Rajeswari Chatterjee, “Antenna Theory and Practice” Revised Second Edition New Age International Publishers, 2006.ĥ. Constantine.A.Balanis “Antenna Theory Analysis and Design”, Wiley Student Edition, 2006.Ĥ. R.E.Collin,”Antennas and Radiowave Propagation”, Mc Graw Hill 1985.ģ. Edward C.Jordan and Keith G.Balmain” Electromagnetic Waves and Radiating Systems” Prentice Hall of India, 2006Ģ. REFERENCES Antenna and Wave propagation Notes:ġ. John D Kraus,” Antennas for all Applications”, 3rd Edition, Mc Graw Hill, 2005. TEXT BOOK Antenna and Wave propagation Notes:ġ. Write about the radiation from a current element.Īnalyze the antenna arrays, aperture antennas and special antennas such as frequency independent and broad band. Upon completion of the course, students will be able to:Įxplain the various types of antennas and wave propagation. OUTCOMES Antenna and Wave propagation Notes: To create awareness about the different types of propagation of radio waves at different frequencies. Give a thorough understanding of the radiation characteristics of different types of antennas To give insight of the radiation phenomena. OBJECTIVES Antenna and Wave propagation Notes:
#Antenna and wave propagation book pdf
Finally, the important topic of wave scattering is introduced, once again from the point of view of time domain concepts.Antenna and Wave propagation Notes EC6602 Regulation 2013 Anna University free download. EC6602 Notes free pdf download. The author extends these ideas to consider the properties of aperture antennas, showing how their important properties can be incorporated with the basic themes introduced earlier in the book. To reinforce the concepts of wave propagation, a chapter on computer modelling shows the rigorous procedures required to generate accurate numerical models of wave dynamics. The concepts of resonance and antenna impedance are then treated from a time domain point of view. These ideas are then applied to simple accelerating charge models used in the engineering design of wire antennas. The book is organized in a logical progression of ideas, starting with the general idea of wave motion and showing how the equations of electricity and magnetism lead to the existence of electromagnetic waves through the Maxwell’s equations. The author presents a set of example programs written in the MATLAB language to support the ideas outlined in the text. Another new aspect of this book is the integration of computational modelling methods with the standard theory of electromagnetic waves. The adoption of time domain methods for this purpose is the book’s most important breakthrough, allowing the fundamentals of applied electromagnetics to be introduced with a clarity and simplicity not available through the conventional route. In addition to providing a grounding in this traditional curriculum, the principal concern throughout is to make difficult concepts of electromagnetism more accessible.
The book covers the well established structure of elementary EM courses, beginning with Maxwell’s equations in integral form and developing the wave equation to show the essential properties of waves. This highly illustrated and accessible text will be an ideal introduction to the application of electromagnetics (EM) following an initial course in basic EM theory.