Dynamics and control of switched electronic systems : advanced perspectives for modeling, simulation and control of power converters

The increased efficiency and quality constraints imposed on electrical energy systems have inspired a renewed research interest in the study of formal approaches to the analysis and control of power electronics converters. Switched systems represent a useful framework for modeling these converters and the peculiarities of their operating conditions and control goals justify the specific classification of "switched electronic systems". Indeed, idealized switched models of power converters introduce problems not commonly encountered when analyzing generic switched models or non-switched electrical networks. In that sense the analysis of switched electronic systems represents a source for new ideas and benchmarks for switched and hybrid systems generally. Dynamics and Control of Switched Electronic Systems draws on the expertise of an international group of expert contributors to give an overview of recent advances in the modeling, simulation and control of switched electronic systems. The reader is provided with a well-organized source of references and a mathematically-based report of the state of the art in analysis and design techniques for switched power converters. Intuitive language, realistic illustrative examples and numerical simulations help the reader to come to grips with the rigorous presentation of many promising directions of research such as: converter topologies and modulation techniques; continuous-time, discrete-time and hybrid models; modern control strategies for power converters; and challenges in numerical simulation. The guidance and information imparted in this text will be appreciated by engineers, and applied mathematicians working on system and circuit theory, control systems development, and electronic and energy conversion systems design.

Part I: Inspiring Preliminaries.- Interesting Topologies.- Modulation Techniques.- Open Problems from Power Converters.- Part II: Mathematical Modeling Perspectives.- Averaging for Power Converters.- Sampled-data Models.- Switched Systems.- Hybrid Systems.- Complementarity Modeling.- Switched Port-controlled Hamiltonian Framework.- Part III: Advanced Control Strategies for Power Converters.- Lyapunov.- Sliding-mode.- Model Predictive Control.- Robust Control.- Part IV: Simulating Controlled Converters: A Challenging Issue.- An Overview of Simulation Tools.- Simulating Discontinuities.- Time-stepping via Complementarity.- Real-time Simulation.