• Microwave and Antenna Technologies
    • School of Electronic, Information and Electrical Engineering
    • Credit. 4
    • EE322
    • Course Description:
    • ( Exchange Programme )
    • Today, microwave and RF technology is more pervasive than ever. This is especially true in the commercial sector, where modern applications include cellular phones, WiFi, millimeter wave collision sensors for vehicles, direct broadcast satellites for radio, television, and GPS, RFIT, UWB radio and radar systems, and microwave remote sensing systems for the environment. Defense systems continue to rely heavily on microwave technology for passive and active sensing, communications, and weapons control systems.
      Modern RF and microwave engineering predominantly involves distributed circuit analysis and design, in contrast to the waveguide and field theory orientation of earlier generations. Microwave engineering will always involve electromagnetics. But now this course will mainly be focused on transmission line theory, guided-wave structures, network analysis, planar circuits and component design, etc.
    • Course Syllabus:
    • After completing the course, students should:
      1.Know the meanings, features and applications of microwave and antennas, the typical architectures of microwave systems, and the basic concepts of microwave passive components;
      2.Deeply understand and be able to use the most important theories in microwave, including transmission lines, guided waves and microwave network analysis;
      3.Grasp the modelling, characterization and design methods for some microwave structures, including typical waveguides, integrated transmission lines, impedance matching networks, microwave resonators and passive components;
      4.Independently and collaboratively complete the experiments and be able to use the design tools, such as ADS and HFSS.
    • Schedule:
    • Topics / Credit hours / Teaching methodology / Tasks / Intended learning outcomes / Assessment methods

      1. Introduction/6 Credit hours/Classroom teaching/14.4, 14.5, 14.9, 14.11, 14.15, 14.17, 14.18/ Know the basic concepts and applications of microwave and systems/ Homework and exam

      2. Transmission Line Theory/11 Credit hours/Classroom teaching and experiment/2.2, 2.3, 2.8, 2.10, 2.12, 2.13, 2.14, 2.20, 2.24, 2.29, 2.31/Grasp the theory of transmission line and the use of slotted line system/Homework, report and exam

      3. Waveguides/9 Credit hours/Classroom teaching and experiment/3.4, 3.5, 3.7, 3.8, 3.11, 3.13, 3.16, 3.17, 3.24, 3.27/Grasp the analysis method, characteristics and measurement of waveguides/Homework, report and exam

      4. Integrated Transmission Lines/9 Credit hours/Classroom teaching and experiment/3.19, 3.20, 3.21, 3.22, 3.29, and additional questions/Grasp the analysis method, characteristics and measurement of integrated transmission lines/Homework, report and exam

      5. Microwave Network Analysis/9 Credit hours/Classroom teaching and experiment/4.2, 4.4, 4.8, 4.10, 4.12, 4.14, 4.23, 4.25, 4.27, 4.30/Grasp the theory of microwave network and the use of network analyzer/Homework, report and exam

      6. Impedance Matching and Tuning/6 Credit hours/Classroom teaching and experiment/5.1, 5.3, 5.7, 5.9, 5.13, 5.25/Grasp the methods of impedance matching and the use of tuners/Homework, report and exam

      7. Microwave Resonators/8 Credit hours/Classroom teaching/6.1, 6.8, 6.9, 6.14, 6.16, 6.22, 6.24, 6.25/Grasp the analysis methods and characteristics of microwave resonators/Homework and exam

      8. Introduction to Passive Components/8 Credit hours/Classroom teaching and experiment/7.19, 7.20, 7.22/Know the basic concepts, design methods and utilization of passive components and the measurement of coupler/Homework, report and exam

      9. Conclusion and Review/2 Credit hours/Classroom teaching/Demo of final exam/Have a review of microwave technologies/Homework
  • Reading list
  • Other Materials
  • Discussion
  • Homework download/submit
    • Wu Linsheng
    • Associate Professor
    • Read more
    • Male
    • E-mail:
    • wallish@sjtu.edu.cn
    • Profile
    • Lin-Sheng Wu Associate Professor, Master Supervisor
      Key Laboratory of Ministry of Education of Design and EMC of High-Speed Electronic Systems
      Department of Electrical Engineering
      School of Electronic Info. & Electrical Engineering,
      Shanghai Jiao Tong University, B.S. (Honor), EE 2003
      Shanghai Jiao Tong University, M.S., Electromag. Fields & Microw. Tech. 2006
      Shanghai Jiao Tong University, Ph.D., Electromag. Fields & Microw. Tech. 2010

      SEIEE Buildings 1-533
      Shanghai Jiao Tong University
      800 Dongchuan Road, Shanghai 200240, China
      Tel: +86 21 34205246
      Email: wallish@sjtu.edu.cn

      Dr. Lin-Sheng Wu is currently working as an Associate Professor and Master Supervisor with the Key Laboratory of Ministry of Education of Design and Electromagnetic Compatibility of High-Speed Electronic Systems in SJTU, where his research interest is mainly focused on microwave and RF technologies. He has authored or coauthored about 90 published papers and has applied for 3 patents.
  • Prerequisite Course:

    Electromagnetic Fields and Waves

  • Textbooks:

    1. David M. Pozar, Microwave Engineering, 4th ed. New York, NY, USA: Wiley, 2011.
    2. K. C. Gupta, et al, Microstrip Lines and Slotlines, 2th ed. Norwood, MA, USA: Artech House, 1996.
  • Grading:

    10%/experimental reports
    50%/final exam
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