Improvement of operating state by switching two phase-advanced capacitors to an ac ampere type linear magnetic levitation system

Takahisa Ohji; Zhen Miao; Koji Matsushima; Kenji Amei; Masaaki Sakui

doi:10.3233/JAE-2012-1531

Improvement of operating state by switching two phase-advanced capacitors to an ac ampere type linear magnetic levitation system

Takahisa Ohji^*, Zhen Miao, Koji Matsushima, Kenji Amei, Masaaki Sakui

^*Corresponding author for this work

Electric and Electronic Engineering

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

3 Scopus citations

Abstract

This paper describes the operating state improved by using phase-advanced capacitors for the ac induction type magnetic levitation (maglev) system. In case many coils are set up in yoke such as this type of maglev, the impedance of electric circuit of the stator has strong inductivity; therefore, a phase-advanced capacitor should be inserted to achieve power-saving operation for the inductive circuit. However, the ferroresonance state occurs as the power-factor of the circuit approaches 1, and then the current steeply increases even if the voltage increases slowly. Thereby, a non-magnetic plate greatly oscillates when it starts to levitate. To improve the starting oscillation, we adopted the method of switching two different capacitors. As a result, both smooth starting of levitation and minimum input power operation functioned successfully.

Original language	English
Pages (from-to)	699-704
Number of pages	6
Journal	International Journal of Applied Electromagnetics and Mechanics
Volume	39
Issue number	1-4
DOIs	https://doi.org/10.3233/JAE-2012-1531
State	Published - 2012

Keywords

Ac induction type maglev
ferroresonance
phase-advanced capacitor
power-factor correction

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering
Electrical and Electronic Engineering

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10.3233/JAE-2012-1531

Cite this

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title = "Improvement of operating state by switching two phase-advanced capacitors to an ac ampere type linear magnetic levitation system",

abstract = "This paper describes the operating state improved by using phase-advanced capacitors for the ac induction type magnetic levitation (maglev) system. In case many coils are set up in yoke such as this type of maglev, the impedance of electric circuit of the stator has strong inductivity; therefore, a phase-advanced capacitor should be inserted to achieve power-saving operation for the inductive circuit. However, the ferroresonance state occurs as the power-factor of the circuit approaches 1, and then the current steeply increases even if the voltage increases slowly. Thereby, a non-magnetic plate greatly oscillates when it starts to levitate. To improve the starting oscillation, we adopted the method of switching two different capacitors. As a result, both smooth starting of levitation and minimum input power operation functioned successfully.",

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author = "Takahisa Ohji and Zhen Miao and Koji Matsushima and Kenji Amei and Masaaki Sakui",

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T1 - Improvement of operating state by switching two phase-advanced capacitors to an ac ampere type linear magnetic levitation system

AU - Ohji, Takahisa

AU - Miao, Zhen

AU - Matsushima, Koji

AU - Amei, Kenji

AU - Sakui, Masaaki

PY - 2012

Y1 - 2012

N2 - This paper describes the operating state improved by using phase-advanced capacitors for the ac induction type magnetic levitation (maglev) system. In case many coils are set up in yoke such as this type of maglev, the impedance of electric circuit of the stator has strong inductivity; therefore, a phase-advanced capacitor should be inserted to achieve power-saving operation for the inductive circuit. However, the ferroresonance state occurs as the power-factor of the circuit approaches 1, and then the current steeply increases even if the voltage increases slowly. Thereby, a non-magnetic plate greatly oscillates when it starts to levitate. To improve the starting oscillation, we adopted the method of switching two different capacitors. As a result, both smooth starting of levitation and minimum input power operation functioned successfully.

AB - This paper describes the operating state improved by using phase-advanced capacitors for the ac induction type magnetic levitation (maglev) system. In case many coils are set up in yoke such as this type of maglev, the impedance of electric circuit of the stator has strong inductivity; therefore, a phase-advanced capacitor should be inserted to achieve power-saving operation for the inductive circuit. However, the ferroresonance state occurs as the power-factor of the circuit approaches 1, and then the current steeply increases even if the voltage increases slowly. Thereby, a non-magnetic plate greatly oscillates when it starts to levitate. To improve the starting oscillation, we adopted the method of switching two different capacitors. As a result, both smooth starting of levitation and minimum input power operation functioned successfully.

KW - Ac induction type maglev

KW - ferroresonance

KW - phase-advanced capacitor

KW - power-factor correction

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Improvement of operating state by switching two phase-advanced capacitors to an ac ampere type linear magnetic levitation system

Abstract

Keywords

ASJC Scopus subject areas

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