Design and control of an LCL series parallel resonant converters using bacterial foraging optimisation

Ehab H.E. Bayoumi

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Design and control of an LCL series parallel resonant converters using bacterial foraging optimisation

机译：利用细菌觅食优化设计和控制LCL系列并联谐振转换器

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The paper introduces a design technique for robust PID controllers for inductance capacitance inductance-T network (I,CL-T) series parallel resonant converts. AC analysis and stability analysis for LCL-T series parallel converter are premeditated. The converter controllers' designs arc based on bacterial foraging optimisation (BFO). A UFO algorithm is utilised in order to obtain the controller parameters and guarantee superior step response performance criterion. Simulation results of the designed controllers arc compared with that of conventional controllers whose parameters are luned by using will known Zieglcr-Nichols technique. Results imply the perfection of the proposed technique over the conventional method. Experimental measurements of system performance validate the proposed technique and emphasise its feasibility.

机译：本文介绍了一种用于电感电容，电感-T网络（I，CL-T）串联并联谐振转换器的鲁棒PID控制器的设计技术。 LCL-T系列并联转换器的AC分析和稳定性分析是有预谋的。转换器控制器的设计基于细菌觅食优化（BFO）。为了获得控制器参数并确保出色的阶跃响应性能标准，使用了UFO算法。与已知的Zieglcr-Nichols技术相比，所设计控制器的仿真结果与常规控制器的仿真结果相比，传统控制器的参数得到了控制。结果表明，所提出的技术优于传统方法。系统性能的实验测量结果验证了所提出的技术并强调了其可行性。

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来源
《International journal of power electronics》 |2012年第5期|479-504|共26页
作者
Ehab H.E. Bayoumi;
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作者单位

Department of Electrical and Electronics Engineering Technology, Abu Dhabi Men's College (ADMC), Higher Colleges of Technology, P.O. Box 25035, Abu Dhabi, UAE;

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原文格式 PDF
正文语种 eng
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关键词
resonant converter; bacterial foraging optimisation; BFO; PID controller;

机译：谐振转换器细菌觅食优化;BFO;PID控制器;

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1. PID controller for series-parallel resonant converters using bacterial foraging optimization [J] . E.H.E. Bayoumi, F. Salem Electromotion . 2012,第1a2期

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2. Linearized Large Signal Modeling, Analysis, and Control Design of Phase-Controlled Series-Parallel Resonant Converters Using State Feedback [J] . Aboushady A. A., Ahmed K. H., Finney S. J., Power Electronics, IEEE Transactions on . 2013,第8期

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3. Design Optimisation for Modified Series-Parallel Resonant Converter [J] . Satish S. Tanavade, K. Suresh Manic Journal of computational and theoretical nanoscience . 2020,第4期

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4. Design considerations based on AC complex circuit analysis for LCL type series resonant converter with phase shift control [C] . Kyoung-Jin Min, Bum-Suk Suh Industrial Electronics, Control, and Instrumentation, 1995., Proceedings of the 1995 IEEE IECON 21st International Conference on . 1995

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5. Series-parallel and parallel-series resonant converters operating on the utility line: Analysis, design, simulation and experimental results. [D] . Belaguli, Vijayakumar. 1996

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Design and control of an LCL series parallel resonant converters using bacterial foraging optimisation

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