Repositório

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Book:  Power Electronics Converters and Systems

Chapter 14 – Reliability in Power Electronics

The authors of Chapter 14 made available the codes for calculating the reliability of power semiconductors and electrolytic capacitors. The files contain:
1) IGBT mean junction temperature profile (TjI.mat);
2) IGBT thermal cycling profile (DTi.mat);
3) Capacitor operating temperature profile (Tcap.mat).
All profiles are derived from electro-thermal simulations and they are 1-year long, sampled at 1 min.
The user must apply these profiles in the reliability code in the following order:1) IGBT_unrLC -> MATLAB function that calculates the IGBT static lifetime consumption;

2) IGBT_unrMC -> MATLAB function that calculates the IGBT unreliability function after Monte Carlo simulations
3) and 4) are identical to steps 1) and 2) but changing IGBT for CAP.
We also provided a script (static_IGBT_CAP) where these functions are called in a practical example and the results are plotted/displayed.

Matlab Files – Click here to download

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Paper:  Development of a Didatic Platform for Flexible Power Electronic Converter

Power electronic converters are the subject of several studies and applications. Knowledge about those converters is essential for several technical and undergraduate courses in the field of Electrical Engineering and related areas. The presence of converter modules in laboratories can be beneficial for experimental validations in academic research and educational purposes, for allowing students to have practical contact with different converter topologies and applications. However, the commercially available power converters are generally manufactured for specific applications, with poor versatility and high cost, when applied for academic purposes. For this reason, several laboratories propose the design of versatile converters, mainly for multilevel converter research. Nevertheless, most of these projects present module designs based on half-bridge topology due to their low cost. Therefore, this project topology requires more modules to operate as topologies based on a full-bridge converter. Besides, modules based on full-bridge topology can also work in a half-bridge configuration. Thus, this work presents the design of full-bridge modules capable of operating as different types of converters, as well as the project of the dc-link voltage measurement, isolated power supply and bypass circuits. Moreover, this work addresses the heatsink choice, the thermal evaluation for the semiconductor devices and the realization of galvanic isolation between the signal and power circuits.

Click here to download the complete design of the didactic modules and the PCB schematics is available for download: download

How to cite our paper:

VICTOR GUIMARÃES FRANÇA, JOÃO ; HUNDER DUTRA GHERARD PINTO, JONATHAN ; DO CARMO MENDONÇA, DAYANE ; VICTOR MATOS FARIAS, JOÃO ; OLIVEIRA DE SOUSA, RENATA ; AUGUSTO PEREIRA, HEVERTON ; ISAAC SELEME JÚNIOR, SELEME ; FAGNER CUPERTINO, ALLAN . DEVELOPMENT OF A DIDACTIC PLATFORM FOR FLEXIBLE POWER ELECTRONIC CONVERTERS. ELETRÔNICA DE POTÊNCIA (IMPRESSO), v. 27, p. 225-235, 2022.

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COBEP/SPEC 2023

Paper: Thevenin Model based on Look-up Table to Emulate PV Panels in Power Electronics Simulation

Click here to download the Thevenin Model in PLECS Software available for download: download

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COBEP/SPEC 2023

Paper: Modified Rainflow Algorithm for Lifetime Estimation of Semiconductors Devices

Click here to download the proposed Rainflow Algorithm download