19 results on '"Lembeye, Yves"'
Search Results
2. Design for Reuse: residual value monitoring of power electronics’ components
- Author
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Rahmani, Boubakr, RIO, Maud, LEMBEYE, Yves, and CREBIER, Jean-Christophe
- Published
- 2022
- Full Text
- View/download PDF
3. Disassemblability Assessment of Power Electronic Converters for Improved Circularity.
- Author
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Turkbay Romano, Tugce, Fang, Li, Alix, Thècle, Rio, Maud, Mélot, Julien, Serrano, Fabrice, Lefranc, Pierre, Lembeye, Yves, Perry, Nicolas, and Crébier, Jean-Christophe
- Abstract
Power Electronics Converters (PEC) play a crucial role in the operation of many modern electrical systems and devices. Despite their widespread use, the lack of an efficient and cost-effective disassembly process can limit their repairability, refurbishability, remanufacturability and, ultimately, recyclability, thus hindering the circularity of products. In order to improve their circularity, it is important to assess their ease of disassembly. Therefore, this paper investigates the applicability of the "ease of Disassembly Metric" (eDiM), which is referenced in the material efficiency standards, Benelux repairability assessment method, and Repair Scoring System (RSS), to analyze the ease of disassembly of energy-related products. After identifying the limitations of the eDiM method, we refined and adapted it to make it more suitable for Printed Circuit Board (PCB)-based PEC, and thus propose a PCB-based disassemblability assessment method allowing the implementation of quantifiable requirements supporting their circularity. This standardized approach, at the PCB level, can improve the circularity of such products by facilitating design enhancements. With this approach, policymakers and designers can contribute more effectively to the transition to a circular economy in PCB electronics, particularly in the field of power electronics. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
4. Addressing Circularity to Product Designers: Application to a Multi-Cell Power Electronics Converter
- Author
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Rio, Maud, Khannoussi, Khawla, Crebier, Jean-Christophe, and Lembeye, Yves
- Published
- 2020
- Full Text
- View/download PDF
5. Modeling and Control of a Hybrid-Fed Triple-Active Bridge Converter.
- Author
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Tarraf, Rebecca, Frey, David, Leirens, Sylvain, Carcouet, Sebastien, Maynard, Xavier, and Lembeye, Yves
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REDUCED-order models ,VOLTAGE-frequency converters ,MATHEMATICAL models ,BRIDGES ,CATALYTIC converters for automobiles ,HARBORS - Abstract
In general, the structures of Multi-Active Bridge (MAB) converters that can be found in the literature are usually based on voltage converters. However, in some cases, it could be interesting to have a current-fed input due to load characteristics or operation constraints. This leads to a hybrid MAB structure mixing both current-fed and voltage-fed bridges. In this paper, a new hybrid-fed, fully coupled Triple-Active Bridge (TAB) converter topology with two voltage-fed ports and one current-fed port is studied, modelled and controlled. In the first place, a generalized average model (GAM) is developed for this system. After that, a reduced-order model is elaborated in order to simplify the behavioral study and control of this coupled system. A control strategy was also proposed in this paper, based on the developed mathematical model. Simulation results using Matlab/Simulink are presented to validate this study. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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6. Accurate Efficiency and Power Densities Optimization of Output Inductor of Buck Derived Converters.
- Author
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Pichon, Hugot, Lembeye, Yves, and Crebier, Jean-Christophe
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POWER density ,CASCADE converters ,IRON ,MANUFACTURING industries ,POWER electronics - Abstract
In this article, inductor loss models are developed based on the experimental characterization of off-the-shelf components. The modelling steps and techniques are described and validated. It is shown that the model exhibits fairly good accuracy over a large range of ripple current frequency and magnitude. Then, these models are used, as an illustration, in order to present the possible optimization process of the tradeoff between switching frequency-current ripple magnitude and output inductors value in the case of a Buck-derived converter. This optimization has shown that a large current ripple may lead to minimized losses in some cases. The developed modelling technique aims to represent Joules and iron losses, as well as DC and AC losses of inductors. It is not based on physical behaviour description but on mathematical equations based on a set of experimental characterizations. The modelling technique is not suitable for designing the component itself but is useful for selecting the best component value in the manufacturer's series of components. Since it remains difficult with the manufacturer datasheet to estimate AC losses accurately with respect to frequency and ripple current magnitude, a specific characterization is carried out to complement the available data. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
7. Current sharing between parallel turns of a planar transformer: prediction and improvement using a circuit simulation software
- Author
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Margueron, Xavier, Besri, Abdelhadi, Lembeye, Yves, and Kerradec, Jean-Pierre
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Computer-generated environments -- Usage ,Computer simulation -- Usage ,Electric currents -- Measurement ,Electric transformers -- Design and construction ,Electric transformers -- Models ,Business ,Computers ,Electronics ,Electronics and electrical industries - Published
- 2010
8. Novel half-bridge inductive DC-DC isolated converters for fuel cell applications
- Author
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Lembeye, Yves, Bang, Viet Dang, Lefevre, Guillaume, and Ferrieux, Jean-Paul
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Fuel cells -- Usage ,Electric current converters -- Design and construction ,Electric current converter ,Business ,Electronics ,Electronics and electrical industries - Abstract
This paper proposes a new class of converters based on the inductive input converters for the design of a power electronic interface for fuel cell (FC) applications. After studying the half-bridge structure, two soft-switching dc-dc converters are analyzed: one operating in zero-voltage-switching (ZVS) mode and the other in zero-current-switching (ZCS) mode. The ZVS converter can overcome the drawbacks of the original structure but is more complicated. The ZCS converter cannot operate at duty cycles below 0.5, but is simpler and more suitable for FC applications. Flexible choice of components, low losses, high efficiency, and modular converter possibility are all interesting characteristics of these converters. Their operation principle and characteristics are presented in this paper. Experimental results on 2 kW converters of each structure validate the theoretical analysis. Index Terms--Fuel cell (FC), isolated dc-dc converter, low losses, zero current switching (ZCS), zero voltage switching (ZVS).
- Published
- 2009
9. Integrated planar L-C-T component: design, characterization and experimental efficiency analysis
- Author
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Lembeye, Yves, Goubier, Philippe, and Ferrieux, Jean-Paul
- Subjects
Electric current converters -- Research ,Power electronics -- Research ,Electric current converter ,Business ,Electronics ,Electronics and electrical industries - Abstract
In a resonant dc/dc converter, the major part of the volume is filled by passive components. Moreover, all these components have to support all the power flow. On the one hand, this leads to losses in these components and their connections and on the other hand to an important cost of the converter. Concept of integrated passive component, called inductor-capacitor-transformer (L-C-T), is now well known [1], [3], [4], [6], [8] and this paper will present a new prototype which permits to integrate in an unique part an inductor, a capacitor and a transformer. Because it uses only one core with three windings, this component will reduce the volume of the passive part of the converter. By reducing the number of connections it will, also, have a positive effect on losses. After a presentation of L-C-T components, this paper describes a design of this device, using new windings disposition. The proposed structure permits to adjust separately L and C values. Then, to validate the approach, a characterization is carried out, leading to a new model, including dielectric, iron and copper losses. Index Terms--Inductor-capacitor-transformer (L-C-T), passive components.
- Published
- 2005
10. Eco-Dimensioning Approach for Planar Transformer in a Dual Active Bridge (DAB) Application.
- Author
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de Freitas Lima, Glauber, Rahmani, Boubakr, Rio, Maud, Lembeye, Yves, and Crebier, Jean-Christophe
- Subjects
POWER density ,ENERGY consumption ,ENVIRONMENTAL impact analysis ,POWER electronics ,METHODOLOGY - Abstract
Power electronics converters are traditionally designed regarding efficiency, power density, cost, and reliability figures of merit. Today, with the extreme spread of power electronic applications in our modern societies, together with the earth limits in terms of materials resources, it is important to consider the ecological impact of the converter not only during its usage, but over its whole life cycle. This article introduces an eco-dimensioning methodology for analyzing and accounting for the energy consumption over the entire converter life. The analysis is applied on a small DC-DC converter considering the main components dual active bridge (DAB) converter. The planar transform is one of the key elements modeled in this article, including material and manufacturing conditions. The traditional and eco-dimensioning approaches are carried out and compared in order to emphasize the possible consequences on total energy cost. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
11. Improvement in the linearity of fast digital oscilloscopes used in averaging mode
- Author
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Lembeye, Yves, Keradec, Jean Pierre, and Cauffet, Gilles
- Subjects
Oscilloscopes -- Research ,Analog to digital converters -- Research ,Linearization (Electronics) -- Analysis - Published
- 1994
12. Handling Differential Mode Conducted EMC in Modular Converters.
- Author
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Lamorelle, Theo, Lembeye, Yves, and Crebier, Jean-Christophe
- Subjects
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HARMONIC suppression filters , *ELECTROMAGNETIC interference , *ELECTROMAGNETIC compatibility , *ELECTRIC power filters , *HARMONIC analysis (Mathematics) - Abstract
This article presents the analysis and management of differential mode conducted EMI in modular converters made from associations of standard conversion cells. Two main configurations, inputs in series—outputs in parallel and inputs in parallel—outputs in series are studied with the objective to define a generic EMI management technique, independent from the number of conversion standard cells implemented. First, analysis is carried out from a theoretical point of view based on simplified models. Second, filtering solutions are introduced and compared. Especially, centralized versus distributed filtering techniques are compared with the objective to find generic solutions. The results are compared and validated with practical characterizations. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
13. A Very High Frequency Self-Oscillating Inverter Based on a Novel Free-Running Oscillator.
- Author
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Makhoul, Rawad, Zhuang, Jia, Maynard, Xavier, Perichon, Pierre, Frey, David, Jeannin, Pierre-Olivier, and Lembeye, Yves
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FREQUENCY changers ,PASSIVE components ,GALLIUM nitride ,MODULATION-doped field-effect transistors - Abstract
This letter introduces a self-oscillating very high-frequency (VHF) class $\phi$ 2 inverter based on a free-running oscillator. The class $\phi$ 2 is a low-voltage semiconductor stress, fast-transient, single-transistor inverter topology suitable for VHF applications. With new advancements in GaN technology, the tendency to increase the switching frequency in power converters is on the rise. Switching at VHF (VHF: 30–300 MHz) allows for smaller passive components and more compact power converters. However, although GaN components are able to switch at 100 MHz and beyond, gate drivers available in the market struggle to provide the adequate switching signal at VHF. Hence, there is a need for an alternative to VHF converters using those gate drivers—self-oscillating topologies. To that end, a self-oscillating class $\phi$ 2 inverter switching at 30 MHz is presented and a design methodology is provided. A 30 MHz prototype with 30 V input voltage using a GaN Systems GS61004B is also built and tested, showing good matching between the simulation and experimental results. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
14. LTCC magnetic components for high density power converter.
- Author
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Lebourgeois, Richard, Labouré, Eric, Lembeye, Yves, and Ferrieux, Jean-Paul
- Subjects
LOW Temperature Cofired Ceramic technology ,CONVERTERS (Electronics) ,POWER electronics - Abstract
This paper deals with multilayer magnetic components for power electronics application and specifically for high frequency switching. New formulations based on nickel-zinc-copper spinel ferrites were developed for high power and high frequency applications. These ferrites can be sintered at low temperature (around 900°C) which makes them compatible with the LTCC (Low Temperature Co-fired Ceramics) technology. Metallic parts of silver or gold can be fully integrated inside the ferrite while guaranteeing the integrity of both the ferrite and the metal. To make inductors or transformers with the required properties, it is mandatory to have nonmagnetic parts between the turns of the winding. Then it is essential to find a dielectric material, which can be co-sintered both with the ferrite and the metal. We will present the solution we found to this problem and we will describe the results we obtained for a multilayer co-sintered transformer. We will see that these new components have good performance compared with the state of the art and are very promising for developing high density switching mode power supplies. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
15. Design and Implementation of a Highly Integrated Dual Active Bridge Microconverter.
- Author
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Kerachev, Lyubomir, Trinh, Trung Hieu, Lembeye, Yves, and Crebier, Jean-Christophe
- Subjects
CASCADE converters ,LOW voltage systems ,ELECTRIC circuits ,CMOS integrated circuits ,LOGIC circuits ,POWER density - Abstract
This paper deals with the design and the implementation of an isolated and highly integrated low voltage, low power microconverter. A dual active-bridge topology is considered as a good candidate for reducing the number of passive elements. The design of a “power die” integrating power inverter legs and their driver circuits is carried out in order to benefit from the high level of integration and to reduce the amount of active components and the volume of the converter. Thus, a microconverter is built for 10 W power supply (5 V/2 A) and is operating at 1 MHz switching frequency. The measured efficiency of the converter is 88% for 6.5 W transferred power and 86% for 8.5 W transferred power without taking into account its control unit. The converter is operating in natural convection, and no cooling system is implemented. Therefore, a power density of 9.9 kW/L is achieved, which is beyond the state of the art of the conventional isolated converters whose power densities are around 1–2 kW/L at the same power level. [ABSTRACT FROM AUTHOR]
- Published
- 2016
- Full Text
- View/download PDF
16. Design and Realization of Highly Integrated Isolated DC/DC Microconverter.
- Author
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Deleage, Olivier, Crebier, Jean-Christophe, Brunet, Magali, Lembeye, Yves, and Manh, Hung Tran
- Subjects
DC-to-DC converters -- Design & construction ,ELECTRIC windings ,ELECTRIC inductors ,INTEGRATED circuits ,ELECTRIC inverters ,COMPLEMENTARY metal oxide semiconductors ,THIN film devices - Abstract
This paper deals with the design and the realization of an integrated isolated HF dc-to-dc converter for low-voltage and low-power conditioning applications (3.3 V and 1 W) including galvanic isolation. It is based on the 3-D integration of several elementary silicon dies in which essential components such as the inverter, the rectifier, the HF transformer, the input and output capacitors, and the output inductor have been integrated. The paper deals with the silicon integration of all these elements, with the presentation of our work being related with the state of the art. Then, it focuses on an estimate of the whole converter functional performance at 1-MHz switching frequency. Practical but partial implementation was carried out. The inverter and the rectifier are designed in CMOS technology (Austria Micro Systems 0.35 \mu\m) and have been optimized to operate at HF (1 MHz) to reduce the size of passive devices. We have monolithically integrated all that is necessary for this function. The transformer, as well as the inductor and the capacitors, is also integrated on separate silicon dies. Their integration is discussed, as well as their design and practical characterization. Based on a distributed construction, the overall converter efficiency is estimated in simulation based on practical characterizations. It appears that correct efficiency with a reasonable silicon surface and volume can be reached. [ABSTRACT FROM PUBLISHER]
- Published
- 2011
- Full Text
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17. A Novel Automated Design Methodology for Power Electronics Converters.
- Author
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Andreta, André, Lavado Villa, Luiz Fernando, Lembeye, Yves, Crebier, Jean Christophe, and Grandi, Gabriele
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CONVERTERS (Electronics) ,POWER electronics ,STATISTICAL learning ,STATISTICAL models ,INTEGRATED circuits ,INTEGRATING circuits - Abstract
This work proposes a methodology for designing power electronic converters called "Automatic Design for Manufacturing" (ADFM). This methodology proposes creating Power Converter Arrays (PCAs) using standardized converter cells. The approach is greatly inspired by the microelectronics integrated circuit design flow, power electronics building blocks, and multicell converters. To achieve the desired voltage/current specifications, the PCA conversion stage is made from the assembly of several Conversion-Standard Cells (CSCs) in series and/or parallel. The ADFM uses data-based models to simulate the behavior of a PCA with very little computational effort. These models require a special characterization approach to maximize the amount of knowledge while minimizing the amount of data. This approach consists of establishing an experiment plan to select the relevant measurements that contain the most information about the PCA technology, building an experimental setup that is capable of acquiring data automatically and using statistical learning to train models that can yield precise predictions. This work performed over 210 h of tests in nine different PCAs in order to gather data to the statistical models. The models predict the efficiency and converter temperature of several PCAs, and the accuracy is compared with real measurements. Finally, the models are employed to compare the performance of PCAs in a specific battery charging application. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
18. DC-AC Isolated Power Converter Array. Focus on Differential Mode Conducted EMI.
- Author
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CREBIER, Jean-Christophe, PHUNG, Thanh-Hai, NGUYEN, Van-Sang, LAMORELLE, Theo, ANDRETA, Andre, KẺACHEV, Lyubomir, and LEMBEYE, Yves
- Subjects
FILTERS & filtration ,ELECTRON tube grids ,CELLS ,RESPECT - Abstract
This paper introduces the implementation of a DC–AC step up isolated converter from associations of bidirectional Conversion Standard Cells (CSCs). The designed multi-cell converter is an array of standardized converter cells. It is described and then compared to a reference converter with respect to differential mode conducted electro-magnetic interference (EMI). The paper outlines the motivation for developing a generic multi-cell approach before underlining the benefits from the point of view of conducted EMI when implementing power converter arrays (PCAs). In particular, it is shown that in PCAs, the differential mode (DM) EMI filter can advantageously utilize distributed CSCs, making it possible to use very low value AC inductors to filter the AC current ripple. Experimental results are provided to validate the analysis carried out in the paper. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
19. Impact of Component Dispersion in DC to DC Low-Power Low-Voltage Power Converter Array.
- Author
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Crebier, Jean-Christophe, Lamorelle, Theo, Marache, Silvain, Phung, Thanh Hai, Nguyen, Van-Sang, Andreta, Andre, Podvin, Jean Christophe, and Lembeye, Yves
- Subjects
DIRECT currents ,DISPERSION (Chemistry) ,CELL separation - Abstract
The paper deals with arrays of numerous power conversion cells, associated in series and/or in parallel to build larger step up or step down direct current (DC)/DC isolated converters. The work focuses on the impact of the spread and distribution of the conversion cell characteristics on the characteristics and performance of the power converter array (PCA). Based on a characterization protocol, about 130 conversion standard cells (CSC) are characterized and classified from a statistical point of view. Three families are defined and representatives are chosen and implemented in various configurations, in open and closed loop control, to analyze the impact of their spread characteristic over the global converter, the PCA. The paper is based on an extended practical set up and protocols, all described in details. Guidelines on CSCs implementation with respect to their dispersion are provided at the end on the paper. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF
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