Login
SDU
中文
lZy
G1L
ZG1
wN4
3pf
Y8J
vM7
mbh
62h
HG8
UKm
EAa
oa1
dy1
Gjm
s48
qkf
R5o
cqT
92j
Home
Scientific Research
Working-Papers
Paper Publications
Patents
Published Books
Research Projects
Research Team
Teaching Research
Teaching Resources
Teaching Experience
Teaching Achievement
Awards and Honours
Enrollment Information
Student Information
My Album
Blog
Current position:
Home
>>
Scientific Research
>>
Paper Publications
王玉斌
Personal Information
Professor
Paper Publications
[1] . A Low-stress High-gain Interleaved DC-DC Converter with Self-balancing Capacitor Voltage. 7th IEEE International Electrical and Energy Conference, CIEEC 2024, 2024.
[2] . General method of reducing switching voltage stress without extra voltage-loop control for related switching-capacitor high-gain converters. JOURNAL OF POWER ELECTRONICS, 24, 2024.
[3] . Easily extensible interleaved high step-up boost converter with low current ripple and low voltage stress. JOURNAL OF POWER ELECTRONICS, 24, 2024.
[4] . Model Predictive Control for the Three-Port Isolated Bidirectional DC/DC Converter with Soft Switching. Proceedings - 2023 International Conference on Power System Technology, 2023.
[5] . Characteristics Analysis of Short-circuit and Ground Fault in Photovoltaic Storage and Charging Integrated DC Microgrid. Proceedings - 2023 International Conference on Power System Technology, 2023.
[6] . Economic Optimal Scheduling of DC Microgrid Cluster Based on Hierarchical Control. The proceeding of the 10th Frontier Academic Form of Electrical Engineering, 2022.
[7] . An Improved ZVT Soft-switching Circuit for Interleaved High-gain Boost Converters. Proceedings - 2023 International Conference on Power System Technology, 2023.
[8] . An adaptive nonlinear droop control for accurate load current sharing and DC bus voltage compensation in a DC power system. JOURNAL OF POWER ELECTRONICS, 22, 308-317, 2022.
[9] . Multiphase Low Stresses High Step-Up DC-DC Converter With Self-Balancing Capacitor Voltages and Self-Averaging Inductor Currents. IEEE Transactions on Power Electronics, 37, 6913-6926, 2022.
[10] 冼啟鸿. Hybrid passivity-based control for stability and robustness enhancement in DC microgrids with constant power loads. JOURNAL OF POWER ELECTRONICS, 2022.
TOTAL 100 PIECE 1/10
FIRST
PREVIOUS
NEXT
LAST
PAGE