Solution

Solution Value

• Reduce Enterprise Electricity Costs: Utilize self-generated photovoltaic power to significantly cut peak-time electricity expenses. Cost reduction enhances enterprise profitability.
• Enhance Energy Self-Sufficiency: Build distributed power systems to boost enterprise energy independence. Self-sufficiency reduces reliance on external power sources.
• Optimize Energy Structure Configuration: Coordinate with energy storage systems to achieve peak shaving, valley filling, and energy balance. Optimized structures improve energy efficiency.
• Generate Long-Term Economic Returns: Short investment payback periods and stable system operation yields ensure observable benefits. Economic returns justify investment.
• Achieve Intelligent Operation and Maintenance Management: Remote monitoring and data analysis guarantee efficient power station operation. Smart management reduces operational burdens.
• Support Green and Low-Carbon Development: Reduce carbon emissions and enhance corporate environmental and social images. Sustainable practices align with global trends.
• Possess Flexible Expansion Capability: Support the integration of photovoltaic and storage upgrades to meet future energy growth demands. Flexibility ensures long-term applicability.

Key Core Products & Technical Systems

Module Products

Imax energy storage converters PCS/Bidirectional DCDC/MPPT/STS/BMS/EMS (assuming these are the module products under the Imax Power brand; adjust if actual product names differ)

System Products

Imax Power integrated energy storage system

Hierarchical Structure

System Top Layer: Energy Efficiency Scheduling and Revenue Maximization

• EMS Energy Management System: Monitor and optimize energy distribution between photovoltaic generation, loads, and storage in real-time. Efficient management maximizes energy use.
• Energy Self-Sufficiency Optimization: Implement load forecasting and pricing strategies to maximize revenue. Optimization enhances economic benefits.
• Intelligent Grid Connection Control: Ensure stable power output and grid safety under various grid conditions. Control guarantees reliable grid integration.

System Middle Layer: Power Generation Side and Storage Side Core Technologies

• High-Efficiency Photovoltaic Inverter Technology: Improve MPPT response speed and conversion efficiency to reduce energy losses. Efficient technology boosts performance.
• Integrated Photovoltaic-Storage Design: Integrate photovoltaic, storage, and control modules to enhance system integration and space utilization. Integrated designs save space.
• Power Optimizer (Power Optimizer): Track faults at the module level and isolate them to improve overall system power generation efficiency. Optimization ensures reliability.

System Bottom Layer: Safety and Reliability Assurance

• DC Anti-Islanding Protection: Prevent abnormal power backfeed and ensure grid safety. Protection is critical for safety.
• High-Voltage Protection and Grounding System: Prevent electric leakage, backflow, and overvoltage risks to ensure safe operation. Safety measures protect equipment.
• Fire and Lightning Protection Integration Design: Guarantee long-term stability of roof systems under extreme climates. Design ensures durability.

Support Layer: Digitalization, Visualization, and Operation & Maintenance

• IoT Remote Monitoring System: Monitor components, inverters, and storage status in real-time for online management. Real-time monitoring ensures system health.
• AI Fault Diagnosis Algorithm: Identify abnormalities based on historical data for early warnings. Diagnosis aids in proactive maintenance.
• Digital Twin Operation and Maintenance Platform: Optimize power generation prediction and maintenance decisions through virtual power station modeling. Platform enhances operational efficiency.