Gui-Jia Su Distinguished R&D Staff Contact sugj@ornl.gov | 865.341.1330 All Publications Pushing to the Distance Boundary of Inductive Wireless Power Transfer A High-Power Density Segmented Traction Drive Inverter Design Considerations of DC/DC Regulator for High-Power Dynamic Wireless Charging Systems... Efficiency and Output Power Sensitivity to Control Parameter Variations in an LCC-Series Wireless Power Transfer System Self-Resonant Coil Design for High-frequency High-Power Inductive Wireless Power Transfer... Interoperability between Three-Phase and Single-Phase WPT Systems A Novel LCC-CLCC Resonant Tuning Network for Light-Load Conditions in Wireless Power Transfer Systems... Modular Power Electronics Approach for High Power Dynamic Wireless Charging System Magnetic Shield Design for Double-D Coil-Based Wireless Charging System A 100-kW Wireless Power Transfer System Development Using Polyphase Electromagnetic Couplers A 20-kW DC Oak Ridge Converter with Integrated AC & DC Sources for Grid Services and Energy Storage Systems... Modeling and Analysis of a Polyphase Wireless Power Transfer System for EV Charging Applications... Thermal Design and Optimization of High- Power Wireless Charging System... A 50-kW Bidirectional Step-up / Step-down DC/DC Oak Ridge Converter for Wireless Charger Applications... Design and Analysis of a 200 kW Dynamic Wireless Charging System for Electric Vehicles... A Novel Three-Phase Oak Ridge AC / AC Converter for Wireless Mobility Energy Storage System (WMESS) Connectivity... Three-Phase LCC-LCC Compensated 50-kW Wireless Charging System with Non-Zero Interphase Coupling A Novel Bi-directional AC/DC - DC/AC Wireless Power Transfer System for Grid Support Applications... A Novel Three Phase Oak Ridge DC / AC Converter for Wireless Grid Tied Applications... DC-Ripple-Energy Adaptive-Minimization (DREAM) Modulation Scheme for a High Power Density Inverter A Novel Three-Phase Oak Ridge AC / DC Converter for Wireless EV Charger Applications... Modular Design of Receiver Side Power Electronics for 200 kW High Power Dynamic Wireless Charging System... Analysis of Magnetic Field Emissions and Shield Requirements for Interoperating High-Power EV Wireless Charging System Thermal Analysis of a 50 kW Three-Phase Wireless Charging System... Bidirectional LCC-LCC Compensated 20 kW Wireless Power Transfer System for Medium-Duty Vehicle Charging... Pagination Current page 1 Page 2 Page 3 … Next page ›› Last page Last » Key Links ORCID Organizations Energy Science and Technology Directorate Electrification and Energy Infrastructures Division Buildings and Transportation Science Division Propulsion Science Section Electric Drives Research Group