Thematische Bibliographien / Full-bridge forward converter

Inhaltsverzeichnis

  1. Zeitschriftenartikel
  2. Dissertationen
  3. Konferenzberichte

Auswahl der wissenschaftlichen Literatur zum Thema „Full-bridge forward converter“

Autor: Grafiati
Veröffentlicht am 28. Juni 2021
Zuletzt aktualisiert am 8. Februar 2022

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Zeitschriftenartikel zum Thema "Full-bridge forward converter"

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Baek, Jaeil, und Han-Shin Youn. „Full-Bridge Active-Clamp Forward-Flyback Converter with an Integrated Transformer for High-Performance and Low Cost Low-Voltage DC Converter of Vehicle Applications“. Energies 13, Nr. 4 (16.02.2020): 863. http://dx.doi.org/10.3390/en13040863.

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This paper presents a full-bridge active-clamp forward-flyback (FBACFF) converter with an integrated transformer sharing a single primary winding. Compared to the conventional active-clamp-forward (ACF) converter, the proposed converter has low voltage stress on the primary switches due to its full-bridge active-clamp structure, which can leverage high performance Silicon- metal–oxide–semiconductor field-effect transistor (Si-MOSFET) of low voltage rating and low channel resistance. Integrating forward and flyback operations allows the proposed converter to have much lower primary root mean square (RMS) current than the conventional phase-shifted-full-bridge (PSFB) converter, while covering wide input/output voltage range with duty ratio over 0.5. The proposed integrated transformer reduces the transformer conduction loss and simplify the secondary structure of the proposed converter. As a result, the proposed converter has several advantages: (1) high heavy load efficiency, (2) wide input voltage range operation, (3) high power density with the integrated transformer, and (4) low cost. The proposed converter is a very promising candidate for applications with wide input voltage range and high power, such as the low-voltage DC (LDC) converter for eco-friendly vehicles.
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Nam, Vu-Hai, Duong-Van Tinh und Woojin Choi. „A Novel Hybrid LDC Converter Topology for the Integrated On-Board Charger of Electric Vehicles“. Energies 14, Nr. 12 (17.06.2021): 3603. http://dx.doi.org/10.3390/en14123603.

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Recently, the integrated On-Board Charger (OBC) combining an OBC converter with a Low-Voltage DC/DC Converter (LDC) has been considered to reduce the size, weight and cost of DC-DC converters in the EV system. This paper proposes a new integrated OBC converter with V2G (Vehicle-to-Grid) and auxiliary battery charge functions. In the proposed integrated OBC converter, the OBC converter is composed of a bidirectional full-bridge converter with an active clamp circuit and a hybrid LDC converter with a Phase-Shift Full-Bridge (PSFB) converter and a forward converter. ZVS for all primary switches and nearly ZCS for the lagging switches can be achieved for all the operating conditions. In the secondary side of the proposed LDC converter, an additional circuit composed of a capacitor and two diodes is employed to clamp the oscillation voltage across rectifier diodes and to eliminate the circulating current. Since the output capacitor of the forward converter is connected in series with the output capacitor of the auxiliary battery charger, the energy from the propulsion battery can be delivered to the auxiliary battery during the freewheeling interval and it helps reduce the current ripple of the output inductor, leading to a smaller volume of the output inductor. A 1 kW prototype converter is implemented to verify the performance of the proposed topology. The maximum efficiency of the proposed converter achieved by the experiments is 96%.
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3

Lin, Bor-Ren, und Wei-Po Liu. „Analysis of a Three-Level Bidirectional ZVS Resonant Converter“. Applied Sciences 10, Nr. 24 (21.12.2020): 9136. http://dx.doi.org/10.3390/app10249136.

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A bidirectional three-level soft switching circuit topology is proposed and implemented for medium voltage applications such as 750 V dc light rail transit, high power converters, or dc microgrid systems. The studied converter is constructed with a three-level diode-clamp circuit topology with the advantage of low voltage rating on the high-voltage side and a full-bridge circuit topology with the advantage of a low current rating on the low-voltage side. Under the forward power flow operation, the three-level converter is operated to regulate load voltage. Under the reverse power flow operation, the full-bridge circuit is operated to control high-side voltage. The proposed LLC resonant circuit is adopted to achieve bidirectional power operation and zero-voltage switching (ZVS). The achievability of the studied bidirectional ZVS converter is established from the experiments.
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Lai, Yen-Shin, und Wen-Shyue Chen. „Laboratory Course Modular Design for Learning Magnetic Components in Power Conversion Applications at Taipei Tech“. International Journal for Innovation Education and Research 5, Nr. 9 (30.09.2017): 67–81. http://dx.doi.org/10.31686/ijier.vol5.iss9.795.

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The main theme of this paper is to present the laboratory course modular design for learning and hands-on magnetic components in power converters. The objective of the course is to give the students to model the converters, realize magnetic components and test the implemented converters via the hands-on work in order to improve practical skills of students under the insufficiency of regular course training. This designed course is based upon the modular concept of five modules in common use which include forward converter, flyback converter, push-pull converter, half-bridge converter and full-bridge converter. The controllers for these converter modules include voltage mode control and peak current mode control. The specifications for each converter module are the same, 48V/12V, 60W and 100 kHz of switching frequency. The designed modular curriculum has been applied to the Industrial Technology Research and Development Master (ITRDM) Program sponsored by the industry and government. And excellent acknowledgment from students is received for providing practical training and covering the wide range of magnetic components in power conversion applications.
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Roggia, Leandro, Luciano Schuch, José Eduardo Baggio, Cassiano Rech und José Renes Pinheiro. „Integrated Full-Bridge-Forward DC–DC Converter for a Residential Microgrid Application“. IEEE Transactions on Power Electronics 28, Nr. 4 (April 2013): 1728–40. http://dx.doi.org/10.1109/tpel.2012.2214061.

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6

Lin, Bor-Ren. „Bidirectional Resonant Converter for DC Microgrid Applications“. Processes 9, Nr. 9 (15.09.2021): 1664. http://dx.doi.org/10.3390/pr9091664.

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A bidirectional resonant converter is presented and verified in this paper for an electric vehicle battery charger/discharger system. The presented circuit can achieve forward and backward power operation, low switching losses on active devices, and wide output voltage operation. The circuit structure of the presented converter includes two resonant circuits on the primary and secondary sides of an isolated transformer. The frequency modulation approach is adopted to control the studied circuit. Owing to the resonant circuit characteristic, active devices for both forward (battery charge) and backward (battery discharge) power operation can be turned on at zero voltage switching. In order to implement a universal battery charger for different kinds of electric vehicle applications, the DC converter is demanded to have a wide output voltage range capability. The topology morphing between a full bridge resonant circuit and half bridge resonant circuit is selected to obtain high- and low-output voltage range operations so that the 200–500 V output voltage range is realized in the presented resonant converter. Compared to the conventional bidirectional converters, the proposed can be operated under a wide voltage range operation. In the end, a 1 kW laboratory prototype circuit is built, and experiments are provided to demonstrate the validity and performance of the presented bidirectional resonant converter.
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Cho, Shin-Young, Il-Oun Lee, Jae-Kuk Kim und Gun-Woo Moon. „A New Standby Structure Based on a Forward Converter Integrated With a Phase-Shift Full-Bridge Converter for Server Power Supplies“. IEEE Transactions on Power Electronics 28, Nr. 1 (Januar 2013): 336–46. http://dx.doi.org/10.1109/tpel.2012.2195507.

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Jaroenkiattrai, Jedsada, und Viboon Chunkag. „Voltage Ripple Reduction in Voltage Loop of Voltage Source Converter“. International Journal of Power Electronics and Drive Systems (IJPEDS) 8, Nr. 2 (01.06.2017): 869. http://dx.doi.org/10.11591/ijpeds.v8.i2.pp869-881.

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In order to achieve a good dynamical response of a full-bridge AC-DC voltage source converters (VSC). The bandwidth of PI controller must be relatively wide. This leads to the voltage ripple produced in the control signal, as known that its ripple frequency has twice of the line frequency and cause the 3rd harmonic of an input current. A Ripple Voltage Estimator (RVE) algorithm and Feed-Forward Compensation (FFC) algorithm are proposed and added to the conventional control. The RVE algorithm estimated the ripple signal to subtract it occurring in the voltage loop. As a result, the 3rd harmonic of the input current can be reduced, and hence the Total Harmonic Distortion of input current (THDi) are improved. In addition, the FFC algorithm will offer a better dynamical response of output voltage. The performance evaluation was conducted through the simulation and experiment at 110Vrms/50Hz of the input voltage, with a 600 W load and 250 V<sub>dc</sub> output voltage. The overall system performances are obtained as follows: the power factor at the full load is higher 0.98, the harmonic distortion at AC input power source of the converter is under control in IEC61000-3-2 class A limit, and the overall efficiency is greater than 85%.
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Xiao, Qian Hua, und Hai Jing Liu. „Research on Soft Switching Power Supply with High Power Factor Based on Boost Converter“. Applied Mechanics and Materials 29-32 (August 2010): 2422–27. http://dx.doi.org/10.4028/www.scientific.net/amm.29-32.2422.

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With the development of power electronics,the technology of Switching Mode Power Supply(SMPS) is gradually perfected. However,there is no end to the demand for a high power and high performance power supply. Nowadays, Power Factor Correction (PFC) technique is widely researched. This paper mainly analyzes the fundamental configuration of the switching power supply. And we study the basic structure and the operating principles of ZVT-boost soft-switching PFC circuit and the implementing principle of soft switch. For the power requirements, the two-stage PFC circuit is used. The forward stage is a single-phase Boost Power Factor Correction circuit and the backward stage main circuit is a full-bridge converter with the phase-shifting control soft-switching technique. Finally the simulating analysis is performed to the designed system.
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Meng, Tao, Xuesong Wang und Hongqi Ben. „Starting and Voltage Suppression Scheme Based on a Passive Forward Auxiliary Circuit for Three-Phase Isolated Full-Bridge Boost PFC Converter“. IEEE Transactions on Power Electronics 33, Nr. 10 (Oktober 2018): 8512–24. http://dx.doi.org/10.1109/tpel.2017.2777865.

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Dissertationen zum Thema "Full-bridge forward converter"

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Roggia, Leandro. „Novo conversor CC-CC integrado full-bridge-forward aplicado a uma microrrede residencial“. Universidade Federal de Santa Maria, 2013. http://repositorio.ufsm.br/handle/1/3676.

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Coordenação de Aperfeiçoamento de Pessoal de Nível Superior
This Ph.D. Dissertation focuses on the proposal of a novel converter topology applied to the connection of an energy storage system, composed of a supercapacitor bank and a battery bank, to the dc bus of a residential microgrid. The proposed full-bridge-forward integrated dc-dc converter presents high voltage gain between the input and output, a fundamental requirement for the desired application, bidirectional power flow, galvanic isolation, among other features. The integration process, operation stages (including converter waveforms and equations), design methodology, dc modeling, among others, are presented. Three different clamping circuits structures are studied and applied to the proposed converter. Moreover, a comparison including several parameters with the dual active bridge converter, which is one of the most used topologies for similar applications is performed, highlighting the lesser number of active switches. Experimental results of the proposed converter in different operation modes are presented, validating the theoretical analysis. Experimental results of the dual active bridge converter are also presented and its performance is compared to the proposed converter, where it can be seen that the efficiency of the proposed converter is higher. The topology application is directed to microgrid systems, which attract high attention nowadays due to the possibility of renewable electric energy generation through distributed energy resources and with high reliability.
Esta Tese de Doutorado tem como foco a proposta de uma nova topologia de conversor aplicado para conexão de um sistema de armazenamento de energia, composto de um banco de supercapacitores e um banco de baterias, ao barramento CC de uma microrrede residencial. O conversor CC-CC integrado full-bridge-forward proposto apresenta alto ganho de tensão entre a entrada e saída, requisito fundamental para a aplicação desejada, fluxo de potência bidirecional, isolação galvânica, entre outras características. O processo de integração, etapas de operação (incluindo formas de onda e equações do conversor), metodologia de projeto, modelagem CC, entre outros, são apresentados. Três diferentes estruturas de circuitos grampeadores são estudadas e aplicadas ao conversor proposto. Além disso, uma comparação de diversos parâmetros com o conversor dual active bridge, que é uma das topologias mais utilizadas para aplicações semelhantes é realizada, destacando o menor número de interruptores. Resultados experimentais do conversor proposto em diferentes modos de operação são apresentados, validando as análises teóricas. Resultados experimentais do conversor dual active bridge também são apresentados e o seu desempenho é comparado ao do conversor proposto, onde se observa que o rendimento do conversor proposto é superior. A aplicação da topologia é voltada para sistemas de microrrede, os quais atraem grande atenção atualmente devido à possibilidade de geração de energia elétrica de maneira renovável através de fontes distribuídas e com elevada confiabilidade.
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Chudý, Andrej. „DC/DC měniče pro průmyslové napájecí zdroje“. Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2021. http://www.nusl.cz/ntk/nusl-442795.

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This diploma thesis deals with design and comparison of selected DC/DC converters, where the better of them is practically realized. The first part of the diploma thesis is focused on the general analysis of DC/DC power converters. The following part is theoretical analysis focused on the first selected topology – step-up converter. The second analysed topology is forward converter with full bridge on the primary side. The theoretical analysis also includes a description of synchronous rectifier, the differences between hard and soft switching, and the types of secondary rectifiers. Another part specializes in the detailed calculation of main components of selected converters and their subsequent power dimensioning. Both designed topologies are compared according to the required aspects. The selected better topology is supplemented by the design of control circuits and an auxiliary power supply. Practical realization of converter and commissioning follows. The diploma thesis ends with verification measurements on the realized converter and their subsequent analysis.
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Loup, Martin. „Modely stejnosměrných tranzistorových měničů v programu Simulink“. Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2020. http://www.nusl.cz/ntk/nusl-412975.

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The master’s thesis is focused on the creation of models of DC/DC converters and control program for input parameters and their configuration. The first part is theoretical and she is dedicated to the description of the program Matlab. The second chapter is dedicated to DC/DC converters. Their function is described there and the necessary equations for the design are derived. All of this is complemented by the calculation of line losses in semiconductor elements and the design of voltage and current regulator. The last two parts deal with the description of the created models in Simulink and control program in a graphical environment. The created program is able to edit and recalculate parameters of the converters, calculate line losses on semiconductor components, perform a model simulation or open it.
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Konferenzberichte zum Thema "Full-bridge forward converter"

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Roggia, Leandro, Fernando Beltrame, Luciano Schuch und Jose Renes Pinheiro. „Comparison between full-bridge-forward converter and DAB converter“. In 2013 Brazilian Power Electronics Conference (COBEP 2013). IEEE, 2013. http://dx.doi.org/10.1109/cobep.2013.6785119.

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2

Pipolo, Sabino, Stefano Bifaretti, Alessandro Lidozzi und Luca Solero. „Feed-Forward control of a ZVT Full Bridge DC-DC converter“. In 2015 IEEE 15th International Conference on Environment and Electrical Engineering (EEEIC). IEEE, 2015. http://dx.doi.org/10.1109/eeeic.2015.7165308.

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3

Hsieh, Guan-Chyun, und Tuzng-Hang Yang. „Step-up ZVS full-bridge converter with loss reduction by forward energy-delivered circuit“. In 2008 IEEE Vehicle Power and Propulsion Conference (VPPC). IEEE, 2008. http://dx.doi.org/10.1109/vppc.2008.4677780.

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4

Cho, Shin-Young, Jae-Kook Kim, Il-Woon Lee, Moon-Young Kim und Gun-Woo Moon. „High-efficiency standby forward converter integrated with DC/DC Phase-Shift Full Bridge converter for server power supply system“. In ECCE Asia (ICPE 2011- ECCE Asia). IEEE, 2011. http://dx.doi.org/10.1109/icpe.2011.5944711.

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5

Makda, Ishtiyaq Ahmed, und Morten Nymand. „Common mode noise generation and filter design for a hard switched isolated full-bridge forward converter“. In IECON 2014 - 40th Annual Conference of the IEEE Industrial Electronics Society. IEEE, 2014. http://dx.doi.org/10.1109/iecon.2014.7048671.

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6

Makda, Ishtiyaq Ahmed, und Morten Nymand. „Common-mode noise analysis, modeling and filter design for a phase-shifted full-bridge forward converter“. In 2015 IEEE 11th International Conference on Power Electronics and Drive Systems. IEEE, 2015. http://dx.doi.org/10.1109/peds.2015.7203521.

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7

Ahmed, Md Muqeet, A. Usha, Iramma Shirsi, Bhoopendra Kumar Singh und Bhanu Prakash. „A Feed forward Voltage Mode Controlled ZVS based Phase shifted 300W full bridge DC-DC converter for military application“. In 2015 International Conference on Power and Advanced Control Engineering (ICPACE). IEEE, 2015. http://dx.doi.org/10.1109/icpace.2015.7274950.

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