Relevant bibliographies by topics / Half-bridge LLC Resonant Converter

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  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers

Academic literature on the topic 'Half-bridge LLC Resonant Converter'

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Published: 4 June 2021
Last updated: 4 February 2022

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Journal articles on the topic "Half-bridge LLC Resonant Converter"

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Gao, Tian, Qi Wang, Yan Yang, and He He. "Modeling and Design of High Power Half-Bridge LLC Resonant Converter." Advanced Materials Research 711 (June 2013): 367–74. http://dx.doi.org/10.4028/www.scientific.net/amr.711.367.

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ntroduction was made to the working principle of topology for the half-bridge LLC resonant converter. Steady-state models of the high power LLC resonant network were researched. The high power half-bridge LLC converter was modeled and analyzed with First Harmonic Approach so as to obtain the optimal parameters. The turn ration of the converter was selected. The resonant inductance, resonant capacitance and excitation inductance were designed. The feasibility of the high power LLC converter design has been verified through simulation.
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Ma, Jianguang, Xueye Wei, Liang Hu, and Junhong Zhang. "Small-Signal Modeling of the LLC Half-Bridge Resonant Converter." Journal of Circuits, Systems and Computers 28, no. 04 (March 31, 2019): 1950063. http://dx.doi.org/10.1142/s0218126619500634.

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This paper proposes a small-signal modeling method for building an LLC half-bridge resonant converter. In recent years, the LLC half-bridge resonant converter has attracted the attention of many researchers because of its high-power conversion efficiency and high-power density. Generally, the LLC half-bridge resonant converter consists of many passive components, including stray and parasitic elements, resulting in a high-order system. Because the fundamental harmonic approximation (FHA) method for an LLC resonant converter only considers the fundamental harmonic and neglects higher harmonics, it is not accurate and introduces large errors in a higher-order system. In this paper, according to the operation principle of the LLC half-bridge resonant converter, a small-signal model is established. Based on the small-signal model, the input-to-output and control-to-output transfer function is derived. The experimental result verified that the proposed model yields a high accuracy, thereby highlighting the usefulness and versatility of the proposed model over other existing models.
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Kim, Sung-Wan, and Chang-Sun Kim. "The Efficiency Characteristics of LLC Half-Bridge Resonant Converter." Transactions of The Korean Institute of Electrical Engineers 60, no. 7 (July 1, 2011): 1366–71. http://dx.doi.org/10.5370/kiee.2011.60.7.1366.

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Kim, Yeung-Suk, and Young-Tae Kim. "Adaptive Current Control of Power LEDs Using Half-Bridge LLC Resonant Converter." Journal of the Korean Institute of Illuminating and Electrical Installation Engineers 27, no. 4 (April 30, 2013): 48–53. http://dx.doi.org/10.5207/jieie.2013.27.4.048.

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Mohammed Dobi, Abdulhakeem, and Mohd Rodhi Sahid. "Non-isolated LLC resonant DC-DC converter with balanced rectifying current and stress." Indonesian Journal of Electrical Engineering and Computer Science 18, no. 2 (May 1, 2020): 698. http://dx.doi.org/10.11591/ijeecs.v18.i2.pp698-706.

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<p><span>In isolated type LLC resonant converters, transformer leakage inductances can be merged with the resonant inductor to extend the ZVS capability of the switches apart from isolation and voltage scaling. However, the transformer presents a resonant imbalance in the secondary side leading to secondary current unbalance, an increase in RMS value of the secondary current and increase thermal stress. This paper proposed a half-bridge non-isolated LLC resonant converter with a balanced rectifying current and stress in the rectifier diodes. The proposed converter can achieve the most advantages of isolated LLC converters, such as ZVS and low MOSFET turn-off loss. By the non-isolation method, secondary current and, transformer loss is significantly reduced. In addition, rectifier diodes operate with zero current switching and balanced rectifying current and stress over the entire operating range. The proposed non-isolated structure is verified by the experimental result with a 60W LLC resonant converter. </span></p>
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Lin, Yi-Feng, Chuan Ting Chen, Zong-Xian Jiang, and Jing-Yuan Lin. "Interleaved LLC half-bridge series resonant converter with integrated transformer." Journal of the Chinese Institute of Engineers 44, no. 4 (May 4, 2021): 388–98. http://dx.doi.org/10.1080/02533839.2021.1903340.

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Jiang, Nian Ping, Zhi Jie Ma, and Peng Hong Yin. "Parallel Resonant Power Supply Based on Chip UC3863." Applied Mechanics and Materials 401-403 (September 2013): 479–82. http://dx.doi.org/10.4028/www.scientific.net/amm.401-403.479.

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This paper analyses the characteristics of parallel LLC resonant converter, and makes the comparison of the characteristics of the order switch shunt and staggered parallel switch circumstances converter. The circuit uses UC3863 chip as the core control chip switch power supply, circuit adopts the half bridge structure. This model is seldom put forward through the experiments prove the feasibility and practicability of the LLC, and greatly improving the working efficiency. Using SABER simulation software for the converter circuit simulation and analysis with the theoretical calculation of the device parameters. Example of 300v voltage input, 12-18v output voltage, 2.5 KW, 500 KHZ parallel LLC resonant converter design and simulation for model analysis. Sum up the advantages of the parallel LLC resonant converter compared with the traditional LLC resonant converter .The results of simulation verify the feasibility of the design and the accuracy of the conclusion.
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Salehi, Navid, Herminio Martinez-Garcia, and Guillermo Velasco-Quesada. "A Comparative Study of Different Optimization Methods for Resonance Half-Bridge Converter." Electronics 7, no. 12 (December 2, 2018): 368. http://dx.doi.org/10.3390/electronics7120368.

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The LLC resonance half-bridge converter is one of the most popular DC-DC converters and could easily inspire researchers to design a high-efficiency and high-power-density converter. LLC resonance converters have diverse operation modes based on switching frequency and load that cause designing and optimizing procedure to vary in different modes. In this paper, different operation modes of the LLC half-bridge converter that investigate different optimization procedures are introduced. The results of applying some usual optimization methods implies that for each operation mode some specific methods are more appropriate to achieve high efficiency. To verify the results of each optimization, numerous simulations are done by Pspice and MATLAB and the efficiencies are calculated to compare them. Finally, to verify the result of optimization, the experimental results of a laboratory prototype are provided.
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Li, Si, Yan Wang, and Tian Ming Yin. "Research on 12V DC/DC Converter for Pure Electric Vehicles." Applied Mechanics and Materials 614 (September 2014): 254–60. http://dx.doi.org/10.4028/www.scientific.net/amm.614.254.

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As one of the important parts of PEV (Pure Electric Vehicles), the efficiency and power density of DC/DC converter are important indicators of its performance. The efficiency of hard-switching DC/DC converter is low, so it can’t meet the requirements of PEV. To overcome such kind of problems, a DC/DC converter of 12V-30A output for PEV with LLC half-bridge resonant circuit and synchronous rectification technology is presented in this paper. Firstly, the operational principle of LLC half-bridge resonant circuit is analyzed in detail. Then the parameters of resonant network are designed based on theoretical analysis and verified. Finally, an experimental prototype of 12V-30A output for PEV is built and the efficiency is over 90%. The experimental results and running performance in PEV of the presented DC/DC converter is good enough to replace the 12V Lead-acid battery, which has broad application prospects.
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Jun, TONG, LI Facheng, LI Xiang, and YANG Xingchen. "Loss Analysis and Optimization Design of Half-Bridge LLC Resonant Converter." IOP Conference Series: Materials Science and Engineering 533 (May 30, 2019): 012017. http://dx.doi.org/10.1088/1757-899x/533/1/012017.

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Dissertations / Theses on the topic "Half-bridge LLC Resonant Converter"

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Chen, Haoning (William). "LLC Resonant Current Doubler Converter." Thesis, University of Canterbury. Electrical and Computer Engineering, 2013. http://hdl.handle.net/10092/8492.

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The telecommunications market is one of the large rapidly growing fields in today’s power supply industry due to the increasing demand for telecom distributed power supply (DPS) systems. The half-bridge LLC (Inductor-Inductor-Capacitor) resonant converter is currently the most attractive topology for the design and implementation of 24V/48V DC telecom power converters. The current doubler rectifier (CDR) converter topology was invented and described in the early 1950s which can offer the unique characteristic of halving the output voltage while doubling the output current compared to a standard rectifier. In this thesis, the current doubler converter topology with its unique characteristic is evaluated as a complementary solution to improve the LLC resonant converter performance, especially for the low output voltage and high output current telecommunication applications. A novel half-bridge LLC resonant current doubler converter (LLC-CDR) is proposed in this thesis which can offer several performance benefits compared to conventional LLC-standard rectifier design . The unique characteristics of the LLC-CDR topology can offer significant improvements by transformation of a 48V converter into a 24V converter with the same power density. This thesis introduces a new SPICE-based simulation model to analyse the operation of this novel LLC-CDR converter circuit design. This model can be used to define the critical component parameters for the LLC -CDR circuit output inductor values. It can also be used to predict the circuit overall performance under different load conditions. Both time-domain based transient simulation analysis and frequency-domain based AC analysis provided by this simulation model showed favourable results in comparison to bench measurement results on a prototype. The model provides a valuable insight to reveal some of the unique characteristics of this LLC -CDR topology. It demonstrates a proof of concept that the conventional LLC resonant converter can be easily redesigned for low voltage, high current applications by using the LLC-CDR topology without requiring a new design for the LLC resonant stage components and the power transformer. A new magnetic integration solution was proposed to significantly improve the overall performance in the LLC-CDR topology that had not been published before. The LLC-CDR converter hardware prototypes with two output inductors coupled and uncoupled configurations were extensively modelled, constructed and bench tested.Test results demonstrated the suitability of an integrated coupled inductors design for the novel LLC-CDR converter application. The integrated coupled inductors design can significantly improve the LLC-CDR converter frequency-domain based AC simulation analysis results. In addition, these results also illustrate the potential benefit of how the magnetic integration design in general could reduce the magnetic component size, cost, and weight compared to the uncoupled inductors design. Finally, a hardware prototype circuit was constructed based on a commercial 1800 W single phase telecom power converter to verify the operation of this novel half bridge LLC-CDR topology. The converter prototype successfully operated at both no load and full load conditions with the nominal output voltage halved from 48VDC to 24VDC, and doubled the output current to match the same output power density. It also demonstrates that the efficiency of this novel half bridge LLC –CDR is 92% compares to 90% of EATON’s commercial 24VDC LLC resonant converter, which can fulfill the research goals.
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Yan, Jinghui. "Full Bridge LLC Converter Secondary Architecture Study for Photovoltaic Application." Thesis, Virginia Tech, 2018. http://hdl.handle.net/10919/82490.

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The increasing global energy demand calls for attention on renewable energy development. Among the available technology, the photovoltaic (PV) panels is a popular solution. Thus, targeted Power Conditioning Systems (PCSs) are drawing increased attention in research. Microconverter is one of the PCS that can support versatile applications in various power line architectures. This work focuses on the comparison of circuit secondary side architectures for LLC converter for microconverter application. As the research foundation, general characteristic of solar energy and PV panel operation are introduced for the understanding of the needs. Previous works are referenced and compared for advantages and limitation. Base on conventional secondary resonant full bridge LLC converter, the two sub-topologies of different secondary rectification network: active, full bridge secondary and active voltage doubler output end LLC converter are presented in detail. The main operating principle is also described in mathematical formula with the corresponding cycle-by-cycle operation to ensure the functional equality before proceeding to performance comparison. Circuit efficiency analysis is conducted on the main power stage and the key components with frequency consideration. The hardware circuit achieved the designed function while the overall hardware efficiency result agrees with analysis. In the implementation, the transformer is costume built for the system pacification. Another part is the parasitic effect analysis. At a high operating frequency and to achieve very high-frequency operation, parasitic effect need to be fully understood and considered as it may have the dominating effect on the system.
Master of Science
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Kehler, Leandro Becker. "Projeto e desenvolvimento de fontes auxiliares para transformadores de estado sólido." Universidade Federal de Santa Maria, 2015. http://repositorio.ufsm.br/handle/1/8578.

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This master thesis presents the development of an auxiliary power supply to provide energy to sensors, gate drivers, instrumentation circuits and control of a three-stage Solid State Transformer (SST). These devices require an insulated power supply of ±15V and 5V. For reason of reliability and modularity, a distributed auxiliary source is proposed. Thus, it is necessary a power supply to provide energy to the low voltage (LV) side and another to the medium voltage (MV) side. With this proposal, the auxiliary power supply does not need to have the same galvanic insulation of the SST, 25kV. However, a local power supply must operate at high voltage levels and, consequently, contain a high step-down voltage gain. Relative to LV side, the most generally used topologies as an auxiliary power supply are discussed. However, these topologies cannot be used at the MV converters, due to the high voltage stress levels involved. A study of topologies used on medium and high voltage and which enable to reach a high step-down voltage gain is realized, and two interesting topologies for this application were found. One of them uses a Flying capacitor converter connected in cascade with a Double-Ended Flyback converter. The Flying capacitor converter lowers the DC bus voltage in a controlled manner to low voltage levels. So the Double-ended Flyback converter operates in LV and provides the insulated outputs to command circuits of SST. The other topology is a unidirectional four-level NPC converter operating as Double-ended Flyback converter. For this case, a modulation strategy that allows the converter to reach a high step-down voltage gain was also proposed. These topologies were evaluated and the one which showed the best result was the four-level Double-ended Flyback converter. This converter was implemented and the experimental results prove to be effective. For the LV side, a Half-bridge LLC resonant converter as auxiliary power supply was used. This converter operates in ZVS and performs the output voltage regulation through the operating frequency variation. The experimental results of this converter are also presented.
Este trabalho de mestrado apresenta o desenvolvimento de fontes auxiliares para alimentar sensores, circuitos de comando, instrumentação e o controle de um Transformador de Estado Sólido (SST) de três estágios. Estes dispositivos necessitam de alimentação isolada com tensões de ±15V e 5V e por questões de confiabilidade e modularidade, propõe-se a utilização de fontes auxiliares distribuídas. Assim, emprega-se uma fonte auxiliar para alimentar o lado de média tensão (MT) e outra para alimentar o lado de baixa tensão (BT). Com essa proposta, as fontes auxiliares não necessitam ter a mesma isolação galvânica do SST, 25kV. Entretanto, uma das fontes locais deve operar em níveis de tensão elevados e, por consequência, apresentar baixo ganho estático. No lado de BT, as principais topologias normalmente utilizadas como fonte auxiliar são discutidas. No entanto, devido aos altos níveis de tensão envolvidos, estas topologias não podem ser aplicadas ao conversor que opera em MT. Um estudo sobre topologias aplicadas a média tensão e que possibilitam alcançar um baixo ganho estático é realizado, sendo que duas topologias se mostram interessantes para esta aplicação. Uma consiste na utilização de um conversor de capacitores flutuantes conectado em cascata com um conversor Double-Ended Flyback. O conversor de capacitores flutuantes rebaixa a tensão do barramento CC, de forma controlada, para baixa tensão. Assim o Double-Ended Flyback opera em BT e fornece as saídas isoladas para alimentar os circuitos de comando do SST. A outra topologia trata-se de um conversor NPC de quatro níveis unidirecional operando como conversor Double-Ended Flyback. Para este caso, também foi proposta uma estratégia de modulação que permite o conversor alcançar o baixo ganho estático. Essas topologias foram avaliadas, apresentando melhor resultado a esta aplicação o conversor Double-ended Flyback de quatro níveis, conforme será demonstrado neste trabalho. Esse conversor foi implementado e os resultados experimentais comprovam o seu funcionamento. Para a fonte do lado de BT utilizou-se um conversor Half-Bridge LLC ressonante que opera em ZVS e realiza a regulação da tensão de saída pela variação da frequência de operação. Os resultados experimentais deste conversor também são apresentados.
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Wan, Hongmei. "High Efficiency DC-DC Converter for EV Battery Charger Using Hybrid Resonant and PWM Technique." Thesis, Virginia Tech, 2012. http://hdl.handle.net/10919/32343.

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The battery charger plays an important role in the development of electric vehicles (EVs) and plug-in hybrid electric vehicles (PHEVs).This thesis focuses on the DC-DC converter for high voltage battery charger and is divided into four chapters. The background related to EV battery charger is introduced, and the topologies of isolated DC-DC converter possibly applied in battery charge are sketched in Chapter 1. Since the EV battery charger is high voltage high power, the phase-shifted full bridge and LLC converters, which are popularly used in high power applications, are discussed in detail in Chapter 2. They are generally considered as high efficiency, high power density and high reliability, but their prominent features are also limited in certain range of operation. To make full use of the advantages and to avoid the limitation of the phase-shifted full bridge and LLC converters, a novel hybrid resonant and PWM converter combining resonant LLC half-bridge and phase shifted full-bridge topology is proposed and is described in Chapter 3. The converter achieves high efficiency and true soft switching for the entire operation range, which is very important for high voltage EV battery charger application. A 3.4 kW hardware prototype has been designed, implemented and tested to verify that the proposed hybrid converter truly avoids the disadvantages of LLC and phase-shifted full bridge converters while maintaining their advantages. In this proposed hybrid converter, the utilization efficiency of the auxiliary transformer is not that ideal. When the duty cycle is large, LLC converter charges one of the capacitors but the energy stored in the capacitor has no chance to be transferred to the output, resulting in the low utilization efficiency of the auxiliary transformer. To utilize the auxiliary transformer fully while keeping all the prominent features of the previous hybrid converter in Chapter 3, an improved hybrid resonant and PWM converter is proposed in Chapter 4. The idea has been verified with simulations. The last chapter is the conclusion which summaries the key features and findings of the two proposed hybrid converters.
Master of Science
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Gil, Gloria Milena Vargas. "Controle e simulação de um sistema fotovoltaico de baixa potência conectado à rede elétrica." reponame:Repositório Institucional da UFABC, 2016.

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Orientador: Dr. José L. Azcue Puma
Dissertação (mestrado) - Universidade Federal do ABC, Programa de Pós-Graduação em Engenharia Elétrica, 2016.
Este trabalho apresenta o estudo, modelagem e projeto de um sistema de conversão de energia para a conexão de um módulo fotovoltaico com a rede elétrica. Nesta pesquisa são abordados três conversores para adequar a energia gerada por um painel fotovoltaico e conectá-la à rede elétrica. O primeiro conversor é um Boost intercalado de dois níveis encarregado de implementar o MPPT (Maximum Power Point Tracking), o segundo conversor é um Ressonante LLC que realiza o isolamento galvânico e o terceiro conversor é um inversor em ponte completa que mantém a tensão de barramento em um valor determinado e realiza a conversão de corrente contínua para corrente alternada. Os três conversores são projetados, calculando os elementos passivos que os compõem e simulando os circuitos obtidos. Também, é realizada a modelagem dos conversores e o projeto dos controladores utilizando a análise de pequenos sinais. Os resultados de simulação são apresentados utilizando os softwares PSIM e MATLAB. Na parte experimental são verificados os dois primeiros conversores usando o kit High Voltage Isolated Solar MPPT fabricado pela Texas Instruments.
This work presents the study, modeling and design of a photovoltaic conversion system for the connection of a photovoltaic module with the grid. In this research three converters are approached to adequate the generated energy for a photovoltaic panel and to transfer the energy to the grid. The first converter is an interleaved two-level boost responsible for implementing the MPPT (Maximum Power Point Tracking) the second converter is a Resonant LLC that performs galvanic isolation and the third converter is a complete bridge inverter that keeps the bus voltage at a certain value and performs the conversion of continuos current to alternating current. The three converters are designed, calculating the passive elements that compose them and simulating the obtained circuits. Also, the modeling of the inverters and the design of the controllers are performed using small signal analysis. Simulation results are presented using the PSIM and MATLAB software. In the experimental part the first two inverters are verified using the High Voltage Isolated Solar MPPT kit manufactured by Texas Instruments.
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Yung-Chyang-Wang and 王永強. "LLC Resonant Half Bridge Converter." Thesis, 2011. http://ndltd.ncl.edu.tw/handle/65223932741609639976.

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Chen, Nan-Chung, and 陳南仲. "Analysis and Implementation of Half-Bridge LLC Resonant Converter." Thesis, 2015. http://ndltd.ncl.edu.tw/handle/m47vep.

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FANG, YU-XIANG, and 方昱翔. "Applying Half-Bridge LLC Resonant Converter to LED Driving." Thesis, 2019. http://ndltd.ncl.edu.tw/handle/3u45vm.

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碩士
國立臺北科技大學
電機工程系
107
A two-channel LED driver based on a half-bridge LLC resonant converter with a current-sharing capacitor is presented herein. For the proposed LED driver, the half-bridge LLC resonant converter is used to provide LED strings with galvanic isolation and stable current. At the same time, main switches have zero voltage switching so as to decrease switching loss. Furthenmore, the current-sharing capacitor is connected to the center-tapped point of the secondary winding so as to balance the currents in two LED strings. Above all, the proposed circuit has extensibility. In this paper, the operating principles of such an LED driver are firstly described and analyzed. After this, the simulated results based on PSIM software are provided so as to verify the feasibility of this LED driver. Eventually, a digital signal processor, named UCD3138, is used as a circuit control kernel, and the corresponding experimental results are offered to demonstrate the effectiveness of this LED driver.
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Yueh, Hsuan-Yu, and 岳軒宇. "Step-gap Transformer for LLC Half-bridge Resonant Converter." Thesis, 2018. http://ndltd.ncl.edu.tw/handle/494zgq.

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碩士
國立臺灣科技大學
電子工程系
106
A current-controlled variable transformer’s magnetizing inductance strategy, for further improving the hold-up time on half-bridge LLC converter, is proposed. A simple control strategy is used to set the desired inductance value when the input power is cut-off, In detail, the transformer’s magnetizing inductance decrease sharply when the input power is cut-off, therefore, the converter’s hold-up time can be improved without using additional auxiliary circuit or modulation control method. The mathematic model between magnetizing inductance and step-gap of LLC transformer is proposed, the benefit effects using this control strategy are verified theoretically. In the end, two platforms of LLC resonant converter are built. The experimental results have verified the hold-up time improvement of LLC resonant converter utilizing step-gap transformer.
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Yong-HongHuang and 黃永宏. "Analysis and Implementation of Half-bridge Resonant Capacitance LLC converter." Thesis, 2013. http://ndltd.ncl.edu.tw/handle/05324576081032013613.

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碩士
國立成功大學
電機工程學系碩博士班
101
In this thesis, a half-bridge resonant capacitance switching network LLC converter is analyzed and implemented. The half-bridge resonant capacitors switching network is adopted to reduce the input current ripple. The resonant capacitors and the input capacitors are integrated so that the components can be reduced. Two transformers are connected in series on the primary side and in parallel on the secondary side, thus the voltage stress and current stress is reduced. Since the voltage and current are automatically balanced between two transformers so that their power capacity is balanced. The operating principle is analyzed, the equivalent circuit of the resonant tank is analyzed, and some important parameters are designed. Finally, a LLC half-bridge resonant converter with 400V input voltage, 24V/600W output is implemented to verify the feasibility and effectiveness of the proposed LLC converter.
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Book chapters on the topic "Half-bridge LLC Resonant Converter"

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Shin, Dongsul, Kyoung-Jun Lee, Jong-Pil Lee, and Hee-Je Kim. "Hybrid Control Scheme for a Half-Bridge LLC Resonant Converter with a Wide Input Range." In Intelligent Robotics and Applications, 345–52. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-40849-6_34.

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Shahzad, M. Imran, Shahid Iqbal, and Soib Taib. "Hybrid-Bridge LLC Series Resonant Converter for Deeply Depleted PEV Battery Charging." In 9th International Conference on Robotic, Vision, Signal Processing and Power Applications, 851–58. Singapore: Springer Singapore, 2016. http://dx.doi.org/10.1007/978-981-10-1721-6_92.

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Jeong, Dong-Keun, Myung-Hyo Ryu, Joo-Won Baek, and Hee-Je Kim. "Dynamic Analysis and Optimal Design of High Efficiency Full Bridge LLC Resonant Converter." In Intelligent Robotics and Applications, 327–33. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-40849-6_31.

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Barbi, Ivo, and Fabiana Pöttker. "Half Bridge CVC-PWM Series Resonant Converter." In Power Systems, 93–113. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-96178-1_4.

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Barbi, Ivo, and Fabiana Pöttker. "Half Bridge Capacitor Voltage-Clamped Series Resonant Converter." In Power Systems, 71–92. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-96178-1_3.

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Santhosh Rani, M., Subhransu Sekhar Dash, and Julie Samantaray. "Analysis of Full Bridge LCC Resonant Converter for Wide Load Variations." In Lecture Notes in Electrical Engineering, 709–19. New Delhi: Springer India, 2014. http://dx.doi.org/10.1007/978-81-322-2119-7_69.

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"A ZVS Based LLC-Type Series-Resonant Half-Bridge DC-DC Converter." In International Conference on Computer and Electrical Engineering 4th (ICCEE 2011), 409–13. ASME Press, 2011. http://dx.doi.org/10.1115/1.859841.paper66.

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Conference papers on the topic "Half-bridge LLC Resonant Converter"

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Yang, Chun-Hsu, Tsorng-Juu Liang, Kai-Hui Chen, Ji-Shiuan Li, and Ji-Shiang Lee. "Loss analysis of half-bridge LLC resonant converter." In 2013 1st International Future Energy Electronics Conference (IFEEC). IEEE, 2013. http://dx.doi.org/10.1109/ifeec.2013.6687496.

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Shah, Syed Sikandar, Weifeng Sun, Irfan Tariq, and Shengyou Xu. "Analog Compensator Design for Half Bridge LLC Resonant Converter." In 2019 IEEE 4th International Conference on Signal and Image Processing (ICSIP). IEEE, 2019. http://dx.doi.org/10.1109/siprocess.2019.8868922.

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Buccella, Concettina, Carlo Cecati, Hamed Latafat, and Kaveh Razi. "Digital control of a half-bridge LLC resonant converter." In 2012 EPE-ECCE Europe Congress. IEEE, 2012. http://dx.doi.org/10.1109/epepemc.2012.6397488.

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Jiang You, Hao Dong, Hongjie Jia, and Xi Lin. "Half-bridge LLC resonant converter design with GaN HEMT." In 2016 IEEE 8th International Power Electronics and Motion Control Conference (IPEMC 2016 - ECCE Asia). IEEE, 2016. http://dx.doi.org/10.1109/ipemc.2016.7512629.

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Naraharisetti, Kali. "Design of half bridge LLC resonant converter using synchronous rectifier." In 2015 IEEE International Conference on Electro/Information Technology (EIT). IEEE, 2015. http://dx.doi.org/10.1109/eit.2015.7293331.

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Huang, Yong-Hong, Tsorng-Juu Liang, and Wei-Jiun Wu. "Analysis and implementation of half-bridge resonant capacitance LLC converter." In 2016 IEEE International Conference on Industrial Technology (ICIT). IEEE, 2016. http://dx.doi.org/10.1109/icit.2016.7474943.

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Ma, Ludan, Jianren Hu, and Huibin Qin. "Design of half-bridge LLC resonant converter based on PLC810PG." In 2011 International Conference on Electrical and Control Engineering (ICECE). IEEE, 2011. http://dx.doi.org/10.1109/iceceng.2011.6057926.

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Yildiran, Nezihe. "Design Methodology and Implementation of Half-Bridge LLC Resonant Converter." In 2020 International Conference on Electrical, Communication, and Computer Engineering (ICECCE). IEEE, 2020. http://dx.doi.org/10.1109/icecce49384.2020.9179322.

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D'Cruz, Reeni, and M. Rajesh. "Half bridge LLC resonant DC-DC converter for solar array simulator application." In 2015 International Conference on Technological Advancements in Power and Energy (TAP Energy). IEEE, 2015. http://dx.doi.org/10.1109/tapenergy.2015.7229606.

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Yueh-Ru Yang. "A magnetron driver with half-bridge LLC resonant converter for microwave oven." In 2014 IEEE 23rd International Symposium on Industrial Electronics (ISIE). IEEE, 2014. http://dx.doi.org/10.1109/isie.2014.6864637.

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