| Proj No. | A1127-251 |
| Title | Advanced Control Strategies for High-Frequency Rectifiers Based on Wide Bandgap Semiconductors in Wireless Power Transfer |
| Summary | In wireless power transfer (WPT) systems, the control strategy of the rectifier is a critical factor influencing overall efficiency, stability, and system performance. The high-frequency switching capabilities of wide bandgap semiconductor devices offer new possibilities for optimizing inverter control. This project aims to investigate and implement advanced control methods specifically designed for high-frequency rectifiers utilizing wide bandgap technologies, with the goal of improving both energy efficiency and dynamic performance in WPT applications. A range of control algorithms will be evaluated through simulation and validated via experimental testing. The selected student will work closely with a postgraduate student to develop and implement control strategies using PSIM, LTSpice, and Altium Designer, and will also participate in hands-on tasks such as soldering and assembling the control board. The final design will be integrated into a functional WPT system to assess its real-world performance, providing valuable theoretical and practical insights to advance next-generation WPT technologies. |
| Supervisor | Ast/P Yang Yun (Loc:S2 > S2 B2C > S2 B2C 105, Ext: +65 67905406) |
| Co-Supervisor | - |
| RI Co-Supervisor | - |
| Lab | Water & Energy Research Laboratory (Loc: S2.1-B3-03) |
| Single/Group: | Single |
| Area: | Electrical Power and Energy |
| ISP/RI/SMP/SCP?: |