Power Flow Decoupling Controller for Triple Active Bridge Based on Fourier Decomposition of Transformer Currents

机译：基于变压器电流傅立叶分解的三重有源桥潮流解耦控制器

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This paper proposes a power flows decoupling controller for the triple active bridge converter. The controller is based on a full-order continuous-time model of the TAB converter derived using the generalized average modelling (GAM) technique. GAM uses the Fourier series expansion to decompose the state-space variables into two components, which represent the active power and the reactive power. The controller uses the active power components of the transformer currents to decouple the active power flows between converter ports. Additionally, the implementation of the decoupling controller in the digital domain is detailed in the paper. The decoupling performance of the proposed controller is validated in a hardware experiment.

机译：本文提出了一种用于三重有源桥变换器的功率流去耦控制器。该控制器基于TAB转换器的全序连续时间模型，该模型是使用广义平均建模（GAM）技术得出的。 GAM使用傅立叶级数展开将状态空间变量分解为两个分量，分别表示有功功率和无功功率。控制器使用变压器电流的有功功率分量使转换器端口之间的有功功率流解耦。此外，本文还详细介绍了数字域中去耦控制器的实现。在硬件实验中验证了所提出控制器的去耦性能。

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《IEEE Applied Power Electronics Conference and Exposition》|2020年|1201-1208|共8页
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Pavel Purgat; Soumya Bandyopadhyay; Zian Qin; Pavol Bauer;
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control; decoupling; dc microgrid; Fourier series; power flow control;

机译：控制;解耦;直流微电网;傅立叶级数;潮流控制;

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1. Implementation of Decoupling Power Flow Control System in Triple Active Bridge Converter Rated at 400V, 10kW, and 20kHz [J] . Koya Nishimoto, Yuichi Kado, Keiji Wada IEEJ Journal of Industry Applications . 2018,第5期

机译：额定功率为400V，10kW和20kHz的三重有源桥变换器中去耦功率流控制系统的实现
2. Self-Current Sharing in Dual-Transformer-Based Triple-Port Active Bridge DC–DC Converter With Reduced Device Count [J] . Oluwasogo Emmanuel S., Cha Honnyong IEEE Transactions on Power Electronics . 2021,第5期

机译：基于双变压器的三端口有源桥DC-DC转换器的自电流共用，减少了装置数
3. Lyapunov Function-Based Current Controller to Control Active and Reactive Power Flow From a Renewable Energy Source to a Generalized Three-Phase Microgrid System [J] . Dasgupta S., Mohan S. N., Sahoo S. K., Industrial Electronics, IEEE Transactions on . 2013,第2期

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4. Decoupling Power Flow Control of Triple-Active Bridge Converter with Voltage Difference between Each Port for Distributed Power Supply System [C] . Keigo Katagiri, Koya Nishimoto, Shota Nakagawa, European Conference on Power Electronics and Applications . 2018

机译：分布式电源系统中每个端口之间具有电压差的三有源桥式转换器的去耦功率流控制
5. New control method of active power filters with unity power factor based on time-domain decomposition of the load currents. Application to four-wire industrial systems. [D] . Abellan Garcia, Antonio. 2001

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6. Optimal Placement of Unified Power Flow Controllers to Improve Dynamic Voltage Stability Using Power System Variable Based Voltage Stability Indices [O] . Fadi M. Albatsh, Shameem Ahmad, Saad Mekhilef, -1

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7. Generalized Active Power Flow Controller for Multi Active Bridge DC-DC Converters with Minimum-Current-Point-Tracking Algorithm [O] . Osama Mohamed Hebala, Ahmed Aboushady, Khaled Hani Ahmed, 2021

机译：具有最小电流点跟踪算法的多功能桥DC-DC转换器的广义有源电流控制器
8. Closed-Loop Controller for RAC (Reflective-Array-Compressor)-Based Chirp-Fourier Transformers. [R] . Boroson, D. M., Drover, J. E., Jacobson, R. H. 1982

机译：用于RaC（反射阵列压缩器）的Chirp-Fourier变压器的闭环控制器。

Power Flow Decoupling Controller for Triple Active Bridge Based on Fourier Decomposition of Transformer Currents

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