Intelligent Dynamic Optimization: Utilizing the independently developed "Vehicle Thermal Control" intelligent algorithm, dynamically adjusting thermal management strategies based on real-time climate conditions and driving conditions, accurately matching driving and riding needs, and achieving optimal energy consumption.

Efficient Heat Pump Technology: Adopting a high-pressure reversible heat pump architecture and standard power transmission system waste heat recovery function, combined with energy-saving technology, the system performance is significantly improved, ensuring efficient energy conversion under all operating conditions, improving energy efficiency, and significantly increasing driving range.

Precise Temperature Control: The battery temperature fluctuation is controlled within ±2℃, which increases the battery cycle life by more than 15% and ensures the stable operation of high-energy density batteries.

Multi Scenario Compatibility: It has the characteristics of excellent sealing and long service life. Through standardized module combination, it can flexibly adapt to different climate conditions and vehicle needs without platform reconstruction, greatly shortening the development cycle.

High Integration: The compact assembly design increases the integration rate of components by 30% and saves 25% of the vehicle installation space; Implementing functional integration, including cooling and heating of batteries and cockpit, cooling of power electronic devices and traction motors, can significantly increase efficiency. It reduces the production cost of a single system by 8%-10%.  

Intelligent Waste Heat Utilization: Recovering waste heat from motors and electronic control systems, reducing cabin heating energy consumption by 40%, significantly improving winter endurance performance.

Accurate Battery Thermal Management: Supports multi-mode switching between active cooling/passive cooling/intelligent heating, ensuring that the battery is always in the optimal working range.