On-site EMS and MEMS
Photovoltaic-Storage-Charging Collaborative Algorithm to Maximize Economic Benefits and Green Power Utilization!
HEMS
Microgrid Energy Management SystemEMS
Energy Management SystemEMU
Energy Management Unit
Maximize Economic Benefits!
MEMS coordinates energy storage, photovoltaic power generation, and charging demands to achieve efficient and stable power supply while maximizing economic benefits.
Optimize Power Operation Safety!
Virtual capacity expansion and orderly charging ensure efficient and stable power supply, optimizing power operation safety.
PV Power Control & PV-ESS Synergy
Synergy between PV and Energy Storage Enhances Energy Utilization Efficiency!
- Based on photovoltaic power control and PV-ESS synergy.
- Utilizes intelligent control systems to optimize collaborative operation of PV generation and energy storage systems.
- Achieves high-efficiency, reliable, and economical energy management.
Virtual Capacity Expansion & Orderly Charging
Overall operational revenue can increase by 15%-40%!
- MEMS integrates advanced intelligent optimization algorithms to dynamically adjust energy storage charge/discharge strategies, maximizing system economic benefits. High-efficiency automation control modules enable comprehensive automated management of PV and energy storage, reducing manual intervention and improving operational efficiency.
Dynamic Demand Algorithm
Millisecond-level tracking of load fluctuations!
- Accurately monitors dynamic demand changes, enhances charging efficiency, and mitigates over-demand risks caused by energy storage.
PV-ESS-Charging Synergy Algorithm
Synergy between photovoltaic power generation and energy storage charging systems!
- MEMS integrates advanced intelligent optimization algorithms to dynamically adjust energy storage charge/discharge strategies, maximizing system economic benefits. High-efficiency automation control modules enable comprehensive automated management of PV and energy storage, reducing manual intervention and improving operational efficiency.
Dynamic Balancing Algorithm 3.0
Maximizes charge/discharge efficiency, reducing total cycle completion time by 10-20%!
Global Energy Balance Optimization
Adjusts charge/discharge strategies based on market electricity price fluctuations. Charges during low-price periods and discharges during high-price periods to minimize energy costs.Cycle Balancing & Lifespan Optimization
Implements cycle balancing algorithms to ensure uniform charge/discharge cycles across all energy storage cabinets, mitigating risks of premature lifespan degradation in specific units.Dynamic Power Allocation
Deploys dynamic power allocation algorithms that adjust charge/discharge power distribution based on system load, cabinet SOC (State of Charge), and power characteristics.
