Heatsink design using iterative calculation and thermal simulation for three-phase inverter

• Autorzy: Resutik Patrik , Kascak Slavomir

Identyfikatory

DOI

10.15199/48.2020.12.11

Warianty tytułu

PL

Ocena rozpraszania w trójfazowym przekształtniku ciepła

• Języki publikacji: EN

Abstrakty

EN

The design of the power electronics system requires a crucial step – power loss estimation. When losses are estimated by the simulation approach it can significantly reduce the design time of the device cooling solution. This paper presents an estimation of power losses in three phaseinverter in different operation points, to determine the worst-case scenario. For this simulation, MATLAB Simulink is used, and simulation results in the form of the losses are used in another software to visualize thermal spreading at the heatsink.

PL

W projektowaniu urządzeń energoelektronicznych dużą rolę odgrywa ocena strat mocy skutkujących wydzielaniem ciepła. Artykuł prezentuje ocenę strat mocy w trójfazowym przekształtniku. Określono rozpraszanie się ciepła w tym urządzeniu.

Słowa kluczowe

EN

Inverter; thermal distribution; power losses; MATLAB

PL

rozpraszanie ciepła; straty mocy; przekształtnik

• Wydawca: Wydawnictwo SIGMA-NOT
• Czasopismo: Przegląd Elektrotechniczny
• Rocznik: 2020
• Tom: R. 96, nr 12
• Strony: 63--66
• Opis fizyczny: Bibliogr. 13 poz., rys.

Twórcy

autor

Resutik Patrik

• University of Zilina, Department of Mechatronics and Electronics, 01026 Zilina, Slovakia

autor

Kascak Slavomir

• University of Zilina, Department of Mechatronics and Electronics, 01026 Zilina, Slovakia

Bibliografia

• [1] O.S. Senturk, L. Helle, S. Munk-Nielsen, P. Rodriguez, and R.Teodorescu, “Electro-thermal Modeling for Junction Temperature Cycling-Based Lifetime Prediction of a Press- Pack IGBT 3L-NPCVSC Applied to Large Wind Turbines,” in IEEE 2011 Energy Conversion Congress and Exposition, 2011, pp. 568 – 575.
• [2] Z. Zhou, P. Holland, and P. Igic, “Compact thermal model of a three-phase igbt inverter power module,” in Microelectronics, 2008. MIEL 2008. 26th International Conference on, May 2008, pp. 167–170.
• [3] Sobczynski, D. “Model of PV inverter in H4 and H5 topologies for power loss analysis”, In: Przeglad Elektrotechniczny, Vol. 94, No. 3, pp. 155-158, Published 2018, DOI: 10.15199/48.2018.03.31
• [4] Zelnik R., Prazenica M.; “Multiple Output Flyback Converter Design” In: TRANSACTIONS ON ELECTRICAL ENGINEERING, Vol. 8, No. 3, pp. 32- 39, 2019.
• [5] Cubon, Peter; Sedo, Jozef; Radvan, Roman; “Calculation of demand of electric power of small electric vehicle using Matlab GUI” et al. 2014 ELEKTRO Pages: 149-153 Published: 2014
• [6] R. B. B. Ovando, N. Ramirez, C. Hernandez, “A 2D finite element thermal model of a three-phase inverter heat sink,” in 2010 IEEE Electronics, Robotics and Automotive Mechanics Conference
• [7] Spanik, P.; Cuntala, J.; Frivaldsky; “Investigation of Heat Transfer of Electronic System through Utilization of Novel Computation Algorithms” M.; et al. ELEKTRONIKA IR ELEKTROTECHNIKA
• [8] Frivaldsky, Michal; Spanik, Pavol; Drgona, Peter; “Algorithms for indirect investigation of heat distribution in electronic systems” et al. INTERNATIONAL JOURNAL OF THERMAL SCIENCES Volume: 114 Pages: 15-34 Published: APR 2017
• [9] Spanik, P.; Dobrucky, B.; Frivaldsky; “Measurement of swtitching losses in power transistor structure”, M.; et al. ELEKTRONIKA IR ELEKTROTECHNIKA Issue: 2 Pages: 75-78 Published: 2008
• [10] Paskala, Marek; Pridala, Michal; Pipiska, Michal; “The Support System for Testing the Power Converters The system of water cooling / heating” et al. 2016 ELEKTRO 11TH INTERNATIONAL CONFERENCE Pages: 196-200 Published: 2016Nowak, M.; Grzejszczak, P.; Zdanowski, M.; Barlik, R. “Thermal measurement for verification of power loss in semiconductor switching devices” In: Przeglad Elektrotechniczny, Vol. 88, No. 4B, pp. 163-168, Published 2012
• [11] Casanellas. F., "Losses in PWM inverters using IGBTs," IEE Proc. Electr. Power App1.,1994, 141, pp.235-239.
• [12] M.H. Bierhoff and F.W. Fuchs, "Semiconductor Losses in Voltage Source and Current Source IGBT Converters Based on Analytical Derivation," Proceedings of the 2004 IEEE Power Electronics Specialist Conference (PESC04), pp.2836–2842, 2004
• [13] RONCATI, D. “Iterative calculation of the heat transfer coefficient” [Online] Available: https://www.researchgate.net/profile/Zoubair_Boulahia/post/Ho w_can_I_calculate_the_heat_transfer_coefficient_of_a_heat_si nk/attachment/59d6406379197b807799c9f0/AS%3A43088157 6886274%401479741581619/download/Convection_heat_tran sfer_coefficient.pdf

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).