lpl夏季赛雷竞技_雷竞技newbee-主赞助商

电子科学与工程学院

导师代码：	12145
导师姓名：	彭浩
性别：	男
特称：
职称：	副研究员
学位：	工学博士学位
属性：	专职
电子邮件：	penghao@uestc.edu.cn

学术经历：

2002.09-2006.06 lpl夏季赛雷竞技本科 2007.09-2013.06 lpl夏季赛雷竞技硕博连读 2013.07-2015.10 lpl夏季赛雷竞技博士后 2014.10-2016.07 lpl夏季赛雷竞技助理研究员 2016.08- lpl夏季赛雷竞技副研究员 2016.02-2017.02 加拿大国立科学研究院INRS访学

个人简介：

本人近年来主要从事射频、微波、毫米波和THz方面的研究和应用，重点研究了基于六端口技术的直接变频接收机，以及超外差类型的小型化接收机，完成了理论推导、系统原理框图构建、电路功能模块设计和实物测试平台的搭建等工作；成功将相关技术应用于****产品的工程实践中，圆满完成了多次实弹射击，取得了较重要的****建设成就和较大的经济价值；在近年来的学习和研究中，共计发表SCI检索论文30余篇；申请和授权中国专利30余项；成为国外期刊TMTT，MWTL，MOTL，IET AP, EL, PIER等杂志的特约审稿人；主持了国家自然科学基金青年项目和面上项目各1项，还主持和参与了近10项科研课题，来源于教育部、总装备部、lpl夏季赛雷竞技和中国航天科工集团等，涉及经费数千万元。

科研项目：

62471092 可重构宽带毫米波均衡网络理论与实现国家自然科学基金 2025.01-2028.12 53万 61701092 W频段六端口接收机关键技术研究国家自然科学基金 2018.01-2020.12 29万 2014M552337 THz测向接收机研究教育部 2014.05-2015.10 5万 2014000038 被动雷达导引头前端研制合同横向 2014.01-2014.12 249.88万 2014000003 宽带被动雷达导引头（S/C）前端研制合同横向 2014.01-2016.09 600万 2013003527 微波前端研制横向 2011.10-2012.06 51万 2013000335 微波测向信道及瞬时测频接收机横向 2013.09-2013.12 199.2万

研究成果：

[1] H. Peng, N. Xue, Z. Y. Qi, L. F. Chen, J. M. Chen, Y. Liu, S. O. Tatu, T. Yang, J. D. Pan, F. Zhang. Design Method of Power Chip Terminations With Lower Cost, Lower Voltage Standing Wave Ratio, and Broader Bandwidth, Microwave and Optical Technology Letters, 2025; 67:e70133. [2] L. F. Chen, F. Xing, H. Peng, N. Xue, Z. Y. Qi, Y. Liu, S. O. Tatu, T. Yang. Electrically Tunable Substrate Integrated Waveguide Equalizer With Stable Insertion Loss in High Frequency, Microwave and Optical Technology Letters, 2025; 67:e70084. [3] J. M. Chen, H. Peng, L. F. Chen, T. Y. Sun, Y. Liu, S. O. Tatu, and T. Yang. Voltage-Controlled Attenuator based on PIN Diode and Compensated Gold Wire Inductors, Microwave and Optical Technology Letters, 2024, 66: e34295. [4] H. Peng, C. Zhang, N. Xue, Z. Y. Qi, Y. H. Zhou, Y. Liu, S. O. Tatu, and T. Yang. Ka-band substrate integrated waveguide equalizer with larger equalization value based on capacitive loading technology and tiny gap effect. IEEE Transactions on Components Packaging and Manufacturing Technology, 2024, 14(3), 453-460. [5] H. Peng, C. Zhang, Y. Liu, S. O. Tatu, and T. Yang. Electrically tunable substrate integrated waveguide equalizer based on PIN diodes. Microwave and Optical Technology Letters, 2024, 66(3): e34107. [6] H. Peng, S. H. Huang, Y. Liu, S. W. Hu, and T. Yang. Step substrate integrated waveguide equalizer based on microwave discrete resistors for feeding network. 2021 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting (APS/URSI), Singapore, 2021. [7] Y. Liu, S. H. Huang, H. Peng, and T. Yang. Low insertion and large dynamic range substrate integrated waveguide equalizer on ceramic for feeding network. 2021 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting (APS/URSI), Singapore, 2021. [8] H. Peng, S. H. Huang, Y. H. Wu, Y. Liu, S. O. Tatu, J. Dong, and T. Yang. Low cost/insertion loss substrate-integrated waveguide equalizer based on absorbing materials. IEEE Transactions on Components Packaging and Manufacturing Technology, 2021, 11(11): 1948-1955. [9] H. Peng, F. J. Zhao, J. Dong, S. O. Tatu, Y. Liu, N. J. Lin, and T. Yang. Substrate integrated waveguide equalizers and attenuators with surface resistance. IEEE Transactions on Microwave Theory and Techniques, 2020, 68(4): 1487-1495. [10] H. Peng, Y. H. Wu, Y. Zuo, J. Dong, S. O. Tatu, Y. Liu, T. Yang. Synthesis Design of Equal-Length Phase Shifter based on SIW and Microstrip Line, International Journal of RF and Microwave Computer-Aided Engineering, 2020, 31(3)：1-8. [11] H. Peng, F. J. Zhao, Y. Liu, S. O. Tatu, T. Yang. Robust Microstrip to Empty Substrate-Integrated Waveguide Transition Using Tapered Artificial Dielectric Slab Matrix, IEEE Microwave and Wireless Components Letters, 2020, 30(9): 849-852. [12] H. Peng, F. J. Zhao, S. O. Tatu, J. Dong, T. Yang. Empty substrate-integrated waveguide phase inverter in millimetre-wave band application, Electronics Letters, 2020, 56(8)：382-384. [13] H. Peng, F. J. Zhao, J. Dong, Y. Liu, S. O. Tatu, T. Yang, H. Y. Jin. 3-D empty substrate integrated waveguide phase shifter with equal length, IEICE Electronics Express, 2019, 16(22)：0-20190619. [14] H. Peng, X. L. Xia, S. O. Tatu, K. D. Xu, J. Dong, T. Yang. Broadband Phase Shifters Using Comprehensive Compensation Method, Microwave and Optical Technology Letters, 2017, 59(4): 766-770 [15] H. Peng, X. L. Xia, S. O. Tatu, T. Yang. An Improved Broadband SIW Phase Shifter with Embedded Air Strips, Progress in Electromagnetics Research C, 2016, 67: 185-192 [16] H. Peng, X. L. Xia, J. Dong, T. Yang. An Improved Broadband Transition between Microstrip and Empty Substrate Integrated Waveguide, Microwave and Optical Technology Letters, 2016, 58(9): 2227-2231 [17] H. Peng, P. Jiang, T. Yang, H. Y. Jin. Continuously tunable SIW phase shifter based on the buried varactors, IEICE Electronics Express, 2015, 12(7): 1-7. [18] L. Xiao, H. Peng, T. Yang. The design of inphase power divider based on transversal signal interaction technique, Journal of Electromagnetic Waves and Applications, 2015, 29(1): 104-112. [19] Jun Dong, Y. Liu, Z. Q. Yang, H. Peng, and T. Yang. Broadband millimeter-wave power combiner using compact SIW-to-waveguide transition, IEEE Microwave and Wireless Components Letters, 2015, 25(9). [20] L. Xiao, H. Peng, T. Yang. Design of power divider with bandpass response and notched band, Electronics Letters, 2014, 50(8): 613-615. [21] L. Xiao, H. Peng, T. Yang. Compact Ultra-Wideband In-Phase Multilayer Power Divider, Progress in Electromagnetics Research Letters, 2014, 48: 33-37. [22] L. Xiao, H. Peng, T. Yang. A novel power divider integrated with one bandpass filter, Progress in Electromagnetics Research C, 2014, 52: 115-124. [23] L. Xiao, H. Peng, T. Yang. Ultra-Wideband Four-Way In-Phase Multilayer Power Divider with High Isolation, Progress in Electromagnetics Research C, 2014, 49: 31-37. [24] L. Xiao, H. Peng, T. Yang. Bandpass-response power divider with high isolation, Progress in Electromagnetics Research Letters, 2014, 46: 43-48. [25] L. Xiao, H. Peng, T. Yang. Power divider based on stepped-impedance slotline, Progress in Electromagnetics Research C, 2014, 50: 147-154. [26] L. Xiao, H. Peng, T. Yang. The Design of a Novel Compact Ultra-Wideband (UWB) Power Divider, Progress in Electromagnetics Research Letters, 2014, 44: 43-46. [27] H. Peng, Z. Q. Yang, Y. Liu, T. Yang, and K. Tan. An improved UWB non-coplanar power divider, Progress in Electromagnetics Research, 2013, 138(2): 31-39. [28] H. Peng, Z. Q. Yang, T. Yang. Design and implementation of an ultra-wideband six-port network, Progress in Electromagnetics Research, 2012, 131(5): 293-310. [29] H. Peng, Y. Liu, T. Yang. An improved broadband waveguide-to-microstrip transition in LTCC, Journal of Electromagnetic Waves and Applications, 2012, 26(13): 1-8. [30] H. Peng, Z. Q. Yang, T. Yang. Design and implementation of a practical direction finding receiver, Progress in Electromagnetics Research Letters, 2012, 32: 157-167. [31] H. Peng, T. Yang, Z. Q. Yang. Calibration of a six-port position sensor via support vector regression, Progress in Electromagnetics Research C, 2012, 26: 71-81. [32] H. Peng, Z. Q. Yang, T. Yang. Calibration of a Six-Port Receiver for Direction Finding Using the Artificial Neural Network Technique, Progress in Electromagnetics Research Letters, 2011, 27: 17-24. [33] Jun Dong, Y. Liu, Z. Q. Yang, H. Peng, and T. Yang. Broadband Millimeter-wave In-Phase and Out-of-Phase Waveguide dividers with high Isolation, Journal of Infrared Millimeter and Terahertz Waves, 2015, 36(11): 1076-1088. [34] H. Peng, T. Yang. Phase Measurement Based on the Six-Port Technology, 7th International Conference on Wireless Communications, Networking and Mobile Computing, Wuhan, China, 2011, 2644-2647. [35] H. Peng, T. Yang. Design of C-band Six-Port Junction, 7th International Conference on Wireless Communications, Networking and Mobile Computing, Wuhan, China, 2011, 2684-2688.

专业研究方向：

专业名称	研究领域/方向	招生类别
080900电子科学与技术	01微波毫米波理论与技术，02微波毫米波器件、电路与系统，04微波毫米波集成电路与系统	硕士学术学位
085400电子信息	01不区分研究方向	硕士专业学位
085401新一代电子信息技术（含量子技术等）	01不区分研究方向	硕士专业学位