个人简历
施永荣(Yongrong Shi),男,中共党员,工学博士,江苏泰州人。具体涉及:毫米波收发系统、三维异质/异构封装、封装天线、射频集成电路、电磁完整性分析,欢迎优秀学生联系攻读研究生或参加电子类设计竞赛等学习和工作经历:1 2010年6月获得工学学士学位(2006.9-2010.6 南京理工大学 电子信息工程(培优)专业本科)2 2015年10月获得工学博士学位(2010.9-2015.10 南京理工大学 电磁场与微波技术专业硕博连读/导师:唐万春教授)3 2015年11月至2019年12月 中国电子科技集团公司第五十五研究所工作,高级工程师4 2019年12月至今 南京航空航天大学,电子信息工程学院/集成电路学院,研究员主持和参与各类横纵项项目包括国家自然科学基金青年基金、面上基金、重点基金、总装预研、重点实验室基金、国家973、航天/中电等各类科研院所工程项目共计十多项。教育经历2003.9 -- 2006.6江苏省泰州中学 普通高中毕业 无学位2006.9 -- 2010.6南京理工大学 电子信息工程(培优) 大学本科毕业 工学学士学位2010.9 -- 2015.11南京理工大学 电磁场与微波技术 博士研究生毕业 工学博士学位工作经历2015.11 -- 2019.12中国电子科技集团公司第五十五研究所研究方向[1] 宽带天线及阵列研究[2] 无源/有源射频集成电路设计[3] 毫米波微系统封装技术[4] 宽带微波/毫米波前端系统科研项目[1] 基于BG**-GWG的W波段基板授课信息电磁场理论 /2020-2021 /春学期 /53课时 /0.0学分 /04102210.08ä¿¡å·ä¸ç³»ç» /2019-2020 /秋学期 /56课时 /0.0学分 /04202110.07
研究领域
面向电磁环境/频谱探测、雷达传感、通信互联等系统应用,开展射频/微波/毫米波技术研究"微波毫米波射频前端"
近期论文
1. 施永荣,段茜文,朱建平,冯文杰,“基于折叠脊间隙波导技术的Ka 波段Gysel 功分器,”固体电子学研究与进展,2020,40(5):349-355,388。2. 易鑫,钱兴成,施永荣,沈一鸣,于正永,“一种基于IPD工艺的新型小型化前向波定向耦合器,” 固体电子学研究与进展,2019,39(6):416-420。3. X. Jiang, Yongrong Shi*, F. Jia*, W. Feng, T. Yin, J. Yu, and X. Wang, “Millimeter-Wave Double Ridge Gap Waveguide Six-Port Network Based on Multi-Via Mushroom,” IEEE Transactions on Plasma Science, vol. 49, no. 12, pp. 3778–3785, Dec. 2021. (联合指导博士生)4.P. Zou, H. Zhao*, Z. Xu, S. Li, Yongrong Shi, and X. Yin, “Analysis and Modeling of Wideband Common-Mode Absorption With Lossy Complementary Split-Ring Resonator Chain in Resistor-Free Differential Microstrip Lines,” IEEE Transactions on Microwave Theory and Techniques, Early Access Article, DOI: 10.1109/TMTT.2021.3126879.5. P. Zou, Y. Liu, H. Zhao*, Yongrong Shi, and X. Yin, “Differentially Fed Dual-Mode Patch Antenna with Wideband Common-Mode Absorption and Its Array Application,” IEEE Transactions on Antenna and Propagation, vol. 69, no. 12, pp. 8937–8942, Dec. 2021.6. Y. Jiang, L. Feng*, H. Zhu, W. Feng, H. Chen, Yongrong Shi, W. Che, and Q. Xue, “Bandpass Filter with Ultr-Wide Upper Stopband on GaAs IPD Technology,” IEEE Transactions on Circuits and Systems II: Express Briefs, Early Access Article, DOI: 10.1109/TCSII.2021.3096936.7. Yongrong Shi, W. Feng*, and B. Cao, “W-Band Gap Waveguide Antenna Array: Passive/Active Component Gap Waveguide Transition Interface for System Integration,” IEEE Antennas and Propagation Magazine, vol. 63, no. 2, pp. 40–49, Apr. 2021.8. G. Shen, W. Feng*, W. Che*, Yongrong Shi, and Y. Shen, “Millimeter-Wave Dual-band Bandpass Filter with Large Bandwidth Ratio Using GaAs-Based Integrated Passive Device Technology,” IEEE Electron Device Letters, vol. 42, no. 4, pp. 493–496, Apr. 2021.9. J. Zhu, W. Gao, Yongrong Shi, W. Li, and W. Tang*, “A Dual-Polarized Bandpass Frequency Selective Surface with Stable Response,” IEEE Antennas and Wireless Propagation Letters, vol. 20, no. 5, pp. 673–677, May. 2021. (协助指导博士生)10. G. Shen, W. Che*, W. Feng, Yongrong Shi*, Y. Shen, and F. Xu, A Miniaturized Ka-Band Bandpass Filter Using Folded Hybrid Resonators Based on Monolithic Microwave Integrated Circuit Technology, IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 68, no. 6, pp. 1778–1782, Jun. 2021.11. G. Shen, W. Che*, W. Feng, Yongrong Shi*, and Y. Shen, “Low Insertion-Loss MMIC Bandpass Filter Using Lumped-Distributed Parameters for 5G Millimeter-Wave Application,” IEEE Transactions on Components, Packaging and Manufacturing Technology, vol. 11, no. 1, pp. 98–108, Jan. 2021.12. Yongrong Shi, W. Feng*, H. Wang, S. Zheng, and Q. Wu*, “Compact planar W-band front-end module based on EBG packaging and LTCC circuits,” IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 68, no. 3, pp. 878–882, Mar. 2021.13. G. Shen, W. Che*, W. Feng, Yongrong Shi, F. Xu, and Q. Xue, Ultra-Low-Loss Millimeter-Wave LTCC Bandpass Filters Based on Flexible Design of Lumped and Distributed Circuits, IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 68, no. 4, pp. 1123–1127, Apr. 2021.14. H. Huang, Y. Wu*, W. Wang*, W. Feng*, and Yongrong Shi, Analysis of the Propagation Constant of a Ridge Gap Waveguide and Its Application of Dual-Band Unequal Couplers, IEEE Transactions on Plasma Science, vol. 48, no. 12, pp. 4163–4170, Dec. 2020. (协助指导硕士生)15. B. Pan, W. Feng*, Yongrong Shi*, M. Huang, W. Che*, and Q. Xue, High-Performance Wideband Balanced Bandpass Filter Based on Transversal Signal-Interference Techniques, IEEE Transactions on Plasma Science, vol. 48, no. 12, pp. 4119–4126, Dec. 2020. (协助指导硕士生)16. Yongrong Shi, X. Yin, W. Feng, Y. Wu, Z. Yu, and X. Qian, “77/79 GHz Forward-Wave Directional Coupler Component Based on Microstrip and SIW for FMCW Radar Application,” IEEE Transactions on Components, Packaging and Manufacturing Technology, vol. 10, no. 11, pp. 1879–1888, Nov. 2020.17. Yongrong Shi, W. Feng*, X. Jiang, Q. Xue, and W. Che, “Half-Air Filled Ball-Grid-Array-Based Substrate-Integrated Groove-Gap Waveguide and Its Transition to Microstrip at W-band ,” IEEE Transactions on Microwave Theory and Techniques, vol. 68, no. 12, pp. 5145–5153, Dec. 2020.18. W. Feng, W. Che, Yongrong Shi, Q. Xue, X. Zhang and X. Zhou, “Balanced to Unbalanced: An Overview of Multifunctional Wideband Balanced-to-Unbalanced Four- and Five-Port Filtering Power Dividers,” IEEE Microwave Magazine, vol. 21, no. 11, pp. 50–57, Nov. 2020.19. W. Feng, Y. Feng, L. Wu*, Yongrong Shi*, X. Zhou, and W. Che*, “A Novel Leaky Wave Endfire Filtering Antenna Based on Spoof Surface Plasmon Polaritons,” IEEE Transactions on Plasma Science, vol. 48, no. 9, pp. 3061–3066, Sep. 2020.20. Yongrong Shi, W. Feng*, Y. Wu*, X. Jiang and D. Shao, “Parallel Plate Cavity Mode Suppression by Miniaturized 2.5-D Electromagnetic Bandgap Structure for Low Frequency Microwave Circuit,” IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 67, no. 12, pp. 3068–3072, Dec. 2020.21. W. Feng, Y. Feng, Yongrong Shi*, S. Shi, and W. Che*, “Novel Differential Bandpass Filter Using Spoof Surface Plasmon Polaritons,” IEEE Transactions on Plasma Science, vol. 48, no. 6, pp. 2083–2088, Jun. 2020.22. L. Zhou, W. Feng*, D. Wang, and Yongrong Shi, “A Compact Millimeter-wave Frequency Conversion SOP (System on Package) Module Based on LTCC Technology,” IEEE Transactions on Vehicular Technology, vol. 69, no. 6, pp. 5923–5932, Jun. 2020.23. W. Feng, X. Ma, Yongrong Shi*, S. Shi, and W. Che*, “High-Selectivity Narrow- and Wide-band Input-Reflectionless Bandpass Filters with Intercoupled Dual-Behavior Resonators,” IEEE Transactions on Plasma Science, vol. 48, no. 2, pp. 446–454, Feb. 2020.24. Yongrong Shi, P. Zhou, W. Feng*, Y. Guo, and W. Tang*, “Quad-Mode LTCC Surface Mounted Packaging Common-Mode Filter Based on the Asymmetric Short-Stub Loaded Resonator,” IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 67, no. 10, pp. 1944–1948, Oct. 2020..25. X. Yi, Yongrong Shi*, Z. Yu, and X. Qian, “Wideband and Miniaturized Forward-Wave Directional Coupler Using Periodical Parallel Plates and Vertical Meander Lines,”IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 67, no. 11, pp. 2402–2406, Nov 2020. (指导硕士生)26. W. Feng, Yongrong Shi*, X. Ma, Y. Shen, W. Che*, Q. Xue*, and L.-S. Wu, “28-GHz High-Selectivity Bandpass Filters With Dual-Behavior Resonators Using GaAs Technology,” IEEE Transactions on Plasma Science, vol. 47, no. 12, pp. 5277–5282, Dec. 2019.27. W. Feng, W. Che*, Yongrong Shi*, R. Gomez-Garcia, C. Wang, Q. Xue*, X.-Y. Zhang, and X. Zhou, “Balanced Rat-Race Couplers with Wide-band Common-Mode Suppression,” IEEE Transactions on Microwave Theory and Techniques, vol. 67, no. 12, pp. 4754–4732, Dec. 2019.28. Yongrong Shi, P. Zhou, W. Feng*, Y. Shen, and W. Tang*, “A GaAs-Based Ultra-Wideband Common-Mode Filter Chip With Four Transmission Zeros and Equalization Integration,” IEEE Transactions on Electromagnetic Compatibility, vol. 62, no. 5, pp. 2002–2011, Oct. 2020.29. W. Feng, X. Duan, Yongrong Shi*, X. Zhou*, and W. Che*, “Dual-band Branch-Line Couplers with Short/Open-ended Stubs,” IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 67, no. 11, pp. 2497–2501, Nov. 2020.30. Yongrong Shi, D. Shao, W. Feng*, J. Zhang, and M. Zhou, “Silicon Interposer Package for MMIC Heterogeneous Integration Based on Gold/Solder Ball Flip-Chip Technique,” IEEE Transactions on Components, Packaging and Manufacturing Technology, vol. 9, no. 8, pp. 1659–1662, Aug. 2019.31. B. Cao, Yongrong Shi*, W. Feng*, “W-band LTCC circularly-polarized antenna array with mixed U-type substrate integrated waveguide and ridge gap waveguide feeding networks,” IEEE Antennas and Wireless Propagation Letters, vol. 18, no. 11, pp. 2399–2403, Nov. 2019.32. X. Jiang, F. Jia*, Yongrong Shi*, W. Feng, Y. Cao, P. Huang, J. Yu, and X. Wang, “Ridge Gap Waveguide Layer Transition for Compact 3-D Waveguide Packaging Application,” IEEE Transactions on Components, Packaging and Manufacturing Technology, vol. 9, no. 10, pp. 2136–2139, Oct. 2019.(联合指导博士生)33. W. Feng, Yongrong Shi*, X. Zhou*, X. Shen, and W. Che*, “A bandpass push-pull high power amplifier based on SIW filtering balun power divider,” IEEE Transactions on Plasma Science, vol. 47, no. 9, pp. 4281–4286, Sep. 2019.34. W. Feng, X. Ma, R. Gomez-Garcia*, Yongrong Shi*, W. Che*, and Q. Xue, “Multi-functional balanced-to-unbalanced filtering power dividers with extended upper stopband,” IEEE Transactions on Circuits and Systems II: Express Briefs,vol. 66, no. 7, pp. 1154–1158, Jul. 2019.35. P. Zhou, B. Li, H. Lu, Yongrong Shi*, W. Tang, “Novel Ultra-Wideband and Multi-Mode LTCC Common-Mode Filter Based on the Dual Vertical Coupling Paths,” IEEE Transactions on Components, Packaging and Manufacturing Technology, vol. 9, no. 7, pp. 1345–1353, Jul. 2019. (指导硕士生)36. W. Feng, W. Che*, Yongrong Shi*, Q. Xue*, C. Yuan, and X. Zhou, “High Selectivity Balanced-to-Unbalanced Filtering Power Dividers Using Dual-mode Ring Resonators,” IEEE Transactions on Components, Packaging and Manufacturing Technology, vol. 9, no. 5, pp. 927–935, May. 2019.37. X. Jiang, F. Jia*, Y. Cao, P. Huang, J. Yu, X. Wang, Yongrong Shi*, “Ka-band 8 × 8 low-sidelobe slot antenna array using a 1-to-64 high-efficiency network designed by new printed RGW technology,” IEEE Antennas and Wireless Propagation Letters, vol. 18, no. 6, pp. 1248–1252, Jun. 2019.(联合指导博士生)38. Yongrong Shi, W. Feng*, H. Wang, W. Che, Q. Xue, J. Wang, J. Zhang, X. Qian, M. Zhou and B. Cao, “Novel W-band LTCC Transition From Microstrip Line to Ridge Gap Waveguide and Its Application in 77/79 GHz Antenna Array,” IEEE Transactions on Antenna and Propagation, vol. 67, no. 2, pp. 915–924, Feb. 2019.39. Yongrong Shi*, J. Zhang, M. Zhou, W. Feng*, B. Cao, and W. Che, “Miniaturized W-band Gap Waveguide Bandpass Filter Using the MEMS Technique for Both Waveguide and Surface Mounted Packaging,” IEEE Transactions on Circuits and Systems II: Express Briefs, vol. 66, no. 6, pp. 938–942, Jun. 2019.40. Yongrong Shi*, J. Zhang, S. Zeng, and M. Zhou, “Novel W-band Millimeter Wave Transition From Microstrip Line to Groove Gap Waveguide for MMIC Integration and Antenna Application,” IEEE Transactions on Antenna and Propagation, vol. 66, no. 6, pp. 3172–3176, Jun. 2018.41. J. Zhu, W. Tang*, C. Wang, C. Huang, and Yongrong Shi, “Dual-Polarized Bandpass Frequency-Selective Surface with Quasi-Elliptic Response Based on Square Coaxial Waveguide,” IEEE Transactions on Antenna and Propogation, vol. 66, no. 3, pp. 1331–1339, Mar. 2018. (协助指导博士生)42. Yongrong Shi*, M. Zhou, and J. Zhang, “Parallel Plate Mode Suppression in Low-Frequency Microstrip Circuit Packages Using Lid of 3-D Cross by a 3-D Printing Technique,” IEEE Transactions on Electromagnetic Compatibility, vol. 59, no. 4, pp. 1268–1271, Aug. 2017.43. Yongrong Shi*, W. Zhuang, W. Tang, W. Cheng, “Modeling and Analysis of Miniaturized Frequency Selective Surface Based on 2.5-Dimensional Closed Loop with Additional Transmission Pole,” IEEE Transactions on Antenna and Propagation, vol. 64, no. 1, pp. 346–351, Jan. 2016.44. Yongrong Shi, W. Tang*, S. Liu, C. Wang, and W. Zhuang, “Mode Analysis of Miniaturized and Stopband-Enhanced Composite Electromagnetic Bandgap Structure for Power/Ground Noise Suppression,” IEEE Transactions on Electromagnetic Compatibility, vol. 57, no. 3, pp. 532–537, Jun. 2015.45. Yongrong Shi*, W. Tang, W. Zhuang, and C. Wang, “Miniaturized Frequency Selective Surface Based on 2.5-Dimensional Closed Loop,” Electronic Letter, vol. 50, no. 23, pp. 1656–1658, Nov. 2014.46. Yongrong Shi*, W. Tang, S. Liu, X. Rao, Y. Chow, “Ultra-wideband Suppression of Power/Ground Noise in High Speed Circuits Using A Novel Electromagnetic Bandgap Power Plane,” IEEE Transactions on Components, Packaging and Manufacturing Technology, vol. 3, no. 4, pp. 653–660, Apr. 2013.[1] 施永荣,,等.28-GHz High-Selectivity Bandpass Filters With Dual-Behavior Resonators Using GaAs Technology.IEEE Transactions on Plasma Science,2019[2] 施永荣,,等.Ridge Gap Waveguide Layer Transition for Compact 3-D Waveguide Packaging Application.EEE Transactions on Components, Packaging and Manufacturing Technology,2019
