Oscar Lucia spends much of his time researching Induction heating, Electronic engineering, Inductor, Power electronics and Resonant inverter. Induction heating is a subfield of Electrical engineering that Oscar Lucia investigates. His Electronic engineering research incorporates elements of Power semiconductor device, Boost converter, Topology and MOSFET.
His Inductor research integrates issues from Inductance and Electromagnetic coil. His Power electronics research focuses on Control engineering and how it relates to Cogeneration. Resonant inverter is a subfield of Inverter that Oscar Lucia studies.
His main research concerns Induction heating, Electronic engineering, Converters, Electrical engineering and Resonant inverter. His research in Induction heating intersects with topics in Power control, Control theory, Inductor, Automotive engineering and Inverter. The study incorporates disciplines such as Power density, Topology, Capacitor, Power electronics and Field-programmable gate array in addition to Electronic engineering.
The Converters study which covers Power factor that intersects with Power module. His work on Voltage and Transistor as part of general Electrical engineering study is frequently connected to Gallium nitride and Magnetic components, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them. His study looks at the intersection of Resonant inverter and topics like Power semiconductor device with MOSFET.
Induction heating, Electronic engineering, Topology, Electric field and Resonant inverter are his primary areas of study. His Induction heating study integrates concerns from other disciplines, such as Model predictive control, Automotive engineering, Deep learning, Artificial intelligence and Current. He incorporates Electronic engineering and Network topology in his studies.
Oscar Lucia interconnects Inductor and Modulation in the investigation of issues within Topology. His Resonant inverter research incorporates themes from Power semiconductor device and Power control. His work in Power control covers topics such as Electricity generation which are related to areas like Pulse-width modulation and Transistor.
His primary scientific interests are in Topology, Induction heating, Biomedical engineering, Irreversible electroporation and Resonant inverter. His work deals with themes such as Power control, Automotive engineering, Electricity generation and Electronic engineering, Digital control, which intersect with Topology. His Power control research is multidisciplinary, incorporating elements of Inductor and Renewable energy.
His Electronic engineering study incorporates themes from Modulation, Waveform, Signal generator, Arbitrary waveform generator and Signal. He integrates Induction heating with Context in his research. His biological study spans a wide range of topics, including Transistor, Power semiconductor device and Active surface.
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Review of Silicon Carbide Power Devices and Their Applications
Xu She;Alex Q. Huang;Oscar Lucia;Burak Ozpineci.
IEEE Transactions on Industrial Electronics (2017)
Induction Heating Technology and Its Applications: Past Developments, Current Technology, and Future Challenges
Oscar Lucia;Pascal Maussion;Enrique J. Dede;Jose M. Burdio.
IEEE Transactions on Industrial Electronics (2014)
Load-Adaptive Control Algorithm of Half-Bridge Series Resonant Inverter for Domestic Induction Heating
O. Lucia;J.M. Burdio;I. Millan;J. Acero.
IEEE Transactions on Industrial Electronics (2009)
Efficiency-Oriented Design of ZVS Half-Bridge Series Resonant Inverter With Variable Frequency Duty Cycle Control
Oscar Lucía;José M Burdío;Ignacio Millán;Jesús Acero.
IEEE Transactions on Power Electronics (2010)
Analysis of the Mutual Inductance of Planar-Lumped Inductive Power Transfer Systems
J. Acero;C. Carretero;I. Lope;R. Alonso.
IEEE Transactions on Industrial Electronics (2013)
Series-Resonant Multiinverter for Multiple Induction Heaters
Óscar Lucía;José M Burdío;Luis A Barragán;Jesús Acero.
IEEE Transactions on Power Electronics (2010)
Induction Heating Appliances: Toward More Flexible Cooking Surfaces
Oscar Lucia;Jesus Acero;Claudio Carretero;Jose M. Burdio.
IEEE Industrial Electronics Magazine (2013)
Class-D/DE Dual-Mode-Operation Resonant Converter for Improved-Efficiency Domestic Induction Heating System
H. Sarnago;Ó Lucía;A. Mediano;J. M. Burdío.
IEEE Transactions on Power Electronics (2013)
Real-Time FPGA-Based Hardware-in-the-Loop Simulation Test Bench Applied to Multiple-Output Power Converters
Ó Lucía;I Urriza;L A Barragán;D Navarro.
IEEE Transactions on Industry Applications (2011)
A Versatile Power Electronics Test-Bench Architecture Applied to Domestic Induction Heating
Óscar Lucía;L A Barragán;José M Burdío;Óscar Jiménez.
IEEE Transactions on Industrial Electronics (2011)
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