Minimalist module design and lightweight battery cluster reduce weight by 5%.

Standardized module design enhances battery cluster consistency, multi-level liquid cooling balance design, effectively controls battery temperature difference, and improves battery system efficiency.

Long-cycle LFP battery cell technology supports over 7,000 cycles, even over 10,000 cycles in special circumstances, ensuring system life to exceed 20 years.

Adjustable liquid cooling design secures flow balance, make sure the system temperature difference is controlled within 3 ℃ so as to extend system life.

Real-time collection of multiple data, periodic balancing of consistent states and high consistency throughout the entire life cycle help increase cycle life of the battery system.

Thermal runaway suppression design reduces the particle size of the thermal runaway risks to the battery module level, thus effectively improving safety; Double-layer collection and control design effectively avoid the risk of single failure under extreme conditions, and improve the safety management of the entire life cycle.

The independent overcharge protection for battery unit minimizes the safety risk triggered by external abnormal charging and discharging.

PACK-level distributed independent thermal runaway emission channel minimizes the safety impact on system environment and other components.

Pre-charge balance effectively controls the impact by charging and discharging current while securing the safety and reliability of battery system.

The long-term UPS emergency power supply system ensures the normal power supply of important components under abnormal conditions, reducing component damage and system safety risks caused by abnormal power outages.

Universal steel structure body + aluminum alloy cover adopt lightweight and high-strength design, with battery module protection ≥ IP67, suitable for high salt spray corrosion environment.

The integrated liquid cooling system design can effectively control battery temperature and humidity, so as to ensure normal operation in different temperature and humidity environments.

Minimalist module design and lightweight battery cluster reduce weight by 5%.

Standardized module design enhances battery cluster consistency, multi-level liquid cooling balance design, effectively controls battery temperature difference, and improves battery system efficiency.

Long-cycle LFP battery cell technology supports over 7,000 cycles, even over 10,000 cycles in special circumstances, ensuring system life to exceed 20 years.

Adjustable liquid cooling design secures flow balance, make sure the system temperature difference is controlled within 3 ℃ so as to extend system life.

Real-time collection of multiple data, periodic balancing of consistent states and high consistency throughout the entire life cycle help increase cycle life of the battery system.

Thermal runaway suppression design reduces the particle size of the thermal runaway risks to the battery module level, thus effectively improving safety; Double-layer collection and control design effectively avoid the risk of single failure under extreme conditions, and improve the safety management of the entire life cycle.

The independent overcharge protection for battery unit minimizes the safety risk triggered by external abnormal charging and discharging.

PACK-level distributed independent thermal runaway emission channel minimizes the safety impact on system environment and other components.

Pre-charge balance effectively controls the impact by charging and discharging current while securing the safety and reliability of battery system.

The long-term UPS emergency power supply system ensures the normal power supply of important components under abnormal conditions, reducing component damage and system safety risks caused by abnormal power outages.

Universal steel structure body + aluminum alloy cover adopt lightweight and high-strength design, with battery module protection ≥ IP67, suitable for high salt spray corrosion environment.

The integrated liquid cooling system design can effectively control battery temperature and humidity, so as to ensure normal operation in different temperature and humidity environments.