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Appears in:
Pages: 5363-5370
Publication year: 2013
ISBN: 978-84-616-2661-8
ISSN: 2340-1079

Conference name: 7th International Technology, Education and Development Conference
Dates: 4-5 March, 2013
Location: Valencia, Spain

TEACHING AND RESEARCHING POWER ELECTRONICS COMBINING MODELING AND SIMULATION TECHNIQUES AND MEASUREMENTS

R.A. Salas Merino, J. Pleite Guerra

Universidad Carlos III de Madrid (SPAIN)
Modeling and simulation are essential ingredients of the analysis and design process in power electronics. They help design engineers gain increased understanding of circuit operation. Power electronics is a multidisciplinary subject, taught in Universities at both undergraduate and postgraduate levels, which covers many areas such as electronics, electromagnetics, power systems, simulation and computing and so on. Although this is an attractive area for students it can be sometimes difficult for them to grasp. Many of the circuits used in power electronics include inductors that consist of a ferrite core, a winding of copper wire and sometimes a coil former. The modeling of the ferrite inductors is a complicated task due to the nonlinearity of the magnetic fields and the great variety of shapes, sizes of the core and number of turns in the winding. Therefore, it is necessary to resort to modeling and simulation techniques as well as experimental measurements to understand circuit operation and obtain enough information to achieve a robust design.
In this paper we present a procedure that combines modeling, simulation and experimental measurements on real inductors. We apply this procedure to the modeling and simulation of ferrite inductors widely used in the field of power electronics. It can be applied to undergraduate and postgraduate students to help them understand the behavior of the circuits and the nonlinear physical phenomena involved in power electronics. The procedure uses different programming and modeling techniques coupled together: A Computer Aided Design program (AutoCAD), a Finite Element Analysis program (Maxwell), two scientific calculus programs for the numerical solving of derivatives and integrals (Origin and Matlab), numerical simulation program (Simulink) combined with Matlab, and finally, an electronic circuit simulation program (PSIM). As the procedure is very laborious and complex, we have decided to divide it into four levels with growing complexity that can be applied to students at different educational stages. The first level consists of four activities: design and construction of the inductors and transformers, preliminary experimental measurements at low current intensity, DC current experiments and AC current experiments. These activities are useful for undergraduate students and can be suggested as optional additional work for the subject. The optimal organization would be individual or groupwork. The second level focuses on the design, analysis and simulation of the inductors with ferrite cores using Finite Element Analysis. In general, the software based on this analysis has a visual interface and provides a physical and extremely useful perspective which helps students understand concepts that are difficult for them. As the simulations can be carried out in 2D or in 3D the instructor can propose different geometries and compare the 2D to 3D results. The third level can be applied to postgraduate students, for example as a final project. The complete procedure is applied to a concrete geometry and the results are validated with experimental measurements for the case of a sinusoidal waveform. Finally, the fourth is at the research level for Ph. D. students. The complete procedure is applied to a specific geometry and the results are validated with experimental measurements for the case of a square waveform widely used in power converters.
@InProceedings{SALASMERINO2013TEA,
author = {Salas Merino, R.A. and Pleite Guerra, J.},
title = {TEACHING AND RESEARCHING POWER ELECTRONICS COMBINING MODELING AND SIMULATION TECHNIQUES AND MEASUREMENTS},
series = {7th International Technology, Education and Development Conference},
booktitle = {INTED2013 Proceedings},
isbn = {978-84-616-2661-8},
issn = {2340-1079},
publisher = {IATED},
location = {Valencia, Spain},
month = {4-5 March, 2013},
year = {2013},
pages = {5363-5370}}
TY - CONF
AU - R.A. Salas Merino AU - J. Pleite Guerra
TI - TEACHING AND RESEARCHING POWER ELECTRONICS COMBINING MODELING AND SIMULATION TECHNIQUES AND MEASUREMENTS
SN - 978-84-616-2661-8/2340-1079
PY - 2013
Y1 - 4-5 March, 2013
CI - Valencia, Spain
JO - 7th International Technology, Education and Development Conference
JA - INTED2013 Proceedings
SP - 5363
EP - 5370
ER -
R.A. Salas Merino, J. Pleite Guerra (2013) TEACHING AND RESEARCHING POWER ELECTRONICS COMBINING MODELING AND SIMULATION TECHNIQUES AND MEASUREMENTS, INTED2013 Proceedings, pp. 5363-5370.
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