Module Products

Imax Power energy storage converters: PCS/Bidirectional DCDC/MPPT/STS/BMS/EMS.

System Products

Imax Power integrated energy storage system.

Solution Value

• Peak Shaving and Valley Filling: Balance load fluctuations in the distribution network area to enhance grid operation efficiency.
• Improved Power Supply Reliability: Swiftly switch power supply during outages to ensure uninterrupted power for users.
• Alleviated Grid Expansion Pressure: Distributed energy storage replaces traditional grid expansion investments.
• Intelligent Fine-grained Control: Combine with the EMS system to achieve intelligent energy management at the distribution network area level.
• Reduced Electricity Costs: Optimize charging and discharging to improve economy and profitability.
• Promoted Distributed New Energy Consumption: Increase the local consumption rate of photovoltaic power and reduce curtailment.
• Facilitated Grid Digitalization Upgrade: Support power information collection and intelligent monitoring in the distribution network area.

Technical Dimensions

Intelligent Scheduling and Optimization Layer (Energy Management and Control)

• Intelligent Scheduling System: Dynamically optimize energy exchange between energy storage and the grid based on load forecasting and real-time data to enhance system operation efficiency.
• Demand Response Management: Intelligently regulate the charging and discharging of the energy storage system according to the load demand in the distribution network area, balancing supply and demand and reducing grid burden.
• Cloud-end Monitoring and Data Analysis: Optimize system operation status and  warn of equipment failures and safety risks through real-time monitoring and data analysis on the cloud platform.

Energy Storage System and Grid Connection Control Layer (Energy Storage and Grid Coordination)

• High-efficiency Battery Energy Storage System: Adopt high-energy-density battery technology to improve the charging/discharging efficiency and energy conversion capability of the energy storage system.
• Bidirectional Inverter Technology: Support bidirectional energy flow to ensure efficient interaction between the energy storage system and the grid, enabling power and voltage regulation.
• Grid Connection and Off-grid Control: Realize grid connection and off-grid control of the distribution network area energy storage system to ensure grid stability and support energy self-sufficiency in island mode.
• Active and Reactive Power Regulation: Regulate the active and reactive power output of the distribution network area energy storage system to ensure grid frequency and voltage stability and enhance system reliability.

Safety and Protection Layer (System Stability and Protection Measures)

• Battery Management System (BMS): Monitor battery voltage, temperature, and status in real-time to avoid overcharge and over-discharge, extending battery life.
• Overload and Short-circuit Protection: Quickly respond to overload and short-circuit events, automatically cut off circuits, avoiding equipment damage and reducing safety hazards.
• Fire Protection and Heat Dissipation Design: Optimize the heat dissipation and fire protection design of battery packs to ensure safe operation of the system in high-temperature and other extreme environments.

Basic Design and Architecture Layer (System Integration and Optimized Layout)

• Modular Energy Storage Unit Design: Support modular system design for flexible expansion and maintenance, enhancing system flexibility and operability.
• Efficient Power Conversion and Distribution: Optimize power distribution units to improve energy conversion efficiency, reduce transmission losses, and ensure stable power output.
• Standardized Interfaces and Compatibility: Adopt standardized interfaces and communication protocols to ensure compatibility and integration of different brand devices and enhance system interoperability.