The laboratory focuses on the industry demands of underwater unmanned vehicles, unmanned surface vessels, unmanned aerial vehicles, and other related fields, tracks technological development trends in the industry, and prioritizes research and breakthroughs in core key technologies of wireless power transfer systems.

Research Direction 1: Electromagnetic Field Simulation and Design of Magnetic Couplers

Project 1: Electromagnetic-Thermal Multi-Physics Field Simulation Modeling Methods for Magnetic Couplers

Project 2: Impact of Complex Marine Environments on the Electromagnetic Performance of Magnetic Couplers

Project 3: Design of Composite Electromagnetic Shielding Layers Based on Nanocrystalline and Ferrite Materials

Research Direction 2: Circuit Topology and Control of Wireless Power Transfer Systems

Project 1: Control Technology for PT Wireless Power Transfer Systems

Project 2: Control Technology for Self-Resonant PT Wireless Power Transfer Systems

Project 3: Dynamic Impedance Matching and Control Technology for Wireless Power Transfer Systems

Project 4: Wireless Power Transfer Systems Based on Single-Switch Inverters

Project 5: Parallel Control Technology for Primary-Side Inverters in Wireless Power Transfer Systems

Project 6: Foreign Object Detection (FOD) Technology

Project 7: Synchronous Transmission of Power and Signals in Wireless Power Transfer Systems

Project 8: Compact PFC Design for Wireless Power Transfer Systems

Research Direction 3: Key Technologies for Application Systems of Wireless Power Transfer

Project 1: Underwater Wireless Power Transfer Systems for UUVs

Project 2: Underwater Wireless Power and Information Transmission Systems for Ocean Buoys

Project 3: Wireless Power Transfer Systems for UAVs

Project 4: Wireless Power Transfer Systems for USVs

Project 5: Wireless Power Transfer Systems for Electric Vehicles

Project 6: Long Rail Dynamic Wireless Power Transfer Systems

Project 7: Wireless Power Transfer Systems for Rotating Mechanisms