Review of Computer Programs Dedicated to the Design of Electronic Systems. Characteristics of the GeckoCIRCUITS Environment

Authors

  • W. Stasiak Akademia Morska w Gdyni, Morska 81-87, 81–225 Gdynia, Wydział Przedsiębiorczości i Towaroznawstwa, Katedra Systemów Informacyjnych
  • I. Czarnowski Akademia Morska w Gdyni, Morska 81-87, 81–225 Gdynia, Wydział Przedsiębiorczości i Towaroznawstwa, Katedra Systemów Informacyjnych

DOI:

https://doi.org/10.26408.103.10

Keywords:

computer aided design, GeckoCIRCUITS, design of electronic circuits, boost converter

Abstract

The development of electronics manufacturing technologies, as well as increasingly broad range of their applications, leads to an increase in the demand for solutions that support their design process. The article reviews selected solutions dedicated to the design of electronic circuits and focuses on computed-based solutions, comparing the selected software environments. Particular attention has been paid to the GeckoCIRCUITS environment, which has been discussed basing on example of an electronic boost converter circuit design.

References

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[2] Ansys Simplorer Brochure, http://www.anova.com.tr/dynamicContent/file/ansys-simplorer-brochure.pdf.

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[6] Capanidis, D., Kowalewski, P., 2012, Przegląd systemów wspomagania procesów konstruowania i wytwarzania, http://yadda.icm.edu.pl/baztech/element/bwmeta1.element.baztech-97607e36. -4c25-a6c2-[7] a13fd851357c/c/Capanidis_Kowalewski_Przeglad_1_2012.pdf.

[7] Compton, R., Williams, W., Rutledge, D., 1987, Puff, an Interactive Microwave Computer Aided Design Program for Personal Computers, IEEE MTT-S International Microwave Symposium Digest, vol. 2, s. 707–708.

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[9] Drofenik, U., Müsing, A., Kolar, J.W., 2010, Novel Online Simulator for Education of Power Electronics and Electrical Engineering, https://www.pes.ee.ethz.ch/uploads/tx_ethpublications/ drofenik_IPEC2010_education.pdf.

[10] Eagle Tutorial, Version 6, https://www.egr.msu.edu/eceshop/pcb/V6_tutorial_en.pdf.

[11] GeckoCIRCUITS, http://www.gecko-simulations.com/geckoCIRCUITS.html.

[12] IPES Moodle, http://www.ipes.ethz.ch.

[13] Jankiewicz, Z., 2016, Układy energoelektroniczne, http://www.bezel.com.pl/index.php/urzadzenia-energoelektroniczne/uklady-.

[14] Kolar, J., 2014, Future Challenges for Research and Teaching in Power Electronics, https://www. pes.ee.ethz.ch/uploads/tx_ethpublications/__Nottingham_2014_FINALFINAL_110714.pdf.

[15] Kovacevic, I., Friedli, T., Kolar, J.W., 2011, PEEC-Based Modeling of EMI Filters Incl. Parasitics and Geometrical Arrangement of Filter Elements, https://www.pes.ee.ethz.ch/uploads/tx_ ethpublications/10_Kovacevic_PEEC-Based_Modelling_of_EMI_Filters_01.pdf.

[16] Labcenter Proteus VSM, http://www.labcenter.com/products/vsm/vsm_overview.cfm.

[17] Müsing, A., 2014, Script-based Simulation Control using GeckoSCRIPT, http://www.gecko-simulations.com.

[18] OrCAD PSpice Designer, http://www.orcad.com/products/orcad-pspice-designer/overview.

[19] Stupar, A., 2012, Simulation-Based Design and Optimization of Power Electronic Systems, http://www.corpe.et.aau.dk/digitalAssets/59/59025_corpe---eth---stupar--.

Remove [1] Ansys Simplorer, http://www.ansys.com/Products/Systems/ANSYS-Simplorer.

[2] Ansys Simplorer Brochure, http://www.anova.com.tr/dynamicContent/file/ansys-simplorer-brochure.pdf.

[3] Ansys Simplorer – Esterel, http://www.esterel-technologies.com/products/ansys-simplorer/.

[4] Autodesk Eagle, https://www.autodesk.com/products/eagle/overview.

[5] Bolkowski, S., 2012, Teoria obwodów elektrycznych, Wydawnictwa Naukowo-Techniczne, Warszawa.

[6] Capanidis, D., Kowalewski, P., 2012, Przegląd systemów wspomagania procesów konstruowania i wytwarzania, http://yadda.icm.edu.pl/baztech/element/bwmeta1.element.baztech-97607e36. -4c25-a6c2-[7] a13fd851357c/c/Capanidis_Kowalewski_Przeglad_1_2012.pdf.

[7] Compton, R., Williams, W., Rutledge, D., 1987, Puff, an Interactive Microwave Computer Aided Design Program for Personal Computers, IEEE MTT-S International Microwave Symposium Digest, vol. 2, s. 707–708.

[8] Design Automation Conference, https://dac.com/.

[9] Drofenik, U., Müsing, A., Kolar, J.W., 2010, Novel Online Simulator for Education of Power Electronics and Electrical Engineering, https://www.pes.ee.ethz.ch/uploads/tx_ethpublications/ drofenik_IPEC2010_education.pdf.

[10] Eagle Tutorial, Version 6, https://www.egr.msu.edu/eceshop/pcb/V6_tutorial_en.pdf.

[11] GeckoCIRCUITS, http://www.gecko-simulations.com/geckoCIRCUITS.html.

[12] IPES Moodle, http://www.ipes.ethz.ch.

[13] Jankiewicz, Z., 2016, Układy energoelektroniczne, http://www.bezel.com.pl/index.php/urzadzenia-energoelektroniczne/uklady-.

[14] Kolar, J., 2014, Future Challenges for Research and Teaching in Power Electronics, https://www. pes.ee.ethz.ch/uploads/tx_ethpublications/__Nottingham_2014_FINALFINAL_110714.pdf.

[15] Kovacevic, I., Friedli, T., Kolar, J.W., 2011, PEEC-Based Modeling of EMI Filters Incl. Parasitics and Geometrical Arrangement of Filter Elements, https://www.pes.ee.ethz.ch/uploads/tx_ ethpublications/10_Kovacevic_PEEC-Based_Modelling_of_EMI_Filters_01.pdf.

[16] Labcenter Proteus VSM, http://www.labcenter.com/products/vsm/vsm_overview.cfm.

[17] Müsing, A., 2014, Script-based Simulation Control using GeckoSCRIPT, http://www.gecko-simulations.com.

[18] OrCAD PSpice Designer, http://www.orcad.com/products/orcad-pspice-designer/overview.

[19] Stupar, A., 2012, Simulation-Based Design and Optimization of Power Electronic Systems, http://www.corpe.et.aau.dk/digitalAssets/59/59025_corpe---eth---stupar--.

Published

2018-12-31

How to Cite

Stasiak, W., & Czarnowski, I. (2018). Review of Computer Programs Dedicated to the Design of Electronic Systems. Characteristics of the GeckoCIRCUITS Environment. Scientific Journal of Gdynia Maritime University, (103), 137–150. https://doi.org/10.26408.103.10

Issue

Section

Articles