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Join our Electromagnetic Wave Theory course to explore the propagation of electromagnetic waves and devices such as antennas. Learn simulation tools for modeling electromagnetic devices. Textbooks include Cheng, Pozar, Stutzman, and more.
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DEPARTMENT of ELECTRICAL & ELECTRONICS ENGINEERING INTERNATIONAL BURCH UNIVERSITY ELECTROMAGNETİC WAVE THEORY 2011-2012 Spring Term Prof: MoamerHasanovic Assist: Emina Alickovicmhasanovic@ibu.edu.ba, ealickovic@ibu.edu.ba
Timetable and office hours • Class Schedule: Thursday 11:00-13:45 • Tutorials: Thursday 14:00-15:45 • Office Hour: Open Door Policy
Course Objectives • To teach fundamental concepts of electromagnetic wave propagation in various environments including guided waves and free space propagation. • The instructor and participants will discuss antennas, waveguides and other devices that use electromagnetic waves to transfer information. • Finally, specific simulation tools used to model and simulate electromagnetic devices will be introduced and practiced.
Textbooks • D. K. Cheng, “Field and Wave Electromagnetics”, Addison-Wesley, 1989, ISBN: 0201128195 • D. M. Pozar, “Microwave Engineering”, Wiley, 2004, ISBN: 0471448788C. • W. L. Stutzman, G. A. Thiele, “Antenna Theory and Design”, John Wiley & Sons, 1998, ISBN: 0470576649 • D. J. Grifiths, “Introduction to Electrodynamics”, Prentice Hall, 1999, ISBN: 013805326X • F. T. Ulaby, “Fundamentals of Applied Electromagnetics”, Pearson, 2006, ISBN: 0132413264 • H. A. Haus, J. R. Melcher, “Electromagnetic Fields and Energy”, Prentice Hall, 1989, ISBN: 013249020X
Brief Contents • Course overview • Plane electromagnetic waves. • Introduction to microwave engineering. Concept of physical and electrical length. Microwave frequencies and microwave applications. Software used in microwave engineering. • Introduction to transmission line theory • S-matrix and s-parameters. Return loss and insertion loss. Concept of dBs. • Open and short ended transmission line. Quarterwave transformer. Visualization of quarterwave transformer concept. Introduction to Ansoft designer.
Brief Contents • Planar transmission line technology. Switching from electrical to physical parameters. Transmission line tool in Ansoft designer. Practical uses of microstrip and stripline. Fabrication of planar transmission lines and circuits • Introduction to Smith chart. Practical exercises on Smith chart • Practical exercises in Ansoft designer • Impedance matching using discrete elements. Impedance matching using distributed elements. Single stub tuning • Waveguides and cavities. Concept of TEM electromagnetic waves. Rectangular waveguide. Cutoff frequencies. Resonant cavities • ntroduction to antennas and radiation. Classification of antennas. How antennas radiate. Antenna parameters. Antennas in communication links
Grading • Homework 20% • Quizzes 20% • Midterm 25% • Final Exam 25% • Instructor’s Discretion 10%