Yong-Hwa Wen
According to our database1,
Yong-Hwa Wen
authored at least 8 papers
between 2021 and 2023.
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Bibliography
2023
A -10 to -20-V Inverting Buck-Boost Drive GaN Driver With Sub-1-μA Leakage Current V<sub>th</sub> Tracking Technique for 20-MHz Depletion-Mode GaN Metal-Insulator-Semiconductor High-Electron-Mobility Transistors.
IEEE J. Solid State Circuits, February, 2023
2022
A 10 nA Ultra-Low Quiescent Current and 60 ns Fast Transient Response Low-Dropout Regulator for Internet-of-Things.
IEEE Trans. Circuits Syst. I Regul. Pap., 2022
A 94.3% Peak Efficiency Adaptive Switchable CCM and DCM Single-Inductor Multiple-Output Converter With 0.03 mV/mA Low Crosstalk and 185 nA Ultralow Quiescent.
IEEE J. Solid State Circuits, 2022
A Pre-Charge Tracking Technique in the 40 MHz High-Speed Switching 48-to-5 V GaN-Based DC-DC Buck Converter for Reducing Large Self-Commutation Loss and Achieving a High Efficiency of 95.4%.
IEEE J. Solid State Circuits, 2022
Monolithic GaN-Based Driver and GaN Switch With Diode-Emulated GaN Technique for 50-MHz Operation and Sub-0.2-ns Deadtime Control.
IEEE J. Solid State Circuits, 2022
A Monolithic GaN-Based Driver and GaN Power HEMT with Diode-Emulated GaN Technique for 50MHz Operation and Sub-0.2ns Deadtime Control.
Proceedings of the IEEE International Solid-State Circuits Conference, 2022
2021
17.7 A 0.03mV/mA Low Crosstalk and 185nA Ultra-Low-Quiescent Single-Inductor Multiple-Output Converter Assisted by 5-Input Operational Amplifier for 94.3% Peak Efficiency and 3.0W Driving Capability.
Proceedings of the IEEE International Solid-State Circuits Conference, 2021
A Pre-Charge Tracking Technique in the 40MHz High-switching 48-to-5V DC-DC Buck Converter with GaN Switches for Reducing Large Self-commutation Loss and Achieving a High Efficiency of 95.4%.
Proceedings of the 47th ESSCIRC 2021, 2021