电子科学与工程学院


 
导师代码: 11304
导师姓名: 游飞
性    别:
特    称:
职    称: 副教授
学    位: 博士
属    性: 专职
电子邮件: feiyou@uestc.edu.cn

学术经历:   2004年6月毕业于电子科技大学信息对抗技术专业获学士学位,于2009年12月毕业于电子科技大学电路与系统专业获博士学位。2009年12月进入电子科技大学电子工程学院集成电路与系统系工作,于2012年被评为副教授。2015-2016年在英国Cardiff University, Center of High Frequency Engineering做访问学者。2019年6月增列为博导。IEEE Senior Member。 2020硕士、博士研究生招生的主要研究方向: 1. 高效率功率放大器设计理论 2. 压缩感知接收机与现实环境建模 3. RF CMOS IC关键电路设计与实现 4. 5G毫米波发射机关键技术研究 5. 数字功率放大器研究 6. 超宽带线性化技术 7. GaN/InP MMIC设计

个人简介:   自2009年12月进入电子科技大学电子工程学院集成电路与系统系工作,主要研究方向包括:高效率微波固态功率放大器,宽带高效率电源调制器,下一代移动通信发射机和射频微波集成电路设计等。授权了9项发明专利,已发表10余篇第一作者SCI文章,5篇发表在IEEE Transactions on Microwave Theory and Techniques期刊上,2篇发表在功率电子领域顶级期刊IEEE TPE/TIE上。是IEEE Trans. on TMTT/Circuits and Systems I/II/TIE/Access/TPE,IEEE Trans. on Biomedical Circuits and Systems等国际期刊的审稿人。深入开展了高效率功率放大器的研究,对E类功放进行了理论研究和实验验证,取得了较为系统的理论和实践成果,撰写的博士学位论文《E类功率放大器研究》获2011年度“四川省优秀博士学位论文”。科研方面,主持了国家自然科学青年基金项目“全局优化的准线性高效率微波固态功率放大器研究”,面上项目“动态有源负载优化与瞬时包络幅度分段的宽带高效率发射机研究”。主持和参与了中电13所,29所,华为,富士通研发中心等多项横向课题的研究。

科研项目:   主要项目: 1. 国家重点项目,“高线性高效率发射芯片研究”,主持,2020-2023; 2. 国家重点研发计划,“兼容C波段的毫米波一体化射频前端系统关键技术”,主持,2019-2023; 3. 国家自然科学基金面上项目,“动态有源负载优化与瞬时包络幅度分段的宽带高效率发射机研究”,主持,2015-2019; 4. 国家自然科学基金青年项目,“全局优化的准线性高效率微波固态功率放大器研究”,主持,2011-2013; 5. 华为技术有限公司,“线性化性能研究合作项目”,主持,2020-2021; 6. 华为技术有限公司,“多通道低采样率PA线性化算法研究”,主持,2019-2020; 7. 华为技术有限公司,“压缩感知样机研究”,主持,2013-2014; 8. 华为技术有限公司,“高功率、高效率数字功放技术研究合作项目”,主持,2018-2019; 9. 华为技术有限公司,“超宽带高效率PA新架构研究——基于包络幅度分段的宽带高效率功放结构”,主持,2014-2014; 10. 重点实验室项目,“晶体管模型参数提取及参数对整流效率影响研究”,主持,2018-2020; 11. 重点实验室项目,“微波无线能量传输功率放大器效率增强技术研究”,主持,2019-2020;

研究成果:   2020年 [1]C. Li, F. You, J. Peng, J. Wang and M. F. H. S. He, "Co-design of Matching Sub-networks to Realize Broadband Symmetrical Doherty with Configurable Back-off Region," in IEEE Transactions on Circuits and Systems II: Express Briefs. [2] C. Li, F. You, J. Wang, J. Huang and S. He, "Third-order complex delta-sigma modulator with arbitrary poles and zeros placement," in Electronics Letters, vol. 56, no. 2, pp. 71-73, 23 01 2020. [3] P. Jia, F. You and S. He, "A 1.8–3.4-GHz Bandwidth-Improved Reconfigurable Mode Doherty Power Amplifier Utilizing Switches," in IEEE Microwave and Wireless Components Letters, vol. 30, no. 1, pp. 102-105, Jan. 2020. [4] Haider, MF (Haider, Muhammad Furqan); You, F (You, Fei); Shi, WM (Shi, Weimin); Ahmad, S (Ahmad, Shakeel); Qi, T (Qi, Tian), “Broadband power amplifier using hairpin bandpass filter matching network“,in Electronics Letters, Volume: 56, Issue: 4 ,Pages: 182-+ , FEB 20 2020 2019年 [1] F. You and J. Benedikt, "An Optimized-Load-Impedance Calculation and Mining Method Based on I–V Curves: Using Broadband Class-E Power Amplifier as Example," IEEE Transactions on Industrial Electronics, vol. 66, pp. 5254-5263, 2019. [2] F. You, S. Dong, Y. Wang, X. Yu, and C. Li, "Design Method of Self-Driving RF-DC Rectifier Based on Waveform-Guided Solutions to Passive Matching Network," IEEE Transactions on Power Electronics, vol. 34, pp. 6498-6509, 2019. [3] F. You, C. Li, J. Peng, and S. He, "Design of Broadband High-Efficiency Power Amplifier Through Interpolations on Continuous Operation-Modes," IEEE Access, vol. 7, pp. 10663-10671, 2019. [4] C. Li, F. You, S. He, X. Tang, W. Shi and J. Wang, "High-Efficiency Power Amplifier Employing Minimum-Power Harmonic Active Load Modulator," in IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 66, no. 8, pp. 1371-1375, Aug. 2019. [5] P. Hao, S. He, F. You, W. Shi, J. Peng and C. Li, "Independently Tunable Linearizer Based on Characteristic Self-Compensation of Amplitude and Phase," in IEEE Access, vol. 7, pp. 131188-131200, 2019. [6] P. Wang, F. You and S. He, "Design of Broadband Compressed Sampling Receiver Based on Concurrent Alternate Random Sequences," in IEEE Access, vol. 7, pp. 135525-135538, 2019. [7] Wang, P (Wang, Peng); You, F (You, Fei); He, SB (He, Songbai); Zhao, CX (Zhao, Chenxi), “A double screening orthogonal-matching-pursuit algorithm for compressed sensing receiver with high column correlation sensing matrix”, in IEICE Electronics Express, Volume: 16 , Issue: 18 [8] Wang, P (Wang, Peng); You, F (You, Fei); He, SB (He, Songbai), “An Improved Signal Reconstruction of Modulated Wideband Converter Using a Sensing Matrix Built upon Synchronized Modulated Signals”, in Circuits Systems and Signal Processing, Volume: 38 , Issue: 7, Pages: 3187-3210 . 2018年 [1] P. Jia, F. You, S. He, and X. Qian, "A 0.25-1.25-GHz High-Efficiency Power Amplifier With Computer-Aided Design Based on Optimized Impedance Solution Continuum," Ieee Microwave And Wireless Components Letters, vol. 28, pp. 443-445, May 2018. [2] F. You and G. Chen, "Self‐interference cancellations for full‐duplex RF front‐end using a broadband phase‐slope adjuster," Microwave and Optical Technology Letters, vol. 60, pp. 1519-1522, 2018. 2017年 [1] F. You, C. Huang, and S. He, "Extended theoretical analysis method on the performance of high-efficiency power amplifiers by solving nonlinear waveform determination process," International Journal of RF and Microwave Computer-Aided Engineering, vol. 27, pp. 1-13, 2017. 2013年 [1] F. You, B. Zhang, Z. Hu, and S. He, “Analysis of a Broadband High-Efficiency Switch-Mode Delta Sigma Supply Modulator Based on a Class-E Amplifier and a Class-E Rectifier,” IEEE Transactions on Microwave Theory And Techniques, vol. 61, pp. 2934-2948, 2013. [2] F. You, S. He, and S. Hu, “Analysis and Modeling of the Non-ideal Performance in a Polar Transmitter Caused by Limited Bandwidth and Inaccurate Pulsewidth in a Delta Sigma Envelope Modulator,” Circuits Systems And Signal Processing, vol. 32, pp. 1745-1769, 2013. 2012年 [1] Q. Lei, F. You, L. Dong, S. He, and Z. Hu, “The design and realization of high-efficiency power amplifier with drain efficiency over 80% at 3.5 GHz,” Microwave And Optical Technology Letters, vol. 54, pp. 521-525, Feb 2012. 2010年 [1] F. You, S. He, X. Tang, and X. Deng, “High-efficiency single-ended class-E/F2 power amplifier with finite DC feed inductor,” IEEE Transactions on Microwave Theory and Techniques, vol. 58, no. 1, pp. 32-40, 2010. [2] F. You, S. He, and X. Tang, “Efficiency enhancement of class-E power amplifiers at low drain voltage,” IEEE Transactions on Microwave Theory and Techniques, vol. 58, no. 4, pp. 788-794, 2010. [3] F. You, S. He, X. Tang and J. Bao, “Analysis of the feedback envelope tracking linear class E power amplifier,” Analog Integrated Circuits and Signal Processing, vol. 64, no. 2, pp. 129-136, 2010. 2009年 [1] F. You, S. He, X. Tang, and X. Deng, “The effects of limited drain current and on resistance on the performance of an LDMOS inverse class-E power amplifier,” IEEE Transactions on Microwave Theory and Techniques, vol. 57, no. 2, pp. 336-343, 2009. 2008年 [1] F. You, S. He, X. Tang, and T. Cao, “Analysis of a class e power amplifier with series-parallel resonator,” IET Circuits, Devices and Systems, vol. 2, no. 6, pp. 476-484, 2008. [2] F. You, S. He, X. Tang, and T. Cao, “Performance study of a class-E power amplifier with tuned series-parallel resonance network,” IEEE Transactions on Microwave Theory and Techniques, vol. 56, no. 10, pp. 2190-2200, 2008. [3] F. You, S. He, and X. Tang, “A 2.14GHz high efficiency GaAs pHEMT quasi class E transmission-line power amplifier,” in Asia-Pacific Microwave Conference, 2008, pp. 1-4. [4] F. You, S. He, and X. Tang, “An approach to collector AM bandwidth of class E power amplifier,” in The 8th International Symposium on Antennas, Propagation and EM Theory Kunming, China: Inst. of Elec. and Elec. Eng. Computer Society, 2008, pp. 1330-1333.

专业研究方向:  
专业名称 研究方向 招生类别
080900电子科学与技术 02电路与系统(电子信息与系统集成,微波、毫米波集成电路与系统,微纳电路与系统) 博士
085400电子信息 01不区分研究方向 博士
080900电子科学与技术 02电路与系统(电子信息与系统集成,微波、毫米波集成电路与系统,微纳电路与系统) 硕士


学院列表
01  信息与通信工程学院
02  电子科学与工程学院
03  材料与能源学院
04  机械与电气工程学院
05  光电科学与工程学院
06  自动化工程学院
07  资源与环境学院
08  计算机科学与工程学院
09  信息与软件工程学院
10  航空航天学院
11  数学科学学院
12  物理学院
13  医学院
14  生命科学与技术学院
15  经济与管理学院
16  公共管理学院
17  外国语学院
18  马克思主义学院
21  基础与前沿研究院
22  通信抗干扰技术国家级重点实验室
23  电子科学技术研究院
24  广东信息工程研究院
69  国际教育学院