Adopts a cluster-level control system architecture to enable intelligent charge/discharge management and rapid isolation of faulty battery clusters, addressing parallel mismatch issues caused by battery inconsistencies and enhancing the charge/discharge efficiency of the battery system.

Cluster-level Control: Utilizes a battery cluster + modular converter single-stage architecture for cluster-level control, resolving issues inherent in centralized parallel systems such as inter-cluster circulating currents and widespread fault impacts. Improves system efficiency by 1% and annual discharge capacity by 5%.

Triple Protection Mechanism: Short-circuit protection response time within 3ms, primary protection within 50ms, and secondary protection within 3s. The three protection levels coordinate to provide comprehensive fault protection for the battery system.

Intelligent Power Allocation: Ensures stable dispatch power output under constraints of State of Charge (SOC), maximum power, and dispatch power, achieving optimized power distribution across modules.

Excellent Thermal Uniformity: Employs bottom-mounted liquid cooling plates for heat dissipation, maintaining a temperature difference within the PACK below 3℃, with no risk of coolant leakage.