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dc.contributor.authorDragoun, Jaroslav
dc.contributor.authorTalla, Jakub
dc.contributor.authorKošan, Tomáš
dc.contributor.editorPinker, Jiří
dc.identifier.citation2019 International Conference on Applied Electronics: Pilsen, 10th – 11th September 2019, Czech Republic, p.39-42.en
dc.identifier.isbn978–80–261–0812–2 (Online)
dc.identifier.isbn978–80–261–0813–9 (Print)
dc.identifier.issn1803–7232 (Print)
dc.identifier.issn1805-9597 (Online)
dc.format4 s.cs
dc.publisherZápadočeská univerzita v Plznics
dc.rights© Západočeská univerzita v Plznics
dc.subjectDigital Signal Processing Buildercs
dc.subjectprogramovatelné hradlové polecs
dc.subjectztráty vedenícs
dc.subjectztráty při přepínánícs
dc.subjecttestování HILcs
dc.subjecthardware ve smyčcecs
dc.titleConverter Power Losses Computation by FPGA-based HIL Simulator : Invited Paperen
dc.typekonferenční příspěvekcs
dc.description.abstract-translatedConverter losses play a crucial role in the process of power converter design. Especially semiconductor components and heat sink selection are strongly dependent on the total power converter losses and thus affect the power converter size and its price. The most popular techniques for determination of the losses are based on the computer simulation of the power converter. These kinds of simulations could be very time consuming, because on one side, the simulation needs very short step-time for differential equations calculation to model power converter switching. On the other side, the temperature dynamics of heat sink are commonly slow and depend on power cycles of converter. With the help of FPGA-based hardware in the loop (HIL), the simulation could run real-time and it is possible to test different scenarios, different modulation techniques and see their influences on converter losses. This approach can lead to reduction of losses to the state, when it is possible to reduce the size of converter. Furthermore, the HIL simulation could be used for testing and developing control algorithm in real time conditions. It also offers flexibility in the easy change of model parameters and monitoring values which are not or hardly obtainable in real machine. This paper presents the FPGA-based HIL simulator of induction motor drive with three phase voltage source inverter based on Semikron IGBT modules.en
dc.subject.translatedDSP builderen
dc.subject.translatedField Programmable Gate Arrayen
dc.subject.translatedconduction lossesen
dc.subject.translatedswitching lossesen
dc.subject.translatedHIL testingen
dc.subject.translatedhardware in the loopen
Appears in Collections:Články / Articles (KEV)
Články / Articles (RICE)
Applied Electronics 2019
Applied Electronics 2019

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Please use this identifier to cite or link to this item: http://hdl.handle.net/11025/35510

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