State Plane Analysis and Optimization of CLLC Resonant Converter for Bidirectional EV Charger, Ph.D. Dissertation Sharif University of Technology ; Tahami, Farzad (Supervisor) ; Schanen, Jean-Luc (Supervisor)
Abstract
As more renewables step in, the ongoing change will be drastic for the electrical grid. The energy sector must find new ways to balance energy production and consumption. Electric vehicle (EV) batteries are by far the most cost-efficient form of energy storage since they require no additional investments in hardware. A bidirectional EV charger is a new technology that enables energy to be pushed back to the power grid and auxiliary loads from the battery. The electrical requirements of the EV charger are examined in detail to find an appropriate power electronics converter to meet all the requirements. The CLLC resonant converter is a promising candidate for high efficient, bidirectional...
Cataloging briefState Plane Analysis and Optimization of CLLC Resonant Converter for Bidirectional EV Charger, Ph.D. Dissertation Sharif University of Technology ; Tahami, Farzad (Supervisor) ; Schanen, Jean-Luc (Supervisor)
Abstract
As more renewables step in, the ongoing change will be drastic for the electrical grid. The energy sector must find new ways to balance energy production and consumption. Electric vehicle (EV) batteries are by far the most cost-efficient form of energy storage since they require no additional investments in hardware. A bidirectional EV charger is a new technology that enables energy to be pushed back to the power grid and auxiliary loads from the battery. The electrical requirements of the EV charger are examined in detail to find an appropriate power electronics converter to meet all the requirements. The CLLC resonant converter is a promising candidate for high efficient, bidirectional...
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