Modelling, Stability Analysis and Advanced Control of Power Electronics Cluster System

Dear Colleagues,

Power electronic devices are increasingly dominated in power grid systems which promote flexibility and controllability, such as the applications of photovoltaic/wind generations, flexible HVDC transmission, power electronic transformers, electric vehicle charging, motor drivers, and microgrids. These power electronics cluster systems consisting of these devices exhibit complicated multi-time-scale and non-linear characteristics. These characteristics have brought a series of challenges to the stable and secure operation of the cluster system, such as power quality issues in high-speed traction systems, a wide-frequency-range oscillation phenomena in a large-scale wind farm, deteriorated frequency fluctuation of low-inertia power grid, and irreversible instability problem of weak distributed energy systems. Besides, the vulnerability and limited over-load capability of power electronic device also break off the normal system operation when it is subjected to large disturbances or under complex dynamic load. In this scenario, a special section on modelling, stability analysis, and advanced control of power electronics cluster system will be timely and of great interest for all those working in the area.

Editors invite original manuscripts presenting recent advances in these fields with special reference to the following topics:

• Network topologies of power electronics clusters;
• Multi-time scale model and its model order reduction;     
• High-power and high-voltage power electronic system;
• Non-linear phenomena modeling and mechanism analysis;
• Small-/large- signal stability analysis methods;     
• Harmonic instability analysis and power quality issues;
• Fault characteristics and operation monitoring;     
• Advanced control of power electronic system under dynamic loads;
• Oscillation damping techniques in wind plants, microgrid, and other occasions;  
• Grid-friendly interfaces and coordination control for renewable generation and vehicle-to-grid (V2G).

Dr. Xiaochao Hou
Dr. Jinghang Lu
Dr. Yang Qi
Guest Editors

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• microgrids
• distributed generations
• high renewable distribution network
• nonlinear and dynamic loads
• converter Modeling
• advanced control techniques
• frequency/voltage stability