2021 The Principle of Intelligent Switch Composition and Algorithm of the Built-In Electronic Voltage Transformer
Xinhui Cao, Yuting Dong, Zhongzheng Li, Juan Li, Gang Liang, Honglian Zhou
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J. Appl. Math. 2021: 1-8 (2021). DOI: 10.1155/2021/8832812


With the rapid development of the social economy, people’s demand for energy is increasing. Global warming has made people pay more attention to the importance of energy saving and emission reduction. The power grid is the system responsible for the transmission and distribution of electric energy. Therefore, in the context of energy saving and emission reduction, there are higher requirements for substations in the power grid. For this reason, an intelligent switch with built-in electronic voltage transformer is designed. The concept and key technical characteristics of the electronic voltage transformer intelligent switch are introduced; the overall design scheme of the built-in electronic voltage transformer intelligent switch is expounded; the hardware and software system of the device is designed; the management and control strategy of the design device is such as transformer tangent control, voltage and reactive control; and the operating system is ported. Finally, the simulation test of the system proves that the system has high effectiveness and stability. The research can provide reference for the realization of efficient, economic, stable, safe, and environmentally friendly distribution of power in a power grid.


The study was supported by the Project Name Research and Application Project No. 5230JY18000H of Intelligent Integrated Switch Based on High Voltage Capacitance Technology and Primary and Secondary Fusion in Distribution Network.


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Xinhui Cao. Yuting Dong. Zhongzheng Li. Juan Li. Gang Liang. Honglian Zhou. "The Principle of Intelligent Switch Composition and Algorithm of the Built-In Electronic Voltage Transformer." J. Appl. Math. 2021 1 - 8, 2021. https://doi.org/10.1155/2021/8832812


Received: 24 September 2020; Revised: 23 April 2021; Accepted: 6 May 2021; Published: 2021
First available in Project Euclid: 28 July 2021

Digital Object Identifier: 10.1155/2021/8832812

Rights: Copyright © 2021 Hindawi


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