毛军发

上海交通大学电子信息与电气工程学院副院长，分管科研、学科与基地建设。


所属系别: 电子系

研究方向: 1、高速集成电路互连技术与信号完整性

2、新颖微波与射频电路


联系电话: 021-62933018

E-Mail: jfmao@sjtu.edu.cn

实验室主页:



个人简介
教育及工作经历: 1965年8月出生，湖南邵阳人。1985年在国防科技大学获学士学位，1988年在中国科学院上海原子核研究所获理学硕士学位，1992年在上海交通大学电子工程系获工学博士学位，然后留校担任教学与科研工作至今。1994年5月－1995年5月在香港中文大学Omar Wing教授(曾担任IEEE CAS的第一任主席)的课题组作访问副研究员(Research Associate), 1995年9月－1996年9月在美国加州大学伯克利分校Ernest S. Kuh(葛守仁)教授(美国工程院院士，中国科学院外籍院士)指导下作博士后研究。1997年从讲师破格评为教授，博士生导师。

社会及学术兼职: 毛军发是教育部“****奖励计划”特聘教授，国家杰出青年科学基金获得者，国务院学位委员会学科评议组成员，教育部“****与创新团队发展计划”创新团队学术带头人，教育部跨世纪优秀人才，教育部教学指导委员会委员，上海市电子科学与技术学科评议组召集人，IEEE高级会员，IEEE上海支会现任主席。曾担任国家863计划信息获取与处理主题专家组成员，上海市科委技术预见专家组成员。

获奖情况: 于1998年获上海市自然科学牡丹奖，1999年获上海市科技进步三等奖，2000年获教育部首届全国高校优秀青年教师奖，2003年获教育部提名国家自然科学一等奖，2004年获国家自然科学二等奖，上海市教学成果一等奖。


教学与科研
主讲课程: 电磁场与波，微波技术，电路理论，计算电磁学。

主要研究领域: 微波与高速电路


科研项目: 近3年毛军发完成或正在进行的项目如下表：

项目名称
项目来源
项目经费
项目起讫时间
本人

排名

硅衬底微波与射频电路及PCB的电特性研究
国家杰出青年科学基金
80
2001.1-2004.12
1

SOC互连线建模仿真及时钟线网与电源线网综合
国家自然科学基金面上项目
30
2003.1-2005.12
1

民航飞机无源定位技术研究
国家863计划
50
2002.9-2004.6
1

超深亚微米物理级优化EDA建模技术
国家863计划SOC重大专项
60
2002.9-2003.12
1

高频与微波通信电路的分析与设计
高等学校优秀青年教师教学科研奖励基金
50
2000.1-2004.12
1

片上系统的理论与设计
教育部创新团队
300
2005-2007
1

多芯片组件电特性研究
国家自然科学基金重点项目
120
2000.1-2003.12
2







发表论文: 发表学术论文100多篇。主要论著清单如下：

1 李征帆，毛军发。微波与高速电路理论，上海交通大学出版社，2001年。国家自然科学基金研究专著，信息科学系列。共70万字。

2 H. F. Huang, J. F. Mao(毛军发), X. C. Li, and Z. F. Li, September 2005, “A photonic bandgap microstrip filter based on YBCO superconducting film,” IEEE Transactions on Applied Superconductivity, vol. 15, no. 3.

3 W. Dai, Z. F. Li, and J. F. Mao, 2005, “Parameter extraction for on-chip interconnects by double-image green’s function method combined with hierarchical algorithm,” IEEE Transactions on Microwave Theory and Technology, vol. 53.

4 X.-C. Li, J.F. Mao, and H.-F. Huang， “Accurate analysis of interconnect trees with distributed RLC model and moment matching,” IEEE Transactions. on Microwave Theory and Tech., vol. 52，pp. 2199-2206，Sept 2004.

5 H.F. Huang, and J.F. Mao, “The Inductance Model of Coupled High Tc Superconducting Microstrip Lines,” IEEE Trans. on Applied Superconductivity, vol. 14, pp. 7-12, Mar. 2004.

6 J.-X. Zhao, and J.F. Mao, “Inductance Extraction for Planar Spiral Inductor by Domain Decomposition Method for Conformal Modules,” IEEE Trans. On MTT, vol. 51, no.6, June 2003.

7 X.Yang,Z. LI, and J.-F. Mao, “Analysis of the bounces on the power/ground plane structures by planar circuit model and APA-E algorithm,” IEEE Trans. On Advanced Packaging, 2001 .5, vol. 24.

8 Q.-W. Xu, Z.-F. Li, J. Wang and J.-F. Mao, “Transient analysis of lossy interconnects by modified method of characteristics,” IEEE Trans. on CAS(Part I), 2000.3, vol. 47.

9 Y. Cao, Z.-F. Li, and J.-F. Mao, “A PEEC with a new capacitance model for circuit simulation of interconnects and packaging structures,” IEEE Trans. on MTT, 2000.2, vol. 48.

10 Q.-W. Xu, Z.-F. Li, and J.-F. Mao, “Time-domain simulation of high-speed interconnect systems by a modified method of characteristics,” IEEE Trans. on MTT, 2000.2, vol. 48.

11 J.-F. Mao, “Twofold Mur’s first-order ABC in the FDTD method,” IEEE Trans. on MTT, vol. 46，pp. 299-301, March 1998.

12 J.-F. Mao and Ernest S. Kuh, "Fast simulation and sensitivity analysis of lossy transmission lines by the method of characteristics," IEEE Trans. on Circuits and System(Part I), vol. 44, pp. 391-401, May 1997.

13 J.-F. Mao, O. Wing, and F.-Y. Chang, "Synthesis of coupled transmision lines," IEEE Trans. on Circuits and System(Part I), vol. 44, pp. 327-337, April 1997.

14 J.-F. Mao, O. Wing, and F.-Y. Chang, "Transmission line synthesis by the method of characteristics," IEEE Trans. on CAS(Part I), vol. 43, pp. 461-468, June 1996.

15 J.-F. Mao and Z.-F. Li, "Waveform relaxation solution of the ABCD matrices of nonuniform transmission lines for transient analysis," IEEE Trans. on CAD of IC and Systems, vol. 13, pp. 1409-1412, Nov. 1994.

16 J.-F. Mao and Z.-F. Li, "Analysis of the time response of nonuniform multiconductor transmission lines with a method of equivalent cascaded network chain," IEEE Trans. on MTT, vol. 40, pp. 948-954, 1992.

17 J.-F. Mao and Z.-F. Li, "Analysis of the time response of multiconductor transmission lines with frequency-dependent losses by the method of convolution characteristics," IEEE Trans. on MTT, vol. 40, pp. 637-644, April 1992

18 L. Y. Li, J. F. Mao, and X. W. Sun, April 2005, “Influence of ground-pad dimensions on the performance of vialess transition from coplanar waveguide to microstrip,” Micro. Opt. Tech. Lett., vol. 45, pp. 112-115.

19 H. F. Huang, J. F. Mao, and Z. H. Luo,APR 2005,”Novel miniature high power ring filter,” PHYSICA C-SUPERCONDUCTIVITY AND ITS APPLICATIONS 420 (3-4): 125-129

20 H.. W. Liu, Z. F. Li, X. W. Sun, and J. F. Mao, Feb. 2005, “Harmonic suppression with photonic bandgap and defected ground structure for a microstrip patch antenna,” IEEE Microwave and Wireless Components Letters, vol.15, pp. 55-56.

21 W. L. Dai, Z. F. Li, and X. Wang, Oct. 2004, “Double-image Green"s function method for 3-D capacitance and conductance extraction of on-chip transmission lines,” International Journal of Electronics, vol. 91, pp. 579-586.

22 Liu HW, Sun XW, Li ZF, Mao JF，“A novel direct parameter-extraction method for GaInP/GaAs HBTs small-signal model，” INTERNATIONAL JOURNAL OF RF AND MICROWAVE COMPUTER-AIDED ENGINEERING 14 (5): 447-452 SEP 2004

23 Huang HF, Mao JF, Hu ZY, Liu JY, Zhen DN, Yao X，“: The microwave properties of YBCO photonic crystal structure microstrip，” JOURNAL OF LOW TEMPERATURE PHYSICS 136 (1-2): 117-125 JUL 2004

24 W.-M. Zhang, J.-F. Mao Mao JF, X.W. Sun. R. Qian, and D. Zhang, “Microstrip patch antenna array on ground with circular PBG,” MICROWAVE AND OPTICAL TECHNOLOGY LETTERS, vol. 41, pp. 127-130, April 2004.

25 Liu HW, Li ZF, Sun XW, Mao JF，“An improved 1-D periodic defected ground structure for microstrip line，” IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS 14 (4): 180-182 APR 2004

26 H.-F. Huang, and J. F. Mao, “The capacitance equivalent circuit for quasi-TEM HTS microstrip and the basic capacitance model,” PHYSICA C-SUPERCONDUCTIVITY AND ITS APPLICATIONS, vol. 403, pp. 32-36, March 2004.

27 H.-W. Liu, X.-W. Sun, Z.-F. Li and J.-F. Mao, “A novel two-dimensional (2-D) defected ground array for planar circuits,” IEICE TRANSACTIONS ON ELECTRONICS, vol. E87C, pp. 109-112, Jan. 2004.

28 L.-Y. Li, and J.-F. Mao, “An improved compact 2-D finite-difference frequency-domain method for guided wave structures,” IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS, vol. 13, pp. 520-522, Dec. 2003.

29 W.-L. Dai, Z.-F. Li, J.-F. Mao, “Double-image Green"s function method for CMOS process oriented transmission lines,” IEICE TRANSACTIONS ON ELECTRONICS, vol. E86C pp. 2504-2507, Dec. 2003.

30 W.M. Zhang, XW Sun, and JF Mao, “A new compact 1D PBG microstrip structure with wider stopband based on semiconductor substrate,” MICROW OPT TECHN LET, vol. 39, Oct. 2003

31 H.F. Huang, and J.F. Mao, “Tunable High Tc Superconducting Resonator Using Nonlinear Equivalent Inductance for Josephson Junction,” Physics C, vol. 391, Sep. 2003.

32 W.M. Zhang, XW Sun, and JF Mao ,“New compact 1-D PBG microstrip structure with steeper stop-band characteristics,” IEICE T ELECTRON, vol. E86C, Sep. 2003.

33 Liu HW, Li ZF, Sun XW, Mao JF, “A novel photonic band-gap microstrip structures for low-pass filters of wide stop-band,” MICROWAVE AND OPTICAL TECHNOLOGY LETTERS, vol. 37, pp. 470-472, June 2003.

34 W. M. Zhang, J.-F. Mao, X.-W. Sun, R. Qian, and D. Zhang, “Compact resonant band-pass filter based on PBG structure,” Electronics Letters, vol. 39 , pp. 615-617, April 2003.

35 J.–F. Mao, X.–J. Cai, and J.-H. Chen, “Circuit analysis and optimization by partial matrix elimination with a new strategy of variable time step,” INTERNATIONAL JOURNAL OF ELECTRONICS, vol. 89, pp. 549-559, July 2002.

36 J.-F. Mao, X. Qian, and Z. Yuan, “Characteristic analysis of coupled HTS interconnects with two-dimensional FDTD,” IEEE Microwave and Wireless Comp. Letter’s, vol. 11, pp. 33-35, Jan. 2001.

37 Q.-W. Xu, Z.-F. Li, and J.-F. Mao, “Modeling of transmission lines by differential quadrature method,” IEEE Microwave and Guided Wave Letters, vol. 9, pp. 145-147, April 1999.

38 J.-F. Mao and Omar Wing, “Time-domain transmission matrix of lossy transmission lines,” IEEE Microwave and Guided Wave Letters, vol. 8, pp.90-92, Feb. 1998.

39 J.F.Mao and Z.F.Li, ”Analysis of time response of nonuniformly coupled multiconductor transmission lines with frequency dependant losses”, Electronics Letters, vol.27, Oct. 1991.

40 Cai Xingjian, Mao Junfa, Yang Xiaoping, and Li Zhengfan,“Fast simulation of nonlinear circuits with an algorithm of partial matrix elimination(PME),” Chinese Journal of Electronics, vol. 10, pp. 141-146, Jan. 2001.

41 Zhao Ji-ziang，Mao Jun-fa，“Inductance model of square spiral inductor based on domain decomposition method，” Journal of Shanghai University，Oct. 2002


专利: 获得科技发明专利1项，申请4项。

其他: You are welcome!