Solution Value
- Support High-Power Parallel Grid Operation: Meet high-voltage side access requirements and accommodate large-scale industrial and commercial loads. This ensures the system can handle substantial power demands typical in industrial settings.
- Enhance Power Quality Stability: Effectively suppress voltage fluctuations and harmonics to guarantee power supply quality. Stable power is crucial for the smooth operation of sensitive industrial equipment.
- Achieve Peak-Shaving and Valley-Filling Price Advantages: Significantly reduce enterprise electricity costs through peak-shaving and valley-filling strategies. This helps businesses optimize their energy expenses.
- Improve Energy Utilization Efficiency: Support the integration of photovoltaic storage, promoting complementary and efficient operation of multiple energy sources. This maximizes the use of renewable energy and reduces waste.
- Strengthen Intelligent Energy Management: EMS accurately regulates power flow to achieve optimal economic operation. Smart management ensures efficient energy use and cost savings.
- Enhance System Safety Protection: Configure multi-level protection mechanisms to prevent overloading and grid-impact risks. Safety is paramount to protect both equipment and personnel.
- Assist Green and Low-Carbon Transformation: Support the integration of renewable energy sources and promote energy conservation and emission reduction in industry and commerce. This contributes to a sustainable future.
Key Core Products & Technical Systems
Module Products
Imax energy storage converters PCS/bidirectional DCDC/MPPT/STS/BMS/EMS (Note: Here, it should be “Imax Power” related product naming as per actual trademark, but as “Imax Power” is the brand, the module products are under this brand. If the specific naming with “Power” is not part of the product name, it can be adjusted accordingly. For simplicity, we keep it as above, but in real use, it should match the actual product naming.)
System Products
Imax Power integrated energy storage system
Dimensional Classification
1. Control Layer (System Scheduling and Coordination Optimization)
- Multi-Level Energy Management EMS: Implement hierarchical distributed control to achieve global optimization of energy storage, photovoltaic, and loads.
- Master-Slave Coordinated Control: The master control coordinates multiple PCS and voltage transformation units to ensure stable system operation.
- AI Prediction and Optimal Scheduling: Predict loads and electricity prices through algorithms to optimize energy flow and revenue in advance.
- Power Quality Optimization Control: Adjust active/reactive power in real-time to enhance grid power factor and stability.
2. Power Conversion Layer (Energy Flow Control and High-Voltage Grid Connection)
- High-Voltage Grid Connection Control: Precise voltage control and synchronous protection ensure safe high-voltage grid connection.
- Flexible Interconnection and Conversion Technology: Support multi-energy interconnection (photovoltaic, energy storage) to improve system compatibility and stability.
- High-Voltage Step-Up Integration: Integrated design of conversion and step-up improves efficiency and reduces system footprint.
- Multi-Circuit DC Bus Design: Hierarchical voltage structure reduces energy transmission losses and short-circuit risks.
3. System and Safety Layer (Structural Design and Protection System)
- High-Voltage Isolation and Insulation Protection: Meet insulation requirements above 10kV to protect personnel and equipment.
- Multi-Level BMS System: Realize precise protection and data tracking at module, stack, and system levels.
- Full-Circuit Safety Protection System: Integrate electrical protection, fire detection, pressure relief, and monitoring systems.
- Redundancy Backup and Fault Self-Recovery: Key components have redundancy, enabling automatic switching and system self-recovery.
4. Intelligent Operation and Maintenance Layer (Digital Monitoring and Remote Management)
- Digital Twin Monitoring Platform: Virtual-real fusion model simulates system operation status and risk warnings in real-time.
- Cloud-Edge Collaborative Operation System: Combine cloud analysis with edge response to achieve global monitoring and local control.
- Full Lifecycle Health Management: Use data tracking and algorithm analysis for equipment life prediction and operation optimization.
- Modular Integrated Design: Highly integrated cabinet solutions support rapid deployment and flexible expansion.
