【朱晓维导师】招生“信息科学与工程学院”研究生介绍
朱晓维
教授
硕,博士生导师
男
信息科学与工程学院
电磁场与微波技术
微波毫米波电路与系统,无线通信的射频技术
xwzhu@seu.edu.cn
2003年5月-至今,东南大学,信息学院,教授
1997年5月-2003年4月,东南大学,信息学院,副教授;
1992年5月-1997年4月,东南大学无线电系,毫米波国家重点实验室工程师;
1984年4月-1992年4月,南京工学院(现东南大学)无线电系任职;
从事微波毫米波领域的教学与科研有三十余年的时间,在微波毫米波电路与系统、功率放大器及芯片、以及大规模MIMO天线阵列研究方面具有深厚的经验和积累,在过去的研究中取得了出色的研究成果。尤其是近几年承担了一系列相关的国家重大项目,包括国家自然科学基金项目、国家重点研发计划项目、863重大项目、国家科技重大专项等,从宽带高效率功率放大器及芯片、功率放大器数字预失真技术,到高速宽带毫米波收发信机、大规模毫米波MIMO天线阵列等方面都进行了深入的理论和实践研究。
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科研项目
1、国家重点研发计划重点专项,非对称毫米波大规模MIMO阵列实验样机及系统验证(2020YFB1804905)
2、自然科学基金项目,氮化镓复阻抗匹配Doherty全集成毫米波功率放大器芯片与天线一体化片上集成(62171129)
3、江苏省重点研发计划(产业前瞻与关键核心技术),氮化镓毫米波DPA单片设计及关键技术研究(BE2020005-4)
4、自然科学基金重点项目,宽频段全数字发信机设计理论与关键技术(61631021)
5、自然科学基金项目,Q波段高速宽带无线通信发信机的关键技术研究(61671149)
6、自然科学基金国际合作与交流项目(中国-爱尔兰),面向无人机高速无线通信的高效率自适应毫米波收发信机研究(61861136002)
7、国家科技重大专项项目,高效率、线性宽带功放模块(2010ZX03007-003-02)
8、863计划重点项目,软件可配置超高吞吐率5G基站试验平台研究开发(2015AA01A702)
9、国家科技重大专项项目,多模终端射频功率放大器芯片测试模块(2013ZX03001017-003)
10、863计划重点项目,下一代广播电视网无线宽带接入技术研究(2011AA01A105)
11、863计划重点项目,动态频谱资源共享宽带无线通信系统验证网络开发(2009AA011801)
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研究成果
发表学术论文:
(1) Liu, Rui-Jia; Zhu, Xiao-Wei*; Xia, Jing; Zhao, Zi-Ming; Dong, Qin; Chen, Peng; Zhang, Lei; Jiang, Xin; Yu, Chao; Hong, Wei; A 24-28 GHz GaN MMIC Synchronous Doherty Power Amplifier with Enhanced Load-Modulation for 5G Mm-Wave Applications, IEEE Transactions on Microwave Theory and Techniques, (Accept).
(2) Liu, Rui-Jia; Zhu, Xiao-Wei*; Xia, Jing; Chen, Peng; Yu, Chao; Wu, Xiao-Liang; Chen, Xiang; Highly Efficient Wideband GaN MMIC Doherty Power Amplifier Considering the Output Capacitor Influence of the Peaking Transistor in Class-C Operation, IEEE Transactions on Circuits and Systems I: Regular Papers, 2022, 69(5): 1932-1942.
(3) Liu, Rui-Jia; Zhu, Xiao-Wei*; Xia, Jing; Xia, Dong; Zhang, Lei; Yu, Chao; Design Methodology Using Single Resonate Block for Harmonic Impedance Matching in GaN MMIC Doherty Amplifier, IEEE Microwave and Wireless Components Letters, 2021, 31(4): 397-400.
(4) Liu, Rui-Jia; Zhu, Xiao-Wei*; Xia, Jing; Zhang, Lei; Yu, Chao; Teng, Dan-Dan; Li, Hao-Tian; A Bandwidth-Extended Single-Input Switchable Doherty Power Amplifier Based on Dual Compensating Reactance with Adjusted Drain Voltage, IET Microwaves, Antennas & Propagation, 2021, 15(12): 1577-1593.
(5) Liu, Rui-Jia; Zhu, Xiao-Wei*; Xia, Jing; Jiang, Yi-Fan; Chen, Peng; Yu, Chao; Ge, Chuan; Modified load-modulation network with two π-type high-pass equivalent λ/4 lines for wideband compact GaN MMIC Doherty power amplifier design, Electronics Letters, 2021, 57(16):639-641.
(6) Zhao, Zi-Ming; Xiao-Wei *; Zhang, Lei; Design of wideband high efficiency power amplifier based on continuous inverse modes, International Journal of RF and Microwave Computer-Aided Engineering, 2021, 31(8): 1-9.
(7) Zhao, Zi-Ming; Xiao-Wei *; Zhang, Lei; A broadband GaN HEMT power amplifier based on feeding capacitance compensation method, International Journal of RF and Microwave Computer-Aided Engineering, 2021, 31(3): 1–10.
(8) 赵子明;朱晓维*;李浩天;包络跟踪的J类功率放大器设计.微波学报, 2021, 37(06):30-34.
(9) Song, Wenliang; Zhu, Xiao-Wei*; Wang, Lei; Hong, Wei; Simple Structure E-plane Decoupled Millimeter Wave Antenna Based on Current Cancellation Model, IEEE Transactions on Antennas and Propagation, (Accept).
(10) Yang, Xian-Long; Zhu, Xiao-Wei*; Wang, Xiang; Dual-Band Substrate Integrated Waveguide Filters With Perturbed Circular Cavity, IEEE Microwave and Wireless Components Letters, 2022, 32(4): 293-296.
(11) Yang, Xian-Long; Zhu, Xiao-Wei*; Wang; Xiang, Ge, Chuan; Q-band dual-mode substrate integrated waveguide filter and diplexer with circular cavity, International Journal of RF and Microwave Computer-Aided Engineering, 2021, 31(32): 1-12.
(12) Zhang, Bao-Song; Zhu, Xiao-Wei*; Yang, Xian-Long, Liu, Xin; A sixth-order SIW bandpass filter based on combining single‐and dual‐mode cavities with high selectivity at Ka-band, International Journal of RF and Microwave Computer-Aided Engineering, 2022, e23166.
(13) Luo, Qing; Zhu, Xiao-Wei*; Yu, Chao; Teng, Dan-Dan; Wang, Xiaoyu; Chu, Chenhao; Hong, Wei; Zhu, Anding; Linearization Angle Widened Digital Predistortion for 5G MIMO Beamforming Transmitters, IEEE Transactions on Microwave Theory and Techniques, 2021, 69(11): 5008-5020.
(14) Wang, Xiang; Zhu, Xiao Wei*; Jiang, Zhi Hao; Hao, Zhang Cheng; Wu, Yi Wen; Hong, Wei; Analysis of Eighth-Mode Substrate-Integrated Waveguide Cavity and Flexible Filter Design, IEEE Transactions on Microwave Theory and Techniques, 2019, 67(7):2701-2712.
(15) Li, Chenfeng; Zhu, Xiao Wei*; Liu, Pengfei; Yu, Chao; Hong, Wei; A Metasurface-Based Multilayer Wideband Circularly Polarized Patch Antenna Array With a Parallel Feeding Network for Q-Band, IEEE Antennas and Wireless Propagation Letters, 2019, 18(6):1208-1212.
(16) Luo, Qing; Zhu, Xiao-Wei*; Yu, Chao; Hong, Wei; Single-Receiver Over-the-Air Digital Predistortion for Massive MIMO Transmitters With Antenna Crosstalk, IEEE Transactions on Microwave Theory and Techniques, 2020,68(1):300-314.
(17) Sun, Honglei; Zhu, Xiao-Wei*; Shi, Xuesong; Liu, Ruijia; Measurement method for characterizing a millimeter-wave traveling-wave power combiner using in-situ test accessories, International Journal of Microwave, 2020, 12(1):48-57.
(18) Sun, Honglei; Zhu, Xiao-Wei*; Liu, Ruijia; Jiang, Zhi Hao; mm-Wave Waveguide Traveling-Wave Power Combiner Design Using an Equivalent Circuit Model, IEEE Access, 2019, 7:88327-88337.
(19) Yang, Chunfeng; Zhu, Xiao-Wei*; Liu, Pengfei; Hong, Wei; Feng, Hailiang; Shi, Yuhai; A Circularly Polarized Horn Antenna Based on an FSS Polarization Converter, IEEE Antennas and Wireless Propagation Letters, 2020,19(2):277-281.
(20) Liu, Pengfei; Zhu, Xiao-Wei*; Zhang, Yan; Jiang, Zhi Hao; Wang, Xiang; Hong, Wei; Le, Trong Hieu; A Novel E-plane-Focused Cylindrical Luneburg Lens Loaded With Metal Grids for Sidelobe Level Reduction, IEEE Transactions on Antennas and Propagation, 2020, 68(2):736-744.
(21) Liu, Pengfei; Zhu, Xiao-Wei*; Zhang, Yan; Wang, Xiang; Yang, Chunfeng; Jiang, Zhi Hao; Patch Antenna Loaded With Paired Shorting Pins and H-Shaped Slot for 28/38 GHz Dual-Band MIMO Applications, IEEE Access, 2020,8:23705-23712.
(22) Wang, Xiang; Zhu, Xiao-Wei*; Compact and Low-Phase-Noise Oscillator Employing Multilayer Sixteenth-Mode Substrate-Integrated Waveguide Filter for 5G Applications, IEEE Transactions on Components, Packaging and Manufacturing Technology, 2019, 9(9):1863-1871.
(23) Liu, Pengfei; Zhu, Xiao-Wei*; Jiang, Zhi Hao; Zhang, Yan; Tang, Hongjun; Hong, Wei; A Compact Single-layer Q-band Tapered Slot Antenna Array with Phase-shifting Inductive Windows for End-fire Patterns, IEEE Transactions on Antennas and Propagation, 2018, 67(1):169-178.
(24) Wang, Xiang; Zhu, Xiao-Wei*; Tian, Ling; Liu, Pengfei; Hong, Wei; Zhu, Anding; Design and Experiment of Filtering Power Divider Based on Shielded HMSIW/QMSIW Technology for 5G Wireless Applications, IEEE Access, 2019, 7:72411-72419.
(25) Wang, Xiang; Zhu, Xiao-Wei*; An X-band push-push oscillator with parallel feedback configuration designed by microstrip balanced bandpass filter, International Journal of RF and Microwave Computer-Aided Engineering, 2019, 29(5).
(26) Liu, Pengfei; Zhu, Xiao-Wei*; Zhang, Yan; Li, Ji; Jiang, Zhi Hao; 3D-printed cylindrical Luneburg lens antenna for millimeter-wave applications, International Journal of RF and Microwave Computer-Aided Engineering, 2019, 30(1).
(27) 李垚; 朱晓维*; 一种2.8~6GHz单片双平衡无源混频器, 微波学报, 2019, 36(6):26-30.
(28) Meng, Fan; Yu, Chao; Zhu, Xiao-Wei*; Minimum pulse reservation-based switching frequency reduction for wideband supply modulated power amplifiers, Electronics Letters, 2018, 54(16):1009-1011.
(29) Meng, Fan; Zhu, Xiao-Wei*; Xia, Jing; Yu, Chao; A postmatching concurrent dual-band Doherty power amplifier with enhanced bandwidth, International Journal of RF and Microwave Computer-Aided Engineering, 2018, 28(8).
(30) Wang, Xiang; Zhu, Xiao-Wei*; Compact and wideband filters based on slot line-perturbed quarter mode circular cavity substrate integrated waveguide, International Journal of RF and Microwave Computer-Aided Engineering,2018, 28(9).
(31) Li, Yao; Zhu, Xiao-Wei; Tian, Ling; Liu, Rui-Jia; Compact 2-18 GHz on-chip balun based on centrosymmetric spiral transformers, Electronics Letters, 2020, 56(5):229-230.
(32) Li, Yao; Zhu, Xiao-Wei; Tian, Ling; Liu, Rui-Jia; 1.34-to-16.37 GHz on-chip balun based on asymmetric stacked spiral transformers, Electronics Letters, 2020,56(3):121-122.
(33) Li, Yao; Zhu, Xiao-Wei; Liu, Rui-Jia; Tian, Ling; Systematic design of 7-to-40-GHz on-chip mixer based on optimal impedance deviation coefficient, International Journal of RF and Microwave Computer-Aided Engineering, 2020, 30(5).
(34) Sun, Yinjin; Zhu, Xiao-Wei*; Zhai, Jianfeng; Zhang, Lei; Meng, Fan; Highly Efficient Concurrent Power Amplifier with Controllable Modes, IEEE Transactions on Microwave Theory and Techniques, 2015, 63(12): 4051-4060.
(35) Ge, Chuan; Zhu, Xiao-Wei; Jiang, Xin; Xu, Xiao-Jie; Analysis of Weakly Nonlinear Effect for Varactor-Tuned Bandpass Filter, IEEE Transactions on Microwave Theory and Techniques, 2015, 63(11): 3641-3650.
(36) Sun, Yinjin; Zhu, Xiao-Wei*; Zhang, Lei; Meng, Fan; Simple Synthesized Harmonic Matching Strategy in Broadband Power Amplifier Design, Microwave Journal, 2015, 58(10): 88-98.
(37) Chuan Ge, Xiao-Wei Zhu, Xin Jiang, Xiao-Jie Xu, A General Synthesis Approach of Coupling Matrix With Arbitrary Reference Impedances, IEEE Microwave and Wireless Components Letters, 2015, 25(6): 349-351.
(38) Sun, Yinjin; Zhu, Xiao-Wei*; Broadband Continuous Class-F^-1 Amplifier With Modified Harmonic-Controlled Network for Advanced Long Term Evolution Application, IEEE Microwave Wireless Components Letter, 2015, 25(4): 250-252.
(39) Ge, Chuan; Zhu, Xiao-Wei; Zhu, Wen-Cui; Jiang, Xin; Synthesis Design of Box-Section Bandpass Filter With Hybrid and Dual-Mode Resonators, IEEE Microwave Wireless Components Letters, 2014, 24(12): 836-838.
(40) Xia, Jing; Zhu, Xiao-Wei*; Zhang, Lei; A Linearized 2-3.5 GHz Highly Efficient Harmonic-tuned Power Amplifier Exploiting Stepped-impedance Filtering Matching Network,IEEE Microwave Wireless Components Letters, 2014, 24(9): 602-604.
(41) Ge, Chuan; Zhu, Xiao-Wei; Highly-Selective Tunable Bandpass Filter With Two-Path Mixed Coupling,IEEE Microwave Wireless Components Letters, 2014, 24(7): 451-453.
授权发明专利:
(1) 朱晓维;杨献龙;王翔;基于通孔扰动的高次模基片集成波导园形腔滤波器,2021-09-07,中国,2020 1 0166729. 1
(2) 朱晓维; 孙洪雷 ; 一种基于波导电感性窗的Doherty 功率合成器, 2021-6-25, 中国, 201810668904. X
(3) 朱晓维; 王翔 ; 一种基于开槽结构的四分之一模基片集成波导滤波器, 2019-9-10, 中国, 201810488 453.1
(4) 朱晓维; 夏景; 张雷; 田玲; 翟建锋; 孙引进 ; 一种可降低三阶互调的多赫尔蒂功率放大器及其调试 方法, 2016-3-2, 中国, ZL201210593367.X
(5) 朱晓维; 孙引进; 张雷; 孟凡 ; 一种宽带高效率的连续逆F类功率放大器及其设计方法, 2017-7-28, 中国, ZL201510092406.1
(6) 朱晓维; 盖川 ; 一种基于工字形双模谐振器的高选择性带通滤波器, 2015-5-13, 中国, ZL201310552 948.3
(7) 洪伟; 刘鹏飞; 朱晓维 ; 一种适用于5G毫米波通信的高增益渐变缝隙阵列天线, 2019-9-10, 中国, Z L201710997579.7
(8) 洪伟; 刘鹏飞; 朱晓维 ; 一种适用于5G毫米波通信的紧凑型渐变缝隙阵列, 2019-9-10, 中国, ZL201 710997513.8
(9) 朱晓维; 黎重孝; 盖川 ; 基于二阶混合谐振器的带通滤波器, 2018-2-6, 中国, ZL201510763381.3
(10)朱晓维; 游长江; 柳靖; 张晓东 ; 抗干扰射频可重构收发信机, 2014-4-16, 中国, ZL201110101850 .7
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