installation options, the AC Block design reduces area footprint while improving overall system safety and discharge performance.
A unified PV and storage architecture with single-stage conversion reduces equipment costs and increases overall efficiency.