Module Products
Imax Power energy storage converters: PCS/Bidirectional DCDC/MPPT/STS/BMS/EMS.
System Products
Imax Power integrated energy storage system.
Solution Value
- Rapid Expansion Deployment: Energy storage assists power supply, eliminating the need for large-scale grid expansion.
- Reduced Connection Costs: Cut down on transformer and power distribution facility investments.
- Enhanced Charging Efficiency: High-power output meets the fast-charging needs of multiple vehicles simultaneously.
- Intelligent Energy Scheduling: Achieve dynamic management of peak-valley electricity prices and loads.
- Alleviated Grid Pressure: Peak shaving and valley filling stabilize regional power distribution system operation.
- Support for Integrated Photovoltaic-Storage: Combine with photovoltaic systems to build green, low-carbon stations.
- Improved Operational Revenue: Optimize energy utilization structure to enhance overall economic performance.
Technical Dimensions
Intelligent Scheduling and Optimization Layer (Energy Management and Scheduling)
- Intelligent Scheduling System: Intelligently dispatch charging piles based on real-time data and load forecasts to optimize the allocation of power load and charging resources.
- Load Management and Demand Response: Accurately forecast charging demands, dynamically adjust the usage strategies of charging piles, avoid excessive grid load, and improve overall operational efficiency.
- Cloud-end Management and Remote Monitoring: Achieve remote monitoring of charging stations, fault detection, and operational data analysis through cloud platforms to ensure efficient operation of charging stations.
Power System and Grid-connection Control Layer (Charging Station Power Scheduling and Safety)
- High-efficiency Power Conversion Technology: Use advanced power conversion technology to improve the energy transmission efficiency of charging stations and reduce energy losses during charging.
- Bidirectional Charging Technology: Support bidirectional energy flow between electric vehicles and the grid, enabling both charging and discharging, providing auxiliary services to the grid, and enhancing the flexibility and stability of charging stations.
- Power Factor and Voltage Regulation: Precisely adjust the power factor and voltage of charging piles to ensure electrical quality and grid safety during charging.
- Grid-connection and Off-grid Switching Control: Support the switching of charging stations between grid-connected and off-grid states to ensure emergency response capabilities during grid fluctuations or outages.
Safety and Protection Layer (System Protection and Risk Management)
- Battery Overcharge and Over-discharge Protection: Monitor batteries in real-time to prevent overcharging and over-discharging, ensuring the safe operation of charging station systems and battery service life.
- Short-circuit and Overload Protection: Quickly respond to abnormal conditions such as short-circuits and overloads at charging stations, automatically cut off power sources, and avoid electrical accidents.
- Over-temperature Protection and Heat Dissipation Technology: Monitor charging equipment for over-temperature conditions and adopt efficient heat dissipation designs to prevent overheating and improve system reliability and safety.
Basic Design and Architecture Layer (Charging Station Layout and Equipment Integration)
- Modular Charging Pile Design: Use modular designs to allow charging stations to flexibly expand according to demand, simplifying maintenance and upgrade processes.
- High-efficiency Power Distribution System: Optimize the power distribution system design of charging stations to improve energy distribution efficiency and reduce energy consumption.
- Standardized Interfaces and Compatibility: Adopt international standard interfaces and communication protocols to ensure compatibility of charging piles with different vehicle models, enhancing system interoperability and usability.
