Research on ultra-fast vacuum mechanical switch driven by repulsive force actuator

Zhao Yuan; Junjia He; Yuan Pan; Xin Jing; Canyi Zhong; Ning Zhang; Xiaoguang Wei; Guangfu Tang

doi:10.1063/1.4968578

Research on ultra-fast vacuum mechanical switch driven by repulsive force actuator

Zhao Yuan
, Junjia He
, Yuan Pan
, Xin Jing
, Canyi Zhong
, Ning Zhang
, Xiaoguang Wei
, Guangfu Tang

School of Electrical Engineering

Huazhong University of Science and Technology
Global Energy Interconnection Research Institute Co. Ltd., Beijing

Research output: Contribution to journal › Article › peer-review

44 Scopus citations

Abstract

In order to meet the fast operation demands of DC circuit breakers, a high-speed vacuum mechanical switch (VMS) driven by a repulsive force actuator is focused. To improve the drive speed and energy conversion efficiency (ECE) of the actuators, the dynamic characteristics of the double sided coil repulsive force actuators are investigated, and two generalized optimization design methods focusing on the aspect ratio of the driving coils (defined as ARF) and the electrical parameters (defined as EF) are developed. FEM simulation models' simulation and tests of VMS prototypes are conducted to verify the optimization methods. Results prove that the ARF method could improve the ECE of a VMS from 1.05% to 7.55%, and EF method could improve ECE of the same VMS from 1.05% to 6.61%, the combination of ARF and EF could improve the value of VMS's ECE to 10.50%, thus proving the validity and accuracy of the optimization methods.

Original language	English
Article number	125103
Journal	Review of Scientific Instruments
Volume	87
Issue number	12
DOIs	https://doi.org/10.1063/1.4968578
State	Published - 1 Dec 2016

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10.1063/1.4968578

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title = "Research on ultra-fast vacuum mechanical switch driven by repulsive force actuator",

abstract = "In order to meet the fast operation demands of DC circuit breakers, a high-speed vacuum mechanical switch (VMS) driven by a repulsive force actuator is focused. To improve the drive speed and energy conversion efficiency (ECE) of the actuators, the dynamic characteristics of the double sided coil repulsive force actuators are investigated, and two generalized optimization design methods focusing on the aspect ratio of the driving coils (defined as ARF) and the electrical parameters (defined as EF) are developed. FEM simulation models' simulation and tests of VMS prototypes are conducted to verify the optimization methods. Results prove that the ARF method could improve the ECE of a VMS from 1.05\% to 7.55\%, and EF method could improve ECE of the same VMS from 1.05\% to 6.61\%, the combination of ARF and EF could improve the value of VMS's ECE to 10.50\%, thus proving the validity and accuracy of the optimization methods.",

author = "Zhao Yuan and Junjia He and Yuan Pan and Xin Jing and Canyi Zhong and Ning Zhang and Xiaoguang Wei and Guangfu Tang",

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doi = "10.1063/1.4968578",

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AU - Yuan, Zhao

AU - He, Junjia

AU - Pan, Yuan

AU - Jing, Xin

AU - Zhong, Canyi

AU - Zhang, Ning

AU - Wei, Xiaoguang

AU - Tang, Guangfu

PY - 2016/12/1

Y1 - 2016/12/1

N2 - In order to meet the fast operation demands of DC circuit breakers, a high-speed vacuum mechanical switch (VMS) driven by a repulsive force actuator is focused. To improve the drive speed and energy conversion efficiency (ECE) of the actuators, the dynamic characteristics of the double sided coil repulsive force actuators are investigated, and two generalized optimization design methods focusing on the aspect ratio of the driving coils (defined as ARF) and the electrical parameters (defined as EF) are developed. FEM simulation models' simulation and tests of VMS prototypes are conducted to verify the optimization methods. Results prove that the ARF method could improve the ECE of a VMS from 1.05% to 7.55%, and EF method could improve ECE of the same VMS from 1.05% to 6.61%, the combination of ARF and EF could improve the value of VMS's ECE to 10.50%, thus proving the validity and accuracy of the optimization methods.

AB - In order to meet the fast operation demands of DC circuit breakers, a high-speed vacuum mechanical switch (VMS) driven by a repulsive force actuator is focused. To improve the drive speed and energy conversion efficiency (ECE) of the actuators, the dynamic characteristics of the double sided coil repulsive force actuators are investigated, and two generalized optimization design methods focusing on the aspect ratio of the driving coils (defined as ARF) and the electrical parameters (defined as EF) are developed. FEM simulation models' simulation and tests of VMS prototypes are conducted to verify the optimization methods. Results prove that the ARF method could improve the ECE of a VMS from 1.05% to 7.55%, and EF method could improve ECE of the same VMS from 1.05% to 6.61%, the combination of ARF and EF could improve the value of VMS's ECE to 10.50%, thus proving the validity and accuracy of the optimization methods.

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Research on ultra-fast vacuum mechanical switch driven by repulsive force actuator

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