Esisar rubrique Formation 2022

RF Simulators - 5AMSC522

  • Number of hours

    • Lectures 12.0
    • Tutorials 3.0
    • Laboratory works 12.0

    ECTS

    ECTS 2.5

Goal(s)

• To be able to make the connection between mathematical expressions (Maxwell's equations) and the use of commercial CAD RF software.
• To be able to use the main functions available in the common computational software (MATLAB) to address electromagnetic problems. Develop basic knowledge on MATLAB to solve partial differential equations that can be find in electromagnetic problems.
• To be able to provide theoretical elements of comparison through the implementation of various numerical methods (finite differences, method of moment, finite elements ...).
• To be able to show limitations (2D geometry problem, 2½ D, 3D, computation time, memory ...) that can result from using one method over another, that is to say, one commercial software compared to another. Allow students to choose the good way to solve EM problems.
• To be able to correctly use commercial EM simulators (Ansoft Designer & HFSS).

Contact Etienne PERRET

Content(s)

• RF simulators
• Formulation of a problem / numerical methods
• Finite Differences, FDTD
• Method of Moments (MoM)
• Finite elements (FE).
• Practical implementation of a RF simulation software



Prerequisites
  • Electromagnetic / Microwave Circuit *
    Electromagnetics, Concepts in Radio Frequency transmission media, Guides and electromagnetic radiation, radio frequency circuits and systems, antennas
  • Mathematics *
    Good knowledge in mathematics (linear algebra in particular) is required.
    Scientific computing.

Test

Evaluation
E1 = Final Exam 1 - 1H30, Undocumented, No calculator
E2 = Final Exam 2 - resit/rattrapage examination - 1H30, Undocumented, No calculator
TP = Lab

N1 = 50%E1 + 50%TP.
N2 = 50%E2 + 50%TP.



Additional Information

Curriculum->EIS ->Semester 5

Bibliography

Sadiku M. N. O., Numerical Techniques in Electromagnetics with MATLAB, Third Edition, CRC Press, 2009
Ney M., « Simulation électromagnétique, Outils de conception », Techniques de l’ingénieur. Traité Électronique,
E 1 030.
Gibson, The method of moments in electromagnetics, Chapman & Hall / CRC, 2007
Elsherbeni A., Demir V., The Finite Difference Time Domain Method for Electromagnetics: With MATLAB Simulations, SciTech Publishing, 2009
Jin J-M, Riley D. J., Finite element analysis of antennas and arrays, IEEE Press : Wiley, 2009
Yu W., Electromagnetic Simulation Techniques Based On The Fdtd Method, John Wiley & Sons, 2009
Harrington R.F., Fields computation by Moment Method, New York IEEE Press, 1993
Sullivan D., Electromagnetic Simulation Using the FDTD Method, IEEE Computer Society Press, 2000
Lascaux P., Analyse numérique matricielle appliquée à l'art de l'ingénieur, Dunod, 2004
Euvrard D., Résolution numérique des équations aux dérivées partielles - Différences Finies, Éléments Finis, MASSON
Raviart P.-A., Thomas J.-M., Introduction à l’analyse numérique des équations aux dérivées partielles, Dunod, 1ère édition, 2005