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Philippe Barrade
Also published under:P. Barrade, Philipe Barrade
Affiliation
Institute for Systems engineering HEVS, HES-SO Valais-Wallis, Sion, Switzerland
Topic
Dcdc Converter,Power Electronics,Dual Active Bridge,Energy Management,Frequency Transformer,Galvanic Isolation,Median Frequency,Operation Mode,Peak Power,Power Transfer,Resonant Converter,Semiconductor Devices,Supercapacitors,Ac Grid,Active Control,Air Conditioning,Backward Induction,Balance Of Power,Battery Capacity,Bidirectional Flow,Bidirectional Power Flow,Boost Converter,Capacitor C1,Control Loop,Control Platform,Control Strategy,Control Structure,Cost Function,Current Reference,Dc Microgrid,Decision Problem,Duty Cycle,Dynamic Programming,Electric Cars,Electrolyte System,Elements In Cells,Energy Efficiency,Energy Exchange,Energy Loss,Energy Management Strategy,Energy Storage Capacity,Energy Storage Systems,Equivalent Impedance,Feeding Ports,Fundamental Frequency,Green Curve,Grid Power,Half-bridge,Heating, Ventilation, And Air Conditioning,Hybrid Electric Vehicles,
Biography
Philippe Barrade (M'00) received the Ph.D. degree in electrical engineering from INP, Toulouse, France.
In 1998, he worked at SAFT in the field of power electronics and energy management for UPS applications. Since 1999, he has been First Assistant, Lecturer at the Ecole Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland. His main research fields are power electronics applications, systems modeling, representation, and simulation. Another research interest is linked to energy management and storage, including multiphysics finite-element analysis.
In 1998, he worked at SAFT in the field of power electronics and energy management for UPS applications. Since 1999, he has been First Assistant, Lecturer at the Ecole Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland. His main research fields are power electronics applications, systems modeling, representation, and simulation. Another research interest is linked to energy management and storage, including multiphysics finite-element analysis.