汪洪亮

汪洪亮

一、基本情况

汪洪亮,男,汉族,1982年12月生,安徽安庆桐城人,湖南大学教授、博士生导师,罗安院士课题组核心成员,电能高效高质转化全国重点实验室核心成员,国家电能变换与控制工程技术研究中心核心成员,院党委副书记、纪委书记;国家青年人才专家、中国科协海智特聘专家、湖南省揭榜挂帅重大科技项目负责人、湖南省科技创新领军人才(拔尖)、湖南省杰出青年基金获得者、湖南省“高层次人才聚集工程”创新人才、湖南大学岳麓学者等;兼任IEC标准TC8/PT62786中国技术团队成员(2012-2013)、IEEE加拿大金斯顿分会副主席(2016-2018)、IEEE ECCE (2015、2017)等国际会议分会主席、IEEE高级会员(2015年起)、中国电源学会标准化工作委员会副主任、新能源电能变换专委会副主任、青年工作委员会副主任(2021-2023)、交通电气化专委会委员、全国电力电子系统和设备标准化技术委员会不间断电源分技术委员会委员、中国电机工程学会分布式发电及智能配电专委会委员、中国化学与物理电源行业协会储能应用专委会委员、中国电工技术学会电控系统与装置专业委员会委员、中国自动化学会电气自动化专业委员会委员、湖南省可再生能源学会理事等,参与国家重点研发计划、国家自然科学基金多类型项目等评审。

Email:liangliang-930@163.com; Wanghl123@hnu.edu.cn

二、学习与工作经历

2000.9-2004.7

安徽理工大学,自动化,学士

2004.8-2005.5

横店集团热电厂,电气工程师、电气运行班长

2006.9-2011.6

华中科技大学,电气工程,博士(硕博连读,康勇教授、裴雪军教授)

2011.6-2012.3

阳光电源,系统工程师

2012.4-2013.4

阳光电源,高级系统工程师兼任储能微网技术负责人

2013.5-2018.1

加拿大皇后大学博士后(Yan-Fei Liu院士,IEEE Fellow;P. C. Sen教授,IEEE Life Fellow)

2018.1-至今

湖南大学,电气与信息工程学院,教授、博士生导师(罗安院士课题组)

三、主要研究方向

研究方向:电力电子拓扑、控制和系统及其产业化应用;数字信息处理与语音识别

(1)冶金、光伏电池板、半导体领域:高频高功率特种电源(高频感应加热、镀膜沉积、等离子体等)

(2)配电网领域:新型低电压治理装备(单相、三相)、 线损补偿器、新型电压暂降恢复器(DVR)、虚拟储能、智能配电网

(3)光储充领域:新型微型逆变器/新型单相户用光伏逆变器/三相光伏逆变器;储能变流器+BMS (电站级、工商业、家用、移动便携储能);直流快充

(4)特定应用领域:定制化电源(工业变频、软启动器、脉冲电源、医疗仪器电源、激光电源、GaN应用电源)

(5)信息传输领域:uV级弱信号处理与传输、水下声波预警系统,航天超宽频通信电源系统,锂电池BMS系统,工业无人机电系统

  承担加拿大自然科学基金10项、中国自然科学基金3项、湖南省项目6项、企业项目12项;制定CQC技术规范2项,授权美国发明专利14件、中国发明专利70件,部分专利实现专利转让、成果转化或产业化;发表SCI/EI论文90余篇,其中SCI收录40余篇。

  主持或参与研制的3*400kVA 三相逆变电源系统、3*75KVA 单相电源系统、4.6kVA户用式光伏逆变器、20kVA组串式光伏逆变器、500kVA三电平集中式光伏逆变器、500kVA/630kVA储能变流器、20kW DC/DC全国产化工业电源、5kW消磁电源、10kW激光电源、2kWh移动便携储能电源系统、600W LLC谐振电源、100W LED照明电源、65W电源适配器、10kVA宽频带数字功放等已批量应用于工业现场或正在产品化,满足船舶综合电力系统、光伏电站、港口配电网,海岛微电网、水下预警、通信电源、LED照明、电声换能系统等需求,部分系列化产品中国市场占有率超过30%,同美国、加拿大、德国、日本、中国等国家业界二十余家知名公司就部分专利技术开展了合作与成果转化。

四、代表性论文

1.代表期刊论文(TIE+TPEL+JESTPE行业顶级期刊

[J1] X. Deng,X. Zhu,H. Wang,  D. Kang,Y. Jiang,et al., "A Novel Virtual Space Vector Modulation with Optimized Neutral-Point Voltage Control Capability for Ten-Switch Three-Phase Three-Level Inverter,"IEEE Transactions on Industrial Electronics, vol. 71, no. 2, pp.1081-1092, 2024.

[J2] X. Deng, H. Wang*, X. Zhu, W. Tang, D. Kang, et al., "Fast and Accurate Neutral-Point Voltage Control under Balanced and Unbalanced Neutral-Point Voltage for Coupled Ten-Switch Three-Phase Three-Level Inverter,"IEEE Transactions on Industrial Electronics, vol. xx, no. xx, pp.xxxx, 2023.(Early Access)

[J3] Z. Xiao, Z. Li, Z. He,H. Wang, Y. Tang, et al., "Computer-Aided Time-Domain Operation and Design Optimization of Resonant Converters,"IEEE Journal of Emerging and Selected Topics in Power Electronics,vol.11 , no.4 , pp. 4164-4177, 2023.

[J4] W. Zhang,X. Zhu,H. Wang,Q. Li,X. Deng, et al., "A Three-Phase Five-Level Unidirectional Rectifier with Reduced Components ,"IEEE Transactions on Power Electronics, vol. 38, no. 11, pp.14088-14098, 2023.

[J5] J. Hu,Q. Xu, P. Guo,H. Wang,Z. He, et al., "Fixed Switching Frequency Hybrid Modulation with ZVS for Single-Phase Inverter,"IEEE Transactions on Power Electronics, vol. 38, no. 3, pp.3114-3126, 2023.

[J6] W. Tang,H. Wang*, X. Zhu, W. Mo, W. Gao, et al., "The Analysis of Current Sharing Effect for Two-Unit Paralleled Common Capcitor LLC Resonant Converter ,"IEEE Transactions on Industrial Electronics, vol. 70, no. 3, pp. 2178-2188, 2023.

[J7] W. Tang,H. Wang*, X. Zhu, W. Mo, W. Gao, et al.,"A Passive Current Sharing Method for Two-Phase Common Inductor LLC Resonant Converters and Mathematical Analysis of Current Sharing Effect,"IEEE Transactions on Power Electronics,vol. 37, no. 10, pp.12316-12326, 2022.

[J8] W. Zhang,H. Wang*, X. Zhu, H. Wang,X. Deng, et al., "A Three-Phase Five-Level Inverter with High DC Voltage Utilization and Self-Balancing Capacity of Floating Capacitor ,"IEEE Transactions on Power Electronics, vol. 37, no. 9, pp.10609-10709, 2022.

[J9] X. Deng, H. Wang*, X. Zhu, H. Wang, W. Zhang, et al., "Common-Mode Voltage Reduction and Neutral-Point Voltage Control Using Space Vector Modulation for Coupled Ten-switch Three-Phase Three-Level Inverter ,"IEEE Transactions on Power Electronics, vol. 37, no. 6, pp.6397-6411, 2022.

[J10] X. Zhu,H. Wang*, W. Zhang, H. Wang, X. Deng, et al., "A Passive Variable Switching Frequency SPWM Concept and Analysis for DCAC Converter ,"IEEE Transactions on Power Electronics, vol. 37, no. 5, pp. 5524-5534, 2022.

[J11] X. Zhu,H. Wang*, W. Zhang, H. Wang, X. Deng, et al., "A Single-Phase Five-Level Transformer-less PV Inverter for Leakage Current Reduction ,"IEEE Transactions on Industrial Electronics, vol. 69, no. 4, pp. 3546-3555, 2022.

[J12] J. Zhang, Z. He, Y. Liu, A. Luo,H. Wang,et al.,"High-Efficiency Push-Pull Resonant Converter Solution for Auxiliary Power Supply in 70-kV Isolated Applications,"IEEE Journal of Emerging and Selected Topics in Power Electronics,vol. 10, no.1 , pp. 632-647, 2022.

[J13] X. Zhu,H. Wang*, R. Sun, H. Wang, W. Zhang, et al., "Leakage Current Suppression of Single-Phase Five-Level Inverter for Transformer-less PV System ,"IEEE Transactions on Industrial Electronics, vol. 68, no. 11, pp. 10422-10435, 2021.

[J14] X. Wei,H. Wang*, A. Luo, Z. He, X. Zhu,et al., "Parallel Open-Circuit Fault Diagnosis Method of a Cascaded Full-Bridge NPC Inverter with Model Predictive Control,"IEEE Transactions on Industrial Electronics,vol. 68, no. 10, pp. 10180-10192, 2021.

[J15] X. Zhu,H. Wang*, X. Deng, W. Zhang, H. Wang, et al., "Coupled Three-Phase Converter Concept and Example: A Coupled Ten-Switch Three-Phase Three-Level Inverter,"IEEE Transactions on Power Electronics, vol. 36, no. 6, pp. 6457-6468, 2021.

[J16] X. Wei,H. Wang*, A. Luo, K. Wang, X. Zhu, et al., "Robust Multilayer Model Predictive Control for a Cascaded Full-Bridge NPC Class-D Amplifier with Low Complexity ,"IEEE Transactions on Industrial Electronics, vol. 68, no. 4, pp. 3390-3401, 2021.

[J17] J. Xiang, J. Xu,H. Wang, C. Li, G. Cui, et al., "Reconfigurable Line-Side Converter for DC Voltage Matching and Ripple Suppression in Multisystem Lcomotives,"IEEE Transactions on Power Electronics, vol. 36, no. 5, pp. 5832-5844, 2021.

[J18] X.Wei,H. Wang*, A. Luo, F. Ma, Z. Zhu, et al., "Parameter Identification and Lyapunov Function Based Adaptive Switched Control for Underwater Elctroacoustic Transduction System,"IEEE Transactions on Power Electronics, vol. 35, no. 6, pp. 6572-6585, 2020.

[J19] Z. Xiao, Z. He,H. Wang, A. Luo,Z. Shuai, et al., "General High-Frequency-Link Analysis and Application of Dual Active Bridge ,"IEEE Transactions on Power Electronics,vol. 35, no. 8, pp. 8673-8688, 2020.

[J20] Y. Chen,H. Wang*, Z. Hu, Y. Liu, X. Liu, et al., "LCLC Converter with Optimal Capacitor Utilization for Hold-Up Mode Operation ,"IEEE Transactions on Power Electronics,vol. 34, no. 3, pp. 2385-2396, 2019.

[J21] C. Tu, Q. Guo, F. Jiang,H. Wangand Z. Shuai, "A Comprehensive Study to Mitigate Voltage sags and Phase Jumps Using a Dynamic Voltage Restorer,"IEEE Journal of Emerging and Selected Topics in Power Electronics,vol.8 , no.2 , pp. 1490-1501, 2019.

[J22] H. Wang*, Y. Chen, Y. Qiu, P. Fang, Y. Zhang, L. Wang, et al., "Common Capacitor Multi-phase LLC Converter with Passive Current Sharing Ability,"IEEE Transactions on Power Electronics,vol. 33, no. 1, pp. 370-387, 2018.

[J23] H. Wang*, L. Kou, Y. F. Liu, and P. C. Sen, "A New Six-Switch Five-Level Active Neutral Point Clamped Inverter for PV Applications,"IEEE Transactions on Power Electronics,vol. 32, no. 9, pp. 6700-6715, 2017.

[J24] H. Wang*, Y. Chen, and Y. F. Liu, "A Passive-Impedance-Matching Technology to Achieve Automatic Current Sharing for Multi-Phase Resonant Converter,"IEEE Transactions on Power Electronics,vol. 32, no. 12, pp. 9191-9209, 2017.

[J25] H. Wang, Y. Chen, Y. F. Liu, J. Afsharian, and Z. Yang, "A Passive Current Sharing Method with Common Inductor Multi-Phase LLC Resonant Converter,"IEEE Transactions on Power Electronics,vol. 32, no. 9, pp. 6994-7010, 2017.

[J26] H. Wang*, L. Kou, Y. F. Liu, and P. Sen, "A Seven-Switch Five-Level Active-Neutral-Point-Clamped Converter and Its Optimal Modulation Strategy,"IEEE Transactions on Power Electronics,vol. 32, no. 7, pp. 5146-5161, 2017.

[J27] H. Wang*, Y. Chen, P. Fang, Y. F. Liu, J. Afsharian, and Z. Yang, "An LLC Converter Family With Auxiliary Switch for Hold-Up Mode Operation,"IEEE Transactions on Power Electronics,vol. 32, no. 6, pp. 4291-4306, 2017.

[J28] P. Fang, Y. j. Qiu,H. Wang*, and Y. F. Liu, "A Single-Stage Primary-Side-Controlled Off-line Flyback LED Driver With Ripple Cancellation,"IEEE Transactions on Power Electronics,vol. 32, no. 6, pp. 4700-4715, 2017.

[J29] Z. Hu, L. Wang,H. Wang, Y. Liu, and P. Sen, "An Accurate Design Algorithm for LLC Resonant Converters-Part I,"IEEE Transactions on Power Electronics,vol. 31, no. 8, pp. 5435-5447, 2016.

[J30] Y. Zhang, J. Liu, Z. Dong,H. Wang, and Y. Liu, "Dynamic Performance Improvement of Diode-capacitor Based High Step-up DC-DC Converter Through Right-half-plane Zero Elimination,"IEEE Transactions on Power Electronics,vol. 32, no. 8, pp. 6532-6543, 2017.

[J31] Y. Zhang, J. Liu, X. Li, X. Ma, S. Zhou,H. Wang, et al., "An Improved PWM Strategy for Z-source Inverter with Maximum Boost Capability and Minimum Switching Frequency,"IEEE Transactions on Power Electronics,vol. 33, no. 1, pp. 606-628, 2018.

[J32] B. White,H. Wang, Y.-F. Liu, and X. Liu, "An Average Current Modulation Method for Single-Stage LED Drivers With High Power Factor and Zero Low-Frequency Current Ripple,"IEEE Journal of Emerging and Selected Topics in Power Electronics,vol. 3, no. 3, pp. 714-731, 2015.

[J33] Y. Qiu, L. Wang,H. Wang,Y. LIu and P. Sen, "Bipolar Ripple Cancellation Method to Achieve Single-Stage Electrolytic-Capacitor-Less High-Power LED Driver,"IEEE Journal of Emerging and Selected Topics in Power Electronic,vol. 3, no. 3, pp. 698-713, 2015.

2.代表会议论文(APEC&ECCE行业顶级会议)

[C1] W. Mo, X. Yue, K. Li, X. Chen andH. Wang. A Two-Phase Three-Dimension Common Capacitor LLC Resonant Converter. Energy Conversion Congress and Exposition (ECCE) 2019, pp. 2725-2730.

[C2] B. Shen, Y. Chen,H. Wang, Y. Liu and P. C. Sen. High Efficiency Wide Input Voltage Range LCLC Resonant Converter Using Nonlinear Frequency Controller. Energy Conversion Congress and Exposition (ECCE) 2018, pp. 1435-1441.

[C3] H. Wang, Y. Chen, Y. Liu and P. C. Sen. A General Multi-Phase Coupled-Resonant-Tank Resonant Converter. Applied Power Electronics Conference and Exposition (APEC) 2018, pp. 2183-2190.

[C4] H. Wang, Y. Chen, B. Shen, Y. Liu and P. C. Sen. Two-Phase Three-Dimension Common Inductor LLC Resonant Converter with automatic Current Sharing. Applied Power Electronics Conference and Exposition (APEC) 2018, pp. 3575-3582.

[C5] Y. Chen,H. Wang, Y. Liu and S. Liu. Line Power Extension Method for Capacitor Reduction for AC-DC Application. Applied Power Electronics Conference and Exposition (APEC) 2018, pp. 2070-2076.

[C6] Y. Chen,H. Wang, Y. Liu, P. C. Sen and X. Liu. Improving SRC with Capacitor Bypassing Method for Universal AC-DC Adaptor. Applied Power Electronics Conference and Exposition (APEC) 2018, pp. 746-753.

[C7] H. Wang, Y. Chen, Y. Liu, Z. Yang, J. Afsharian and B. Gong. LLC Resonant Converter with Shared Power Switches and Dual Coupled Resonant Tanks to Achieve Automatic Current Sharing. Energy Conversion Congress and Exposition (ECCE) 2017.

[C8] Y. Chen,H. Wangand Y. Liu. Improved Hybrid Rectifier for 1-MHz LLC-based Universal AC-DC Adapter. Applied Power Electronics Conference and Exposition (APEC) 2017, pp. 23-30.

[C9] L. Kou,H. Wang, Y. Liu, P.C. Sen and Y. Zhang. DC-Link Capacitor Voltage Balancing Technique for Phase-Shifted PWM-based Seven-Switch Five-Level ANPC Inverter. Applied Power Electronics Conference and Exposition (APEC) 2017, pp. 671-678.

[C10] Y. Chen,H. Wang, Y. Liu, J. Afsharian and Z. Yang. Efficiency-wise Optimal Design Methodology of LCLC Converter for Wide Input Voltage Range Applications Energy Conversion Congress and Exposition (ECCE) 2016, pp. 1-8.

[C11] L. Kou,H. Wang, Y. Liu, P.C. Sen and Y. Zhang. Modulation Method for Single-Phase Six-Switch Five-Level ANPC Inverter. Energy Conversion Congress and Exposition (ECCE) 2016, pp. 1-8.

[C12] H. Wang, Y. Chen, Y. Liu and S. Liu. Automatic Sharing Method of Common Component Multi-Phase LLC Resonant Converter. Power Electronics and Motion Control Conference (IPEMC) 2016, pp. 3198-3205.

[C13] H. Wang, L. Kou, Y. Liu and P.C. Sen. New Low-Cost Five-Level Active Neutral-Point Clamped Converter. Applied Power Electronics Conference and Exposition (APEC) 2016, pp. 1489-1496.

[C14] H. Wang, L. Kou, Y. Liu and P.C. Sen. Seven-Switch Five-Level Active Neutral-Point Clamped Converter and Optimal Modulation Strategy. Applied Power Electronics Conference and Exposition (APEC) 2016, pp. 2278-2285

[C15] H. Wang, Y. Chen, Y. Liu, J. Afsharian and Z. Yang. A Common Capacitor Multi-Phase LLC Resonant Converter. Applied Power Electronics Conference and Exposition (APEC) 2016, pp. 2320-2327.

[C16] H. Wang, Y. Chen and Y. Liu. A Passive Impedance Matching Concept for Multiphase Resonant Converter. Applied Power Electronics Conference and Exposition (APEC) 2016, pp. 2304-2311.

[C17] H. Wang, Y. Chen, Y. Liu, J. Afsharian and Z. Yang. An Algorithm to Analyze Circulating Current for Multi-Phase Resonant Converter. Applied Power Electronics Conference and Exposition (APEC) 2016, pp. 899-906.

[C18] Y. Chen,H. Wang, Z. Hu, Y. Liu, J. Afsharian and Z. Yang. LLC Converter with Auxiliary Switch for Mode Operation. Applied Power Electronics Conference and Exposition (APEC) 2016, pp. 2312-2319.

[C19] H. Wang, Y. Liu and P.C. Sen. A Neutral Pont Clamped multilevel topology flow graph and space multilevel NPC topology. Energy Conversion Congress and Exposition (ECCE) 2015, pp. 3615-3621.

[C20] H. Wang, Y. Chen, Y. Liu, J. Afsharian and Z. Yang. A Common Inductor Multi-phase LLC resonant converter. Energy Conversion Congress and Exposition (ECCE) 2015, pp. 548-555.

[C21] H. Wang, Y. Chen, Y. Liu, J. Afsharian and Z. Yang. A new LLC converter family with synchronous rectifier (SR) adopting PWM control scheme for hold-up state. Energy Conversion Congress and Exposition (ECCE) 2015, pp. 5447-5453.

[C22] H. Wang, X. Pei, Y. Kang and Y. Liu. Short-circuit protection strategy for parallel three-phase three-wire inverter. Energy Conversion Congress and Exposition (ECCE) 2015, pp. 1736-1742.

[C23] Y. Chen,H. Wang, Z. Hu, Y. Liu, J. Afsharian and Z. Yang. LCLC resonant converter for hold up operation. Energy Conversion Congress and Exposition (ECCE) 2015, pp. 556-562.

[C24] T. Liu,H. Wang, Y. Liu, L. Wang, H. Danesh and D. Malcolm. A novel asymmetrical Three-Level (ATL) step-down converter for point-of-load (POL) application. Energy Conversion Congress and Exposition (ECCE) 2015, pp. 5096-5101.

[C25] Y. Qiu,H. Wang, Y. Liu. P. C. Sen. A simplified low-frequency ripple cancellation strategy using current sensing for LED driver. Energy Conversion Congress and Exposition (ECCE) 2015, pp. 5316-5322.

[C26] W. Brian,H. Wang, Y. Liu. An average current modulation method for single stage LED drivers with high power factor and zero low frequency current ripples. Energy Conversion Congress and Exposition (ECCE) 2015, pp. 3247-3252.

[C27] H. Wang, S. Burton, Y. Liu, P. C. Sen and J. M. Guerrero. A Systematic Method to Synthesize New Transformer less Full-bridge Grid-tied Inverters. Energy Conversion Congress and Exposition (ECCE) 2014,pp. 2760-2766.

[C28] H. Wang, X. Yue, X. Pei, Y. Kang. An Adaptive Dead-time Compensation Method for Sinusoidal PWM-controlled Voltage Source Inverter with Output LC Filter. Applied Power Electronics Conference and Exposition (APEC) 2011, pp. 778-785

五、授权发明专利

1.授权美国发明专利

[UP1] H. Wang, Y. Chen, Y. Liu. Power converter topologies and control methods for wide input and output voltage ranges. US10944329B2, 2021-03-09

[UP2] H. Wang, Y. Chen, Y. Liu, J. Afsharian, et al. Converter with hold-up operation. US10637363B2, 2020-04-28

[UP3] H. Wang, and Y. Liu. Single-phase five-level active clamping converter unit and converter. US10447173B2, 2019-10-15

[UP4] H. Wang, Y. Chen, Y. Liu, J. Afsharian, et al. Modular parallel techniquefor resonant converter. US10491123B2, 2019-11-26

[UP5] H. Wangand Y. Liu. Single-phase four-level inverter circuit topologyand three-phase four-level inverter circuit topology. US10389271B2, 2019-08-20

[UP6] H. Wang and Y. Liu. Five-level inverter topology with high voltage utilization ratio, US10312825B2, 2019-06-04

[UP7] H. Wang and Y. Liu. Half bridge inverter units and inverter thereof, US10277146B2, 2019-04-30

[UP8] H. Wangand Y. Liu. Hybrid Modulation for Multi-Level Converter. US09973108B2, 2018-5-15

[UP9] H. Wangand Y. Liu. Five-level topology units and inverter thereof. US10250159B2, 2018-5-08

[UP10] H. Wangand Y. Liu. Five-level topology units and inverter thereof. US09966875B2, 2018-5-08

[UP11] Y. Chen,H. Wang, Y. Liu, J. Afsharian, et al. Simplified hybrid PWM/PFM control method for SLLC converter, US11063520B2, 2021-07-13

[UP12] Y. Chen,H. Wang, Y. Liu, J. Afsharian, et al. 120-Hz ripple reduction with PIR controller for LLC converter, US10944317B2, 2021-03-09

[UP13] Y. Chen,H. Wang, Y. Liu, Z. Li, Hybrid Full Bridge-Voltage Doubler Rectifier and Single Stage LLC Converter Thereof, US10135359B2, 2018-11-20

[UP14] Y. Chen,H. Wang, Y. Liu, Z. Li, Hybrid Full Bridge-Voltage Doubler Rectifier and Single Stage LLC Converter Thereof, US10116233B2, 2018-10-30

2.授权中国发明专利

[CP1] 汪洪亮,孙仁杰,李情,岳秀梅,罗安,单相电流型逆变器、逆变电路及其控制方法,2022-02-22,中国,ZL202011131781.x

[CP2] 汪洪亮,田子翔,朱晓楠,岳秀梅,罗安,单相非隔离型逆变器及其控制方法,2022-02-25,中国,ZL202011242287.0

[CP3] 汪洪亮,朱晓楠,罗安,魏新伟,陈鑫跃,一种新型非隔离五电平逆变器,2021-10-26,中国,ZL201811303356.7

[CP4] 汪洪亮,邓孝军,朱晓楠,岳秀梅,十开关三相三电平逆变器及其控制方法,2021-10-26,中国,ZL202010004306.x

[CP5] 汪洪亮,李珍珍,岳秀梅,脉冲照明控制装置、照明设备和医疗显微镜,2021-10-26,中国,ZL202010470608.6

[CP6] 岳秀梅,陈鑫跃,莫文慧,李奎,孙仁杰,朱晓楠,张文元,王瀚哲,汪洪亮,双向SCC型LLC 谐振变换器及其中的电路、控制方法,2021-11-26,中国,ZL201911017858.8

[CP7] 汪洪亮,朱晓楠,孙仁杰,陈鑫跃,李奎,莫文慧,倍频式三电平逆变器及其使用、封装方法,2020-10-16,中国,ZL201910344127.8

[CP8] 汪洪亮,朱晓楠,罗安,李奎,孙仁杰,一种抑制系统漏电流非隔离型五电平逆变器,中国,ZL 201811303336.X

[CP9] 陈燕东,郭健,罗安,欧阳红林,伍文华,周乐明,何志兴,徐千鸣,戴瑜兴,汪洪亮,李民英,一种兼具谐波补偿的负荷虚拟同步机控制装置及方法,2021-07-16,中国,ZL 201910571234.4

[CP10] 汪洪亮,陈扬,刘雁飞等,谐振转换器的模块并联技术,2020-03-24,中国,ZL 201680053680.0

[CP11] 陈扬,汪洪亮,刘雁飞等,利用PIR控制的LLC 转换器及控制LLC转换器的方法,2022-02-01,中国,ZL201880005249.8

[CP12] 汪洪亮,陈扬,刘雁飞等,具有保持操作的转换器,2020-05-12,中国,ZL 201680053678.3

[CP13] 汪洪亮,刘雁飞,五电平逆变器拓扑电路及三相五电平逆变器拓扑电路,2020-06-16,中国,ZL 201680064411.4

[CP14] 汪洪亮,刘雁飞,多电平逆变器混合调制策略,2020-02-21,中国,ZL 2017810737197.0

[CP15] 汪洪亮,刘雁飞,多电平逆变器拓扑电路,2020-01-24,中国,ZL 201680031414.8

[CP16] 汪洪亮,刘雁飞,单相五电平有源嵌位变换器单元及变换器,中国,ZL 201780003877.8

[CP17] 汪洪亮,刘雁飞,单相四电平逆变器拓扑电路及三相四电平逆变器拓扑电路,中国,ZL 201680064399.7

[CP18] 陈杨,汪洪亮,刘雁飞,李湛明,傅玥,混合式全桥倍压整流器及其单级LLC转换器,2019-12-17,中国,ZL 201810143791.1

[CP19] 汪洪亮,刘雁飞,半桥逆变器单元及逆变器,2019-11-26,中国,ZL 201680003955.X

[CP20] 汪洪亮,刘雁飞,高电压增益的五电平半桥逆变器拓扑电路,2019-10-29,中国,ZL 201680045359.8

[CP21] 汪洪亮,刘雁飞,五电平拓扑单元及五电平逆变器,2019-05-24,中国,ZL 201680003961.5

[CP22] 汪洪亮,宋炀等,一种五电平逆变器及其漏电流控制方法,2016-05-25,中国,ZL201310080174.9

[CP23] 汪洪亮,宋炀,一种五电平逆变器,2015-07-29,中国,ZL201310095135.6

[CP24] 汪洪亮,赵为等,一种五电平逆变拓扑单元及五电平逆变器,2015-02-18,中国,ZL201210266306.2

[CP25] 汪洪亮,一种五电平逆变拓扑单元及五电平逆变器,2014-09-17,中国,ZL201210096353.7

[CP26] 汪洪亮,赵为等,一种五电平逆变拓扑单元及五电平逆变器,2014-07-16,中国,ZL201210097639.7

[CP27] 汪洪亮,陶磊等,四电平拓扑单元及其应用电路,2014-06-25,中国,ZL201210038748.1

[CP28] 汪洪亮,开关管单元以及逆变器及具有该逆变器的发电系统,2014-06-11,中国,ZL 201210107004.0

[CP29] 汪洪亮,赵为,一种单相逆变器,2014-06-11,中国,ZL 201110452074.5

[CP30] 汪洪亮,胡兵等,一种双Buck电路的调制方法及装置,2014-01-29,中国,ZL 201110379531.2

[CP31] 汪洪亮,岳秀梅等,一种单相半桥五电平逆变器及其应用电路,2014-01-29,中国,ZL201110314754.0

[CP32] 汪洪亮,开关管单元及五电平逆变器及具有该逆变器的发电系统,2015-01-07,中国,ZL201210107486.x

[CP33] 汪洪亮,宋炀,逆变单元及具有该逆变单元的五电平逆变器,2014-12-03,中国,ZL201210269189.5

[CP34] 汪洪亮,宋炀,逆变单元及具有该逆变单元的五电平逆变器,2015-06-24,中国,ZL201210272586.8

[CP35] 汪洪亮,傅立秦,倪华,赵为,一种单相半桥五电平逆变器及其应用电路,2014-06-25,中国,ZL201110314755.5

[CP36] 汪洪亮,曹仁贤,倪华,傅立秦,一种单相半桥五电平逆变器及其应用电路,2014-03-26,中国,ZL201110314782.2

[CP37] 汪洪亮,姚丹,宋炀,一种三相四线制三电平逆变器,2014-09-17,中国,ZL201110326742.X

[CP38] 汪洪亮,曹仁贤,倪华,傅立秦,一种单相半桥五电平逆变器及其应用电路,2014-03-26,中国,ZL201110314784.1

[CP39] 汪洪亮,赵为,傅立秦,倪华,一种单相半桥五电平逆变器及其应用电路,2013-12-25,中国,ZL201110331918.0

[CP40] 汪洪亮,倪华,余鸿,张彦虎,姚丹,一种单相全桥三电平逆变器及一种三相三电平逆变器,2014-07-16,中国,ZL201110326567.4

[CP41] 汪洪亮,一种逆变器及其在三相系统中的应用电路,2014-07-16,中国,ZL 201210084243.9

[CP42] 汪洪亮,一种五电平逆变拓扑单元及五电平逆变器,2014-08-06,中国,ZL201210096363.0

[CP43] 汪洪亮,陶磊,倪华,岳秀梅,宋炀,四电平拓扑单元及其应用电路,2014-06-25,中国,ZL201210038505.8

[CP44] 汪洪亮,陶磊,倪华,岳秀梅,宋炀,四电平拓扑单元及其应用电路,2014-06-25,中国,ZL201210038747.7

[CP45] 汪洪亮,逆变器及其在三相系统中的应用电路,2014-07-16,中国,ZL201210083617.5

[CP46] 汪洪亮,赵为,一种单相逆变器,2014-06-25,中国,ZL 201110453131.1

[CP47] 汪洪亮,陶磊,倪华,岳秀梅,宋炀,四电平拓扑单元及其应用电路.2014-06-25,中国,ZL 201210038799.4

[CP48] 汪洪亮,陶磊,倪华,岳秀梅,宋炀,四电平拓扑单元及其应用电路,2014-06-25,中国,ZL 201210038796.0

[CP49] 汪洪亮,赵为,一种单相逆变器,2014-05-21,中国,ZL 201110453104.4

[CP50] 汪洪亮,胡兵,岳秀梅,宋炀,一种双Buck电路的调制方法及装置,2014-03-26,中国,ZL201110379302.0

[CP51] 汪洪亮,赵为,一种单相逆变器,2014-08-06,中国,ZL 201110452713.8

[CP52] 汪洪亮,赵为,一种单相逆变器,2014-09-17,中国,ZL201110452095.7

[CP53] 汪洪亮,赵为,一种七电平电路、并网逆变器及其调制方法和装置,2014-09-17,中国,ZL 201210192628.7

[CP54] 汪洪亮,赵为,一种七电平电路、并网逆变器及其调制方法和装置,2014-08-06,中国,ZL 201210192684.0

[CP55] 汪洪亮,赵为,一种多电平电路、并网逆变器及其调制方法,2014-12-03,中国,ZL201210193018.9

[CP56] 汪洪亮,赵为,胡兵,一种四电平逆变拓扑单元及四电平逆变器,2014-12-03,中国,ZL 201210255932.1

[CP57] 汪洪亮,赵为,胡兵,一种四电平逆变拓扑单元及四电平逆变器,2015-02-18,中国,ZL 201210256513.X

[CP58] 宋炀,汪洪亮,一种七电平逆变拓扑单元及七电平逆变器,2014-09-17,中国,ZL201210108900.9

[CP59] 王航,傅立秦,吴田进,汪洪亮,余鸿,倪华,一种逆变器过热保护装置及其过热保护方法,2014-07-16,中国,ZL201210193010.2

[CP60] 陶磊,冯纪归,王鼎奕,吴迎丰,汪洪亮,一种接触器线包的供电电路.2014-09-17,中国,ZL 201210237788.9

六、部分科研项目

[P1] 湖南省技术攻关“揭榜挂帅”项目,2022-2024

[P2] 高频感应加热电源模块研发,企业横向项目,2022-2024

[P3] 电网公司湖南分公司咨询项目,2021-2022

[P4] 长沙市重点基金项目,2021-2022

[P5] 湖南省杰出青年基金项目,2019-2023

[P6] 国家级海外高层次人才青年项目,2018-2021

[P7] 中央高校基本研究业务项目,2018-2021

[P8] 湖湘人才集聚工程创新人才项目,2018-2021

[P9] 国家自然科学基金面上项目,耦合谐振网络型多路谐振变换器拓扑、无源均流机理和控制技术研究,2020-2023

[P10] 国家自然科学基金重点项目,大功率电声高效换能机理与控制方法研究,2/10,2019-2023(项目负责人:罗安院士)

[P11] Technology Development for High Efficiency LLC DC-DC Converter for Server Rectifier Application with Digital Control and MultiPhase Interleaving,加拿大自然科学和工程研究基金CRD,CRDPJ 436855-12,2/7,2013(PI: Yan-Fei Liu院士)

[P12] Technology Development for DC-DC Integrated Point of Load (POL) Power Supplies,加拿大自然科学和工程研究基金CRD,CRDPJ 461335-12,2/8,2014(PI: Yan-Fei Liu院士)

[P13] A New Power Architecture with Wireless Feedback Control for Next Generation Server Power System,加拿大自然科学和工程研究基金Discovery Grant, RGPIN-2014-05693,3/8,2014(PI: Yan-Fei Liu院士)

[P14 Feasibility Study of Using GaN FET for Miniaturized Notebook Computer Power Adaptors,加拿大自然科学和工程研究基金Engage,EGP 486069-15,2/4,2015(PI: Yan-Fei Liu院士)

[P15] Design of a World's Smallest Notebook Computer Power Adaptor With USB Quick Charger,加拿大自然科学和工程研究基金Engage Plus,EGP2 500132-16,2016(PI: Yan-Fei Liu院士)

[P16] High Performance Data Center Power Supply Design Using GaN Devices,加拿大自然科学和工程研究基金Engage,EGP 505450-16,2017(PI: Yan-Fei Liu院士)

[P17] High Performance Low Cost High Power LED Driver with Power Factor Correction,加拿大自然科学和工程研究基金-Idea to Inovation,I2IPJ 486882-15,2016(PI: Yan-Fei Liu院士)

[P18] Technology Development for 48V Input Voltage Regulator for Next Generation Data Center Power Systems,加拿大自然科学和工程研究基金Engage,CRDPJ 501420-16,2/9,2017(PI: Yan-Fei Liu院士)

[P19] Technology Development of an Integrated GaN Switch Power Module for Toterm-Pole Bridgeless Boost Converter,加拿大自然科学和工程研究基金CRD,CRDPJ 507049-16,2/6,2017(PI: Yan-Fei Liu院士)

[P20] A New Power Architecture with Wireless Feedback Control for Next Generation Server Power System,加拿大自然科学和工程研究基金Discovery Grant Accelerator Supplements, RGPAS-462-2014,3/6,2014(PI: Yan-Fei Liu院士)

七、讲授课程

[L1]《电气工程导论》本科课程

[L2]《电力电子基础》本科课程

[L3]《新能源发电》本科课程

[L4]《电力电子装置设计》本科课程

八、学生获奖

[2022] 研究生能源装备创新设计大赛全国二等奖

[2022] IEEE PEAS2022优秀论文奖

[2022] 研究生电子竞赛华中区一等奖

[2021] 研究生国家奖学金

[2021] IEEE PEAS2021优秀论文奖

[2021] 研究生电子竞赛全国总决赛二等奖、全国总决赛三等奖、华中区一等奖(2次)、湖南省一等奖(2次)、湖南省二等奖

[2021] 华为武长区“硬件精英挑战赛”冠军

[2020] 研究生电子竞赛全国总决赛一等奖、优秀指导老师奖、华中区一等奖和湖南省一等+三等奖

[2020] 湖南大学本科优秀毕业设计论文

[2019] 中国“互联网+”大学生创新创业大赛银奖

[2019] 湖南大学新聘教师微格演练教学赛一等奖

九、研究生就业指导或协助指导

[2024] 阳光电源合肥、上能电气无锡、固德威苏州、艾罗杭州、安徽电网、河南电网、河北电网、南洋理工大学新加坡

[2023] 华为东莞、台达上海、科华数据厦门(2人)、固德威苏州、国轩高科合肥、科威尔合肥、重庆电网、蚌埠学院

[2022] 华为武汉(2人)、华为西安、浙江电网、安徽电网

[2021] 太原理工大学、华为东莞、华为西安、古瑞瓦特深圳、湖南电网、内蒙古电网

[2020] 山东电网

[2019] 中兴长沙

十、部分研发装备和平台

践行罗老师课题组“装备改变品质、品质影响世界”理念,瞄准“有且仅有、降本增效”根本任务,自主开发较为完备验证平台和工程应用装备;“以创业之心、行科研之路”,以培养既是工程师又是科学家的优秀复合人才为目标,为中国电能科技之原创而科研,欢迎电气、电子、自动化、测控等优秀学子