MATLAB Solutions to
Exercises and Examples
Microwave Engineering Pozar 4th edition
> The Main Literature Reference [POZAR] is available from for instance:
https://www.amazon.co.uk/Microwave-Engineering-David-M-Pozar/dp/0470631554
> Solutions Manual: https://www.scribd.com/doc/176505749/Microwave-engineering-pozar-4th-Ed-solutions-manual
> For educational purposes only: https://www.copyrightuser.org/understand/exceptions/education/
> MATLAB Code and comments:
MATLAB code ...
% MATLAB comments
interleaved with plain font comments
[ABC] : Pointers to literature references
(3.21) : Pointers to [POZAR] formulae.
> What Questions already have answer with MATLAB working script?
those with the OK tag next to the Dropbox and Adobe notes download icons
working scripts available from each exercise page, click on Dropbox icon:
Each exercise page has a link to the solution note in Adobe format:
When tagged OK, the working script in .zip pack from Dropbox and solves the exercise or
example. as copy of .pdf notes although there may or may not be copy of the
notes displayed right below the question.
Solved exercises and examples have link from each respective chapter contents page
as well as from the main contents page.
The following progress table is just a screen shot to show progress.
While a 'Construction: In progress' tag on, I may already have a solution available despite exercise page or even progress tables show 'pending'. If you ask by email I will provide updates.
> Progress Table:
There's an additional tab for MATLAB QA with solutions to questions not related to [POZAR] nevertheless useful to learn MATLAB
Site and MATLAB scripts author: John Bofarull Guix MEng UPC-ETSETB, IET member 36486065
SUPPORT LITERATURE REFERENCES
Wherever needed specific additional references are mentioned in each example/exercise solution, but the following ones are particularly helpful where [POZAR] summarizes points of interest may need to develop.
[RAMO]
Fields and Waves in Communication Electronics, 2nd ed
authors: S.Ramo, J.Whinnery, T.Duzer
[ED]
The Finite-Difference Time-Domain Method for Electromagnetics with MATLAB Simulations,
authors: A. Elsherbeni, V. Demir.
SciTech Publishing. ISBN 978-1-6135-175-4.
[SDK]
Numerical Techniques in Electromagnetics with MATLAB, 3rd ed, CRC Press
author: M.Sadiku
[TXEP]
Recommended lecture from the University of El Paso:
https://www.youtube.com/watch?v=vVeyP85xKD4&list=PLLYQF5WvJdJWoU9uEeWJ6-MRzDSziNnGt&index=2
http://emlab.utep.edu/ee5390fdtd.htm
[FRN1]
MIT intro to Finite Difference Methods. OpenWare includes self assessment.
[FRN2]
Generation of Finite Difference Formulas on Arbitrarily Spaced Grids,
author: B.Fornberg. https://web.njit.edu/~jiang/math712/fornberg.pdf
[FDTDVK]
Wikipedia FDTD intro http://en.wikipedia.org/wiki/Finite-difference .
[FDT] http://www.fdtd.org
[DS]
Electromagnetism Simulation Using FDTD Method, IEEE Press, 1992,
author: D. M. Sullivan.
$33 non-members, $14.95 IEEE members.
https://ieeexplore.ieee.org/abstract/document/182455
[ATL] [TFLV]
FDTD Computational Electromagnetics, Artech House
authors: Allen Taflove et al.
This is core reference for [TXEP] Electromagnetics module.