山东大学教师主页丁文龙 Paper Publications Home

dingwenlong Professor

丁文龙，山东大学控制科学与工程学院教授，山东大学齐鲁青年学者、山东省青年泰山学者、山东省首批海外优青。曾在香港中文大学从事博士后研究工作，担任香港应用科技研究院高工。主要研究电力电子技术及其在新能源汽车充电、电池测试、储能并网的应用。主持国家青年基金、重点研发计划课题、香港信兴高等工程研究所课题等项目，在国际顶级期刊IEEE PE等发表论文20余篇，起草标准1项，获教育部技术发明一等奖、日内瓦国际发明展金奖等 More+

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Paper Publications

[1] 宋金秋. Decentralized Power Sharing With Backstepping Control for Modular High-Frequency Link Matrix Converter. IEEE TRANSACTIONS ON TRANSPORTATION ELECTRIFICATION, 2024.

[2] 宋金秋. Nonlinear Backstepping Control Strategy for High-frequency Link Matrix Converter Under Unbalanced Grid Conditions. 《中国电机工程学报》, 42, 761-771, 2022.

[3] Song, Jinqiu. A Novel Three-Phase Single-Stage Isolated AC-DC Converter with Symmetrical Structure for Battery Charger. 3rd Conference on Vehicle Control and Intelligence (CVCI), 307-311, 2019.

[4] 丁文龙. Design of Three-phase PWM Converter in the Battery Pack Testing System Using Fractional-Order Control. 8th IEEE International Power Electronics and Motion Control Conference (IPEMC-ECCE Asia), 2016.

[5] Liu, Jiajun. Neutral-Point Voltage Balance Control and Oscillation Suppression for VIENNA Rectifier. 3rd IEEE International Future Energy Electronics Conference / Energy Conversion Congress and Exposition (ECCE) Asia, 1275-1279, 2017.

[6] Feng, Dexiang. The super-twisting sliding mode control for half-bridge three-level LLC resonant converter. 6th CAA International Conference on Vehicular Control and Intelligence, CVCI 2022, 2022.

[7] Cao, Entong. Predictive Control Strategy for Four-switch Buck-Boost Converter with Mode Smooth Transition. 6th CAA International Conference on Vehicular Control and Intelligence, CVCI 2022, 2022.

[8] Wu, Gaotong. A Flexible and Efficient Reactive Power Compensation Method for Modular High Frequency Link Matrix Converter in Battery Charging. 6th CAA International Conference on Vehicular Control and Intelligence, CVCI 2022, 2022.

[9] 杨东江. 一种带辅助双向开关单元的宽输入电压范围LLC谐振变换器. 电工技术学报, 35, 775-785, 2020.

[10] 宋金秋. A Modified Space Vector Modulation for DC-Side Current Ripple Reduction in High-Frequency Link Matrix Converter. IEEE TRANSACTIONS ON TRANSPORTATION ELECTRIFICATION, 8, 4470, 2022.

[11] 宋金秋. A Modified Space Vector Modulation for DC-Side Current Ripple Reduction in High-Frequency Link Matrix Converter. IEEE TRANSACTIONS ON TRANSPORTATION ELECTRIFICATION, 2022.

[12] 丁文龙. A zero-sequence component injection modulation method with compensation for current harmonic mitigation of Vienna rectifier. IEEE Transactions on Power Electronics, 34, 2019.

[13] Wenlong Ding , C. Zhang , B. Duan , P. C. Loh , C. Yin and L. Ming. An integrated common-mode fast-balancing mechanism for three-phase three-level converter with LCL filter. IEEE Trans. Power Electron., 36, 12694-12709, 2021.

[14] Wenlong Ding , L. Ming , C. Yin , M. Chen and P. C. Loh. Differential-mode filters with common-mode neutral-point-balancing accelerators for single-phase symmetrical five-level converters. IEEE Trans. Power Electron., 36, 9209-9220, 2021.

[15] Wenlong Ding , H. Qiu , B. Duan , N. Cui and C. Zhang. A novel segmented component injection scheme to minimize the oscillation of dc-link voltage under balanced and unbalanced conditions for Vienna rectifier. IEEE Trans. Power Electron., 34, 9536 - 9551, 2019.

[16] Wenlong Ding , C. Zhang , F. Gao , B. Duan and H. Qiu. A zero-sequence component injection modulation method with compensation for current harmonic mitigation of Vienna rectifier. IEEE Trans. Power Electron., 34, 801-814, 2019.

[17] 丁文龙 , 刘家君 , 段彬 and 张承慧. VIENNA整流器中点电位振荡抑制与平衡控制研究. 中国电机工程学报, 37, 7284-7291, 2017.

[18] L. Ming , Wenlong Ding , P. C. Loh and X. Zhen. A direct carrier-based modulation scheme with full index range for dc-link current ripple mitigation of a current source converter. IEEE Trans. Industrial Electronics, 69, 452-462, 2022.

[19] L. Ming , Wenlong Ding , C. Yin , Z. Xin and P. C. Loh. A direct carried-based PWM scheme with reduced switching harmonics and common-mode voltage for current source converter. IEEE Trans. Power Electron., 36, 7783-7796, 2021.

[20] C. Yin , Wenlong Ding , L. Ming and P. C. Loh. Single-stage active split-source inverter with high dc-link voltage utilization. IEEE Trans. Power Electron., 36, 6699-6711, 2021.