Advanced Microwave Engineering

Syllabus:

• Microwave circuit analysis:  Impedance and inductance matrices, Scattering parameters, Discontinuities and modal analysis, Excitation of waveguides
• Microstrip and stripline transmission lines: Effective dielectric constant, Propagation constant, Attenuation constant, High frequency effects, Dispersion
• Other planar transmission lines: Coupled lines, Coplanar Waveguide, Slot line, Coplanar strip, Substrate integrated waveguide (SIW)
• Microwave resonators: Transmission line resonators, Dielectric resonators, Rectangular resonators, Circular resonators, Perturbation method for calculating the resonance frequency
• Microwave filters:  Periodic structures, Image parameter method, Insertion loss method, Filter transformations, Richard transformation, Invertors, Stepped impedance filter, Coupled line filters, Waveguide filters
• Linear microwave analysis: Finite difference method, Conformal mapping, Moment method Transverse resonance technique
• Nonlinear microwave analysis: Harmonic balance method, Volterra series Method
• Meta materials: Definition of Metamaterial (Left handed media), Experimental Demonstrations of Left-Handedness, LC Network Implementation

 Assignments:

        Assignment 1, Assignment 2,  Assignment 3,  Assignment 4 ,  Assignment 5 , Assignment 6 

 References:     

• Microwave Engineering, D. M. Pozar, 3^rd Ed., 2005
•  Foundations for Microwave Engineering, R. E. Collin, 2^nd Ed., 1992
• Foundations of Microstrip Circuit Design, T. Edwards.
• Microwave Engineering Using Microstrip Circuits, E.H. Fooks.
• Analysis Methods for RF, Microwave and Milimeter Wave Planar Transmission Line Structures, C. Nguyen.
• Microwave Engineering, P. A. Rizzi, 1988
• Microwave Engineering and Applications, O. P. Gandhi, 1989, Pergamon Press
• Advanced Microwave Engineering, R. Chatterjee, 1988
• Microwave Solid State Circuit Design, I. Bahl and P. Bhartia, 2^nd Ed., 2003, John Wiley