Imax Power Small-Scale Microgrid Energy Storage Solution
Solution Value
- Enhanced Energy Self-Sufficiency: Achieve local power generation and utilization, reducing dependence on external power grids.
- Reduced Electricity Operation Costs: Effectively lower electricity expenses through peak shaving, valley filling, and load optimization.
- Ensured Continuous Power Supply Reliability: Swiftly switch to off-grid mode during power outages, ensuring critical loads operate without interruption.
- Promotion of Green Energy Utilization: Support the integration of photovoltaic and wind power to build a low-carbon, clean micro-energy network.
- Realization of Intelligent Energy Management: EMS enables real-time scheduling and monitoring, improving overall energy efficiency.
- Improved System Flexibility and Scalability: Modular configuration design makes it easy to expand capacity and upgrade functions.
- Strengthened Safety Protection Capabilities: Multiple safety monitoring systems ensure the safety of equipment and personnel operation.
Key Core Products & Technical Systems
Modular Products
Imax Power energy storage converters PCS/bidirectional DCDC/MPPT/STS/BMS/EMS
System Products
Imax Power integrated energy storage system
Technical Dimensions and Key Technologies
Control Layer: Energy Scheduling and Coordinated Optimization
- Multi-Energy Coordinated Control: Flexibly coordinate photovoltaic, energy storage, and loads for dynamic energy optimization.
- Adaptive EMS Scheduling: Intelligently recognize load changes and allocate optimal energy in real-time.
- AI Predictive Optimization: Predict photovoltaic output and load changes algorithmically for proactive scheduling.
- High-Efficiency Energy Coupling: Precisely match optical loads to maximize system utilization.
Power Conversion Layer: Energy Flow Control and Grid Integration Technology
- Bidirectional Conversion Technology: Enable bidirectional energy flow and precise control during the charging and discharging of the energy storage system.
- Direct AC Hybrid Coupling: Improve conversion efficiency and support the integration of multiple energy forms.
- Seamless Grid Switching: Achieve millisecond-level grid switching to ensure continuous power supply to loads.
System and Safety Layer: Structural Optimization and Reliability Protection
- Modular Integrated Design: Integrate energy storage, conversion, and EMS for flexible deployment.
- Multi-Level BMS Monitoring: Implement three-level monitoring of battery cells, modules, and systems to ensure safe operation.
- Intelligent Thermal Management: Balance temperature control and heat dissipation to prevent overheating and extend service life.
- Safety Redundancy Design: Ensure stable power supply through fault self-healing and system redundancy.
Intelligent Operation and Maintenance Layer: Digitalization and Expansion Management
- SOH/SOC Precision Estimation: Intelligently assess battery health and remaining capacity for refined operation and maintenance.
- Cloud-Based Remote Monitoring: Visualize system operation status, supporting remote maintenance and data tracking.
- Edge Computing Collaboration: Enable rapid local decision-making to reduce delays and data pressure.
- Flexible Capacity Expansion Architecture: Modular expansion design adapts to multiple scenarios and large-scale applications.
⚡ Enhance Energy Self-Sufficiency:
Enable on-site power generation and consumption to reduce dependence on external grids.
💰 Lower Power Operation Cost:
Optimize load through peak shaving and valley filling, effectively reducing electricity expenses.
🔋 Ensure Continuous Power Supply:
Provide seamless switching and stable load connection during grid outages.
🌿 Promote Green Energy Integration:
Support PV and wind access, enabling a low-carbon and sustainable energy system.
🧠 Achieve Intelligent Energy Management:
Use EMS real-time monitoring and scheduling to enhance system efficiency.
🔧 Increase System Flexibility:
Adopt modular design and configuration to support capacity expansion and multi-function deployment.
🛡️ Strengthen Safety Protection:
Integrate multi-layer safety systems to safeguard both equipment and personnel.
Supported Products:
Imax Power Energy Conversion Systems – PCS / Bi-directional DCDC / MPPT / STS / BMS / EMS
Imax Power Integrated Energy Storage System
| Solution Layer | Key Core Technology | Technical Highlights |
|---|---|---|
| System Control Layer | Multi-dimensional Control | Integrate PV, storage, and load management for dynamic energy optimization. |
| Energy Management & Scheduling Layer | Self-developed EMS Algorithm | Balance power generation and consumption for smarter scheduling. |
| AI Predictive Optimization | Use algorithmic forecasts to predict PV output and load trends, enabling proactive adjustment. | |
| High-efficiency Energy Aggregation | Ensure precise matching between PV and storage, maximizing utilization. | |
| Energy Conversion Layer | Bi-directional Inverter Technology | Support accurate control of charging and discharging for stable operation. |
| Automatic Synchronization Control | Simplify grid connection and enhance energy transfer efficiency. | |
| Grid-forming Capability | Maintain voltage and frequency stability even under isolated operation. | |
| System Safety Layer | Hierarchical BMS Control | Monitor battery health and system status to guarantee safe operation. |
| Intelligent Thermal Management | Balance temperature distribution and prevent thermal runaway. | |
| Redundant Safety Design | Enhance system reliability through multiple protection circuits. | |
| Health Monitoring Layer | SOH/SOC Precision Algorithm | Provide accurate battery state estimation to support long-term reliable performance. |
| Cloud-based Monitoring | Enable remote system supervision, diagnostics, and optimization via cloud EMS. | |
| Maintenance & Service Layer | Modular Cabinet Design | Adaptable for diverse capacity configurations and simplified system upgrades. |
Imax Power Microgrid Energy Storage Solution delivers scalable, safe, and intelligent distributed energy management.
