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Journal articles on the topic 'Dual active bridge'

Author: Grafiati
Published: 4 June 2021
Last updated: 25 July 2025

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1

Heo, Yoon-Jae, and Kyo-Beum Lee. "Islanded Operation Techniques in Distributed Power Using Dual-Active-Bridge Converters." Journal of the Korean Institute of Illuminating and Electrical Installation Engineers 38, no. 4 (2024): 317–23. http://dx.doi.org/10.5207/jieie.2024.38.4.317.

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2

P.C.Athira, A. Sreeshma,. "Multiport Semi-Dual Active Bridge Converter." International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering 04, no. 07 (2015): 6275–82. http://dx.doi.org/10.15662/ijareeie.2015.0407040.

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3

Zumel, Pablo, Leonardo Ortega, Antonio Lazaro, et al. "Modular Dual-Active Bridge Converter Architecture." IEEE Transactions on Industry Applications 52, no. 3 (2016): 2444–55. http://dx.doi.org/10.1109/tia.2016.2527723.

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4

Kim, Kisu, and Honnyong Cha. "Split-Capacitor Dual-Active-Bridge Converter." IEEE Transactions on Industrial Electronics 68, no. 2 (2021): 1445–53. http://dx.doi.org/10.1109/tie.2020.2969118.

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5

Lee, Gi-Young, and Tae-Heoung Kim. "Design Method of Current Controller for Dual Active Bridge Converter Based on Parameter." Transactions of The Korean Institute of Electrical Engineers 73, no. 12 (2024): 2536–42. https://doi.org/10.5370/kiee.2024.73.12.2536.

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6

Chaturvedi, Pallavi, Mohmmed Rizwan Ansari, and Dheeraj Kumar Palwalia. "Optimal Unified Triple-Phase-Shift Control Technique for Dual Active Bridge Converter." Indian Journal Of Science And Technology 16, no. 22 (2023): 1635–44. http://dx.doi.org/10.17485/ijst/v16i22.329.

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7

Yan, Yu, Handong Gui, and Hua Bai. "Complete ZVS Analysis in Dual Active Bridge." IEEE Transactions on Power Electronics 36, no. 2 (2021): 1247–52. http://dx.doi.org/10.1109/tpel.2020.3011470.

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8

Vargas, Tadeu, Samuel Soares Queiroz, Guilherme Sebastião da Silva, and Cassiano Rech. "CONTROLLABILITY STUDY OF DUAL-ACTIVE BRIDGE CONVERTER IN CASCADED CONVERTER STRUCTURES." Eletrônica de Potência 24, no. 1 (2019): 18–26. http://dx.doi.org/10.18618/rep.2019.1.0012.

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9

Tiwari, Vivek Kumar, Mohammed Asim, M. D. Aftab Alam, Mohd Imran Siddiqui, and M. A. Alam. "Implementation of Single-Phase Shift (SPS) and Extended Phase Shift (EPS) for Dual Active Bridge (DAB)." Indian Journal Of Science And Technology 17, no. 41 (2024): 4262–69. http://dx.doi.org/10.17485/ijst/v17i41.2456.

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Objectives: To improve power transfer and efficiency in Dual Active Bridge (DAB) converters, this study compares and assesses the Single-Phase Shift (SPS) and Extended Phase Shift (EPS) control techniques. Methods: Using the Dual Active Bridge (DAB) arrangement, the research focuses on implementing SPS and EPS control methods to an Isolated Bidirectional Full-Bridge DC-DC Converter (IBDC). A comprehensive review of the IBDC's operating modes and the EPS's control concept is included in this study. Findings: In comparison with EPS, SPS control is limited by a smaller operating range, higher pow
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10

Kim, Da-Un, Sang-Gyun Ryu, Jin-Hyuk Park, Joon-Hyoung Ryu, Jae-Bum Lee, and Chong-Eun Kim. "Design of Dual-Active-Bridge Converter for 500kW Hydrogen-Fuel-Cell Power Conversion System of Railway." Journal of the Korean Society for Railway 27, no. 11 (2024): 971–79. http://dx.doi.org/10.7782/jksr.2024.27.11.971.

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11

Brighenti, Lucas, Gabriel Facchinello, Sérgio Junior, Walbermark Santos, Roberto Coelho, and Denizar Martins. "Ac-ac Hybrid Dual Active Bridge Converter With Half Bridge Port For Solid State Transformers." Eletrônica de Potência 22, no. 2 (2017): 156–66. http://dx.doi.org/10.18618/rep.2017.2.2665.

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12

Yoon, Chang-Woo, Kyung-Wook Heo, Jae-Wook Lim, Ho-Sung Kim, and Jee-Hoon Jung. "Power Decoupling Methods of Four-Port Dual-Active-Bridge Converter for Grid-Connected and Islanding Modes." TRANSACTIONS OF KOREAN INSTITUTE OF POWER ELECTRONICS 28, no. 5 (2023): 369–76. http://dx.doi.org/10.6113/tkpe.2023.28.5.369.

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13

Lee, Jun-Suk, Gwon-Gyo Jung, and Jee-Hoon Jung. "Talkative Dual Active Bridge Converter Employing Spread Spectrum Modulation to Mitigate EMI." TRANSACTIONS OF KOREAN INSTITUTE OF POWER ELECTRONICS 30, no. 1 (2025): 38–44. https://doi.org/10.6113/tkpe.2025.30.1.38.

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14

Lee, Won-Bin, Hyun-Jun Choi, Jin-Tae Cho, and Jee-Hoon Jung. "Study on Small-signal Modeling and Controller Design of DC-DC Dual Active Bridge Converters." Transactions of the Korean Institute of Power Electronics 22, no. 2 (2017): 159–65. http://dx.doi.org/10.6113/tkpe.2017.22.2.159.

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15

NAJDEK, Karol. "Identification of Dual-Active-Bridge converter transfer function." PRZEGLĄD ELEKTROTECHNICZNY 1, no. 3 (2019): 153–56. http://dx.doi.org/10.15199/48.2019.03.33.

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16

Wang, Hui, Kun Yan, Zhixiang Ling, and Jinhao Gan. "Switching strategy for isolated dual‐active‐bridge converter." IET Power Electronics 10, no. 1 (2017): 29–37. http://dx.doi.org/10.1049/iet-pel.2015.0916.

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17

Saeed, Mariam, María R. Rogina, Alberto Rodríguez, Manuel Arias, and Fernando Briz. "SiC-Based High Efficiency High Isolation Dual Active Bridge Converter for a Power Electronic Transformer." Energies 13, no. 5 (2020): 1198. http://dx.doi.org/10.3390/en13051198.

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This paper discusses the benefits of using silicon carbide (SiC) devices in a three-stage modular power electronic transformer. According to the requirements to be fulfilled by each stage, the second one (the DC/DC isolation converter) presents the most estimable improvements to be gained from the use of SiC devices. Therefore, this paper is focused on this second stage, implemented with a SiC-based dual active bridge. Selection of the SiC devices is detailed tackling the efficiency improvement which can be obtained when they are co-packed with SiC antiparallel Schottky diodes in addition to t
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18

Xu, Chen, Dongsheng Zuo, and Guodong Zhang. "Current stress optimization control applied to three-level dual-active-half-bridge." Journal of Physics: Conference Series 2932, no. 1 (2025): 012049. https://doi.org/10.1088/1742-6596/2932/1/012049.

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Abstract The Three-level Dual-Active-Half-Bridge (TL-DAHB) reduces the voltage withstand level but increases the current stress compared to the Dual-Active-Bridge (DAB). This paper designs a current stress optimization algorithm by Karush-Kuhn-Tucker (KKT) condition to solve the problem of higher current stress in TL-DAHB and proposes the optimal control of current stress by combining with Dual-Phase-Shift (DPS) control. Finally, the feasibility of current stress optimization control is verified by building a Simulink model.
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19

Kim, Sungmin, Seung-Hwan Lee, and Myung-Yong Kim. "Modulation Technique of Dual Active Bridge Converter to Improve Efficiency of Smart Transformers in Railroad Traction System." Journal of the Korean Society for Railway 19, no. 6 (2016): 727–35. http://dx.doi.org/10.7782/jksr.2016.19.6.727.

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20

Cuoghi, Stefania, Riccardo Mandrioli, Lohith Kumar Pittala, Vincenzo Cirimele, and Mattia Ricco. "Dual-Active-Bridge Model and Control for Supporting Fast Synthetic Inertial Action." Energies 15, no. 6 (2022): 2295. http://dx.doi.org/10.3390/en15062295.

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This article proposes a dual-active-bridge control to support the fast synthetic inertial action in DC microgrids. First of all, the selection of the isolated DC/DC converter to link an energy storage system with the DC bus in a microgrid is analyzed and the advantages of the dual-active-bridge converter controlled by a single-phase shift modulation justify its selection. An active front-end can be then adapted to connect the DC bus with an AC grid. Secondly, this paper presents the design of a discrete PI controller for supporting fast synthetic inertial action. In particular, a discrete dual
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21

Subudhi, Partha Sarathi, M. Thilagaraj, C. S. Sundar Ganesh, et al. "Current-Fed Bidirectional DC-DC Converter Topology for Wireless Charging System Electrical Vehicle Applications." Wireless Communications and Mobile Computing 2021 (December 8, 2021): 1–15. http://dx.doi.org/10.1155/2021/1144453.

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This paper compares the efficiency of a modified wireless power transfer (WPT) system with a current-fed dual-active half-bridge converter topology and a complete bridge converter topology for a current-fed resonate compensation network with current sharing and voltage doubler. Full-bridge topologies are widely used in current WPT structures. The C-C-L resonate compensation networks for dual-active half-bridge converter and full-bridge converter topologies are built in this paper on both the transmitter and receiver sides. Due to higher voltage stress around inverter switches, series-parallel
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22

Tian, Haijun, Zheng Zhou, Yuanshuai Liu, Yuepeng Zhang, and Mingsuo Yang. "Output voltage control of DAB converters based on uncertainty and disturbance estimation." PeerJ Computer Science 10 (July 1, 2024): e2175. http://dx.doi.org/10.7717/peerj-cs.2175.

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The dual active bridge (DAB) converter is a power electronic device commonly used for DC voltage regulation and stabilization. However, during its control process, external disturbances, load variations, input voltage variations, switching tube voltage drops, dead time, etc. lead to errors in the control output, thus reducing the control accuracy of the system. Therefore, this article propose a robust control scheme for the output voltage based on uncertainty and disturbance estimator. In this article, an average small-signal model of the dual active bridge converter was established in terms o
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23

Yao, Yunpeng, Shen Xu, Shengli Lu, and Weifeng Sun. "Closed-Form Second-Order Power Transmission Characteristic Model of the Isolated Dual Active Bridge Converter." Journal of Clean Energy Technologies 4, no. 6 (2016): 384–88. http://dx.doi.org/10.18178/jocet.2016.4.6.318.

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24

Farhangi, Babak, and Hamid A. Toliyat. "Piecewise Linear Model for Snubberless Dual Active Bridge Commutation." IEEE Transactions on Industry Applications 51, no. 5 (2015): 4072–78. http://dx.doi.org/10.1109/tia.2015.2434803.

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25

Mueller, Jacob A., and Jonathan W. Kimball. "Modeling Dual Active Bridge Converters in DC Distribution Systems." IEEE Transactions on Power Electronics 34, no. 6 (2019): 5867–79. http://dx.doi.org/10.1109/tpel.2018.2867434.

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26

Jakka, Venkat Nag Someswar Rao, Anshuman Shukla, and Georgios Demetriades. "Three‐winding transformer based asymmetrical dual active bridge converter." IET Power Electronics 9, no. 12 (2016): 2377–86. http://dx.doi.org/10.1049/iet-pel.2015.0937.

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27

SHI, Ling, Wanjun LEI, Zhuoqiang LI, Yao CUI, Jun HUANG, and Yue WANG. "Stability analysis of digitally controlled dual active bridge converters." Journal of Modern Power Systems and Clean Energy 6, no. 2 (2017): 375–83. http://dx.doi.org/10.1007/s40565-017-0317-9.

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28

Ghazal, Omar M., Mostafa I. Marei, and Ahmed M. I. Mohamad. "Small-signal modeling comparison of dual active bridge converter." e-Prime - Advances in Electrical Engineering, Electronics and Energy 8 (June 2024): 100570. http://dx.doi.org/10.1016/j.prime.2024.100570.

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29

KOSZEL, Mikołaj. "Input parallel output parallel (IPOP) dual active bridge converter." PRZEGLĄD ELEKTROTECHNICZNY 1, no. 3 (2025): 227–30. https://doi.org/10.15199/48.2025.03.52.

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30

Morawiec, M., and A. Lewicki. "Power electronic transformer based on cascaded H-bridge converter." Bulletin of the Polish Academy of Sciences Technical Sciences 65, no. 5 (2017): 675–83. http://dx.doi.org/10.1515/bpasts-2017-0072.

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Abstract In this paper the control strategy of power electronic transformer (PET) is proposed. The analyzed structure of PET uses two seven-level cascaded H-bridge (CHB) rectifiers. The electrical power of PET is transferred between DC-links of CHB converters using dual-active-bridges (DABs) and low voltage high frequency transformers. The roposed solution allows for controlling the active and reactive power with a low level of harmonic distortions. The DC-link voltages and the load of the utilized H-bridges are controlled using appropriate modulation strategy. The theoretical issues are confi
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31

Lee, Jun-Young, Hyun-Jun Choi, Ju-Yong Kim, and Jee-Hoon Jun. "A Control Method to Improve Power Conversion Efficiency of Three-level NPC-Based Dual Active Bridge Converter." Transactions of the Korean Institute of Power Electronics 22, no. 2 (2017): 150–58. http://dx.doi.org/10.6113/tkpe.2017.22.2.150.

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32

Chowdhury, Shajjad, Patrick W. Wheeler, Chris Gerada, and Chintan Patel. "Model Predictive Control for a Dual-Active Bridge Inverter With a Floating Bridge." IEEE Transactions on Industrial Electronics 63, no. 9 (2016): 5558–68. http://dx.doi.org/10.1109/tie.2016.2564949.

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33

Bal, Satarupa, Dorai Babu Yelaverthi, Akshay Kumar Rathore, and Dipti Srinivasan. "Improved Modulation Strategy Using Dual Phase Shift Modulation for Active Commutated Current-Fed Dual Active Bridge." IEEE Transactions on Power Electronics 33, no. 9 (2018): 7359–75. http://dx.doi.org/10.1109/tpel.2017.2764917.

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34

Choi, Hyun-Jun, Won-Bin Lee, and Jee-Hoon Jung. "Practical Design Methodology of Dual Active Bridge Converter as Isolated Bi-directional DC-DC Converter for Solid State Transformer." Transactions of the Korean Institute of Power Electronics 22, no. 2 (2017): 102–8. http://dx.doi.org/10.6113/tkpe.2017.22.2.102.

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35

Luo, Tuo, Pinqun Jiang, Guoxian Huang, and Dong Lin. "Design and simulation of low-ripple dual active bridge DC-DC converter." Journal of Physics: Conference Series 2803, no. 1 (2024): 012058. http://dx.doi.org/10.1088/1742-6596/2803/1/012058.

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Abstract In addressing the issue of excessive high-frequency current ripple at the output port caused by high-frequency switching in traditional dual active bridge DC-DC converters, a low-ripple dual active bridge DC-DC converter was designed by replacing its switching devices with a half-bridge submodule. This converter constructs a decoupling loop for alternating and direct current components on the bridge arms, allowing the alternating components to form a loop between the bridge arms without entering the direct current port, thereby eliminating high-frequency current ripple at the direct c
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36

Henao-Bravo, Elkin Edilberto, Carlos Andrés Ramos-Paja, Andrés Julián Saavedra-Montes, Daniel González-Montoya, and Julián Sierra-Pérez. "Design Method of Dual Active Bridge Converters for Photovoltaic Systems with High Voltage Gain." Energies 13, no. 7 (2020): 1711. http://dx.doi.org/10.3390/en13071711.

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In this paper, a design method for a photovoltaic system based on a dual active bridge converter and a photovoltaic module is proposed. The method is supported by analytical results and theoretical predictions, which are confirmed with circuital simulations. The analytical development, the theoretical predictions, and the validation through circuital simulations, are the main contributions of the paper. The dual active bridge converter is selected due to its high efficiency, high input and output voltages range, and high voltage-conversion ratio, which enables the interface of low-voltage phot
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37

Yu, Lingyu, Sepandarmaz Momeni, Valery Godinez, Victor Giurgiutiu, Paul Ziehl, and Jianguo Yu. "Dual Mode Sensing with Low-Profile Piezoelectric Thin Wafer Sensors for Steel Bridge Crack Detection and Diagnosis." Advances in Civil Engineering 2012 (2012): 1–10. http://dx.doi.org/10.1155/2012/402179.

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Monitoring of fatigue cracking in steel bridges is of high interest to many bridge owners and agencies. Due to the variety of deterioration sources and locations of bridge defects, there is currently no single method that can detect and address the potential sources globally. In this paper, we presented a dual mode sensing methodology integrating acoustic emission and ultrasonic wave inspection based on the use of low-profile piezoelectric wafer active sensors (PWAS). After introducing the research background and piezoelectric sensing principles, PWAS crack detection in passive acoustic emissi
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38

Namadmalan, Alireza, Kumars Rouzbehi, Juan Manuel Escaño, and Carlos Bordons. "Dual-Active Bridge Series Resonant Electric Vehicle Charger: A Self-Tuning Method." Electronics 9, no. 2 (2020): 253. http://dx.doi.org/10.3390/electronics9020253.

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This paper presents a new self-tuning loop for a bidirectional dual-active bridge (DAB) series resonant converter (SRC). For different loading conditions, the two active bridges can be controlled with a minimum time displacement between them to assure zero voltage switching (ZVS) and minimum circulation current conditions. The tuning loop can instantly reverse the power direction with a fast dynamics. Moreover, the tuning loop is not sensitive to series resonant tank tolerances and deviations, which makes it a robust solution for power tuning of the SRCs. For simplicity, the power is controlle
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39

Barlik, R., M. Nowak, and P. Grzejszczak. "Power transfer analysis in a single phase dual active bridge." Bulletin of the Polish Academy of Sciences: Technical Sciences 61, no. 4 (2013): 809–28. http://dx.doi.org/10.2478/bpasts-2013-0088.

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Abstract This paper presents an analysis of the power transfer between two DC circuit by use a single phase galvanically isolated dual active bridge - DAB. The analytical description of instantaneous values of the currents in both DC and in AC circuits of the DAB is done. The influence of the dead time as well as voltage drops across the transistors and diodes of the bridges is examined. The different relations between voltages of the DC circuits coupled through DAB and various phase shift ratios are considered. The analytical relations describing the average values of the currents in DC circu
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40

Snehalika, Snehalika, Ranjeeta Patel, Amruta Abhishek, Chinmoy Kumar Panigrahi, and Ranjan Keshari Pati. "A new GaN-based converter design for electric vehicle charging system." International Journal of Power Electronics and Drive Systems (IJPEDS) 15, no. 3 (2024): 1594–608. https://doi.org/10.11591/ijpeds.v15.i3.pp1594-1608.

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The research work proposes a gallium nitride (GaN) based isolated bidirectional DC-DC (IBDC)-triple active bridge (TAB) based multi-port converter (MPC) for electric vehicle (EV) charging. The proposed GaN IBDC-TAB based MPC incorporates one input port (Port 1) and two output ports (Port 2 and Port 3) for charging, implying the use of fewer components compared to a conventional dual active bridge (DAB) charging system. The output ports can be operated individually in single active bridge (SAB), Dual active bridge (DAB), and TAB modes. A 12 kW GaN IBDC-TAB based MPC converter is designed for si
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41

Nie, Yu, Xiaotian Zhang, Yihua Hu, and Mohammad Nasr Esfahani. "Automatic Power Direction Control of Dual Active Bridge/Triple Active Bridge Converter in Emergency Energy Supply for Sustainability." Sustainability 16, no. 18 (2024): 7932. http://dx.doi.org/10.3390/su16187932.

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With their multidirectional power flow capability, dual active bridge (DAB) and triple active bridge (TAB) converters find application in energy routers as DC/DC transfer components for emergency energy supply during significant power outages. These converters ensure stable sustainable power transmission across various energy sources while enabling high-power conversion. However, controlling power direction poses a challenge in DAB/TAB converters for emergency energy supply, typically a rapid change of power direction of any port of DAB/TAB converters. To address this problem, this study propo
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42

Roggia, L., and P. F. S. Costa. "Comparative analysis between integrated full‐bridge‐forward and dual active bridge DC–DC converters." Electronics Letters 54, no. 4 (2018): 231–33. http://dx.doi.org/10.1049/el.2017.3326.

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43

Sosnowski, Robert, Maciej Chojowski, and Marcin Baszyński. "An Analysis of a Transformerless Dual Active Half-Bridge Converter." Power Electronics and Drives 7, no. 1 (2022): 146–58. http://dx.doi.org/10.2478/pead-2022-0011.

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Abstract This paper proposes a transformerless dual half-bridge converter (TLDAHB). By eliminating the transformer and harnessing the possibility of using a low inductor value, it is possible to minimise the size of the converter. A phase-shift pulse width modulation will result in a wide controlled voltage gain of the converter and operation as buck and boost. The theoretical topology analysis, simulation, and experimental results are presented. Theoretical analysis consists of analysis of power transfer and design. In case of experimental research, particular attention was paid to power tran
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44

Vivek, Kumar Tiwari, Asim Mohammed, D. Aftab Alam M, Imran Siddiqui Mohd, and A. Alam M. "Implementation of Single-Phase Shift (SPS) and Extended Phase Shift (EPS) for Dual Active Bridge (DAB)." Indian Journal of Science and Technology 17, no. 41 (2024): 4262–69. https://doi.org/10.17485/IJST/v17i41.2456.

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Abstract <strong>Objectives:</strong>&nbsp;To improve power transfer and efficiency in Dual Active Bridge (DAB) converters, this study compares and assesses the Single-Phase Shift (SPS) and Extended Phase Shift (EPS) control techniques.&nbsp;<strong>Methods:</strong>&nbsp;Using the Dual Active Bridge (DAB) arrangement, the research focuses on implementing SPS and EPS control methods to an Isolated Bidirectional Full-Bridge DC-DC Converter (IBDC). A comprehensive review of the IBDC's operating modes and the EPS's control concept is included in this study.&nbsp;<strong>Findings:</strong>&nbsp;In
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45

Adireddy, Ramesh, K. N. G. Arun Pratap, Tata Himaja, and K. V. S. Ramachandra Murthy. "Circuit analysis and modelling of dual active bridge bidirectional converter." Materials Today: Proceedings 56 (2022): 3272–75. http://dx.doi.org/10.1016/j.matpr.2021.09.381.

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46

Gao, Shengwei, Hao Wang, and Kishor Tarafdar. "Phase shift control dual active bridge converter with integrated magnetics." Journal of Computational Methods in Sciences and Engineering 20, no. 3 (2020): 727–42. http://dx.doi.org/10.3233/jcm-204132.

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Traditional dual active bridge converters use transformer leakage inductance instead of energy storage inductors for magnetic integration, but this method cannot accurately control the leakage inductance. A phase shift control dual active bridge converter base on integrated magnetics is proposed, in which one transformer and one inductor are integrated in an EE core. The size of the inductance can be accurately controlled. The transformer and the inductor are decoupled and integrated so that the two operating states do not affect each other. The weight and volume of the magnetic elements are r
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47

Twiname, Ross P., Duleepa J. Thrimawithana, Udaya K. Madawala, and Craig A. Baguley. "A Dual-Active Bridge Topology With a Tuned CLC Network." IEEE Transactions on Power Electronics 30, no. 12 (2015): 6543–50. http://dx.doi.org/10.1109/tpel.2014.2384511.

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48

Voss, Johannes, Julia Warmuz, Deepa Mathai, and Rik W. De Doncker. "Adapted Auxiliary-Resonant Commutated Pole in the Dual-Active Bridge." IEEE Journal of Emerging and Selected Topics in Power Electronics 7, no. 4 (2019): 2553–60. http://dx.doi.org/10.1109/jestpe.2019.2894164.

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49

haa, K. Nivet, and K. Venka tesan. "Implementation of Digital Controlled Dual Active Bridge DC-DC Converter." International Journal of Electrical and Electronics Engineering 5, no. 3 (2018): 1–4. http://dx.doi.org/10.14445/23488379/ijeee-v5i3p101.

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50

Oggier, GermÁn G., Guillermo O. GarcÍa, and Alejandro R. Oliva. "Switching Control Strategy to Minimize Dual Active Bridge Converter Losses." IEEE Transactions on Power Electronics 24, no. 7 (2009): 1826–38. http://dx.doi.org/10.1109/tpel.2009.2020902.

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