Thermal Effect Modeling on Passive Circuits With MLP Neural Network for Emc Application

Bensetti, Mohamed; Duval, Fabrice; Ravelo, and Blaise

doi:10.2528/pierm11042602

Cited by 5 publications

(3 citation statements)

References 15 publications

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“…This can be explained by the parasitic series inductance of capacitors and the capacitance across the choke coils [56]. There are modeling methods for passive components that can be used to predict the high frequency parasitic effects that typically create EMC degradation [57]. For the current project, the required attenuation at these high-frequencies is less than the attenuation required at 160 kHz.…”

Section: Resultsmentioning

confidence: 99%

EMI Filter Design for a Single-stage Bidirectional and Isolated AC–DC Matrix Converter

et al. 2018

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This paper describes the design of an electromagnetic interference (EMI) filter for the high-frequency link matrix converter (HFLMC). The proposed method aims to systematize the design process for pre-compliance with CISPR 11 Class B standard in the frequency range 150 kHz to 30 MHz. This approach can be extended to other current source converters which allows time-savings during the project of the filter. Conducted emissions are estimated through extended simulation and take into account the effect of the measurement apparatus. Differential-mode (DM) and common-mode (CM) filtering stages are projected separately and then integrated in a synergistic way in a single PCB to reduce volume and weight. A prototype of the filter was constructed and tested in the laboratory. Experimental results with the characterization of the insertion losses following the CISPR 17 standard are provided. The attenuation capability of the filter was demonstrated in the final part of the paper.

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Section: Resultsmentioning

confidence: 99%

EMI Filter Design for a Single-stage Bidirectional and Isolated AC–DC Matrix Converter

et al. 2018

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“…Beyond this limit of 10MHz, the EMC filter can be unobtrusively sized without particular precautionary measure concerning the volume of the components. Passive components are characterized using a Vector Network Analyzer (VNA) [8], and their impedances, deduced from these measurements, are matched to equivalent models, as illustrated in Fig. 9.…”

Section: F Emc Modelmentioning

confidence: 99%

Multiphysics Modeling and Optimization of a Compact Actuation System

Robert¹,

Bensetti

Santos

et al. 2017

IEEE Trans. Ind. Electron.

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This paper describes a methodology for the optimization of complex actuation systems, using analog simulations and an evolutionary algorithm. Our proposal consists on the development of an automated design framework that helps the designer to quickly complete a pre-sizing step while ensuring that multi-domain requirements are met within short development times typical of automotive industry. Multiphysics constraints can be handled, allowing the sizing of a complete automotive mechatronic system. The effectiveness of the methodology is demonstrated in the case of an exhaust gas recirculation (EGR) valve. Electrical, mechanical, thermal and magnetic requirements are met while a minimal volume is reached.

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“…Modeling of metallic wire susceptibility to the disturbances caused by electromagnetic near-field radiation by electronic structures in radio frequencies was introduced to suppress radiated EMC coupling of a power converter in Reference [13]. Furthermore, scholars also studied the influence of temperature and bandwidth on a power converter's lumped components [14]. These studies are helpful for the suppression of EMC in power converters.…”

Section: Introductionmentioning

confidence: 99%

Reliability of Boost PFC Converters with Improved EMI Filters

et al. 2018

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The switching device in a power converter can produce very serious electromagnetic interference (EMI). In order to solve this problem and the associated reliability and stability issues, this article aimed to analyze and model the boost power factor correction (PFC) converter according to the EMI conduction path. The sources of common-mode (CM) and differential-mode (DM) noise of the boost PFC converter were analyzed, and the DM and CM equivalent circuits were deduced. Furthermore, high-frequency modeling of the common-mode inductor was developed using a precise model, and the EMI filter was designed. According to the Class B standard for EMI testing, it is better to restrain the EMI noise in the frequency range (150 kHz to 30 MHz) of the EMI conducted disturbance test. Using this method, a 2.4-kW PFC motor driving supply was designed, and the experimental results validate the analysis.

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Thermal Effect Modeling on Passive Circuits With MLP Neural Network for Emc Application

Cited by 5 publications

References 15 publications

EMI Filter Design for a Single-stage Bidirectional and Isolated AC–DC Matrix Converter

EMI Filter Design for a Single-stage Bidirectional and Isolated AC–DC Matrix Converter

Multiphysics Modeling and Optimization of a Compact Actuation System

Reliability of Boost PFC Converters with Improved EMI Filters

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