Stress-based Variable-inductor for Electronic Ballasts

Lihui Zhang; Yongming Xia; Kaiyuan Lu; Youtong Fang; Ma jien; Pan Haipeng; Dong Wang

doi:10.1109/TMAG.2015.2443722

Stress-based Variable-inductor for Electronic Ballasts

Lihui Zhang, Yongming Xia, Kaiyuan Lu, Youtong Fang, Ma jien, Pan Haipeng, Dong Wang

Research output: Contribution to journal › Journal article › Research › peer-review

6 Citations (Scopus)

Abstract

Current-controlled variable inductors adjust the inductance of an alternating current (ac) coil by applying a controlled dc current to saturate the iron cores of the ac coil. The controlled dc current has to be maintained during operation, which results in increased power losses. This paper presents a new stress-based variable inductor to control inductance using the inverse magnetostrictive effect of a magnetostrictive material. The stress can be applied by a piezoelectrical material, and thus a voltage-controlled variable inductor can be realized with zero-power consumption. The new stress-based variable inductor concept is validated using a 3-D finite-element analysis. A prototype was manufactured, and the experimental results are presented. A linear relationship between inductance and applied stress can be achieved.

Original language	English
Article number	8402504
Journal	I E E E Transactions on Magnetics
Volume	51
Issue number	11
ISSN	0018-9464
DOIs	https://doi.org/10.1109/TMAG.2015.2443722
Publication status	Published - Nov 2015

Keywords

Current-controlled variable inductor
Inverse magnetostrictive effect
Voltage-controlled variable inductor

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10.1109/TMAG.2015.2443722

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title = "Stress-based Variable-inductor for Electronic Ballasts",

abstract = "Current-controlled variable inductors adjust the inductance of an alternating current (ac) coil by applying a controlled dc current to saturate the iron cores of the ac coil. The controlled dc current has to be maintained during operation, which results in increased power losses. This paper presents a new stress-based variable inductor to control inductance using the inverse magnetostrictive effect of a magnetostrictive material. The stress can be applied by a piezoelectrical material, and thus a voltage-controlled variable inductor can be realized with zero-power consumption. The new stress-based variable inductor concept is validated using a 3-D finite-element analysis. A prototype was manufactured, and the experimental results are presented. A linear relationship between inductance and applied stress can be achieved.",

keywords = "Current-controlled variable inductor, Inverse magnetostrictive effect, Voltage-controlled variable inductor",

author = "Lihui Zhang and Yongming Xia and Kaiyuan Lu and Youtong Fang and Ma jien and Pan Haipeng and Dong Wang",

year = "2015",

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doi = "10.1109/TMAG.2015.2443722",

language = "English",

volume = "51",

journal = "I E E E Transactions on Magnetics",

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TY - JOUR

T1 - Stress-based Variable-inductor for Electronic Ballasts

AU - Zhang, Lihui

AU - Xia, Yongming

AU - Lu, Kaiyuan

AU - Fang, Youtong

AU - jien, Ma

AU - Haipeng, Pan

AU - Wang, Dong

PY - 2015/11

Y1 - 2015/11

N2 - Current-controlled variable inductors adjust the inductance of an alternating current (ac) coil by applying a controlled dc current to saturate the iron cores of the ac coil. The controlled dc current has to be maintained during operation, which results in increased power losses. This paper presents a new stress-based variable inductor to control inductance using the inverse magnetostrictive effect of a magnetostrictive material. The stress can be applied by a piezoelectrical material, and thus a voltage-controlled variable inductor can be realized with zero-power consumption. The new stress-based variable inductor concept is validated using a 3-D finite-element analysis. A prototype was manufactured, and the experimental results are presented. A linear relationship between inductance and applied stress can be achieved.

AB - Current-controlled variable inductors adjust the inductance of an alternating current (ac) coil by applying a controlled dc current to saturate the iron cores of the ac coil. The controlled dc current has to be maintained during operation, which results in increased power losses. This paper presents a new stress-based variable inductor to control inductance using the inverse magnetostrictive effect of a magnetostrictive material. The stress can be applied by a piezoelectrical material, and thus a voltage-controlled variable inductor can be realized with zero-power consumption. The new stress-based variable inductor concept is validated using a 3-D finite-element analysis. A prototype was manufactured, and the experimental results are presented. A linear relationship between inductance and applied stress can be achieved.

KW - Current-controlled variable inductor

KW - Inverse magnetostrictive effect

KW - Voltage-controlled variable inductor

U2 - 10.1109/TMAG.2015.2443722

DO - 10.1109/TMAG.2015.2443722

M3 - Journal article

SN - 0018-9464

VL - 51

JO - I E E E Transactions on Magnetics

JF - I E E E Transactions on Magnetics

IS - 11

M1 - 8402504

ER -

Stress-based Variable-inductor for Electronic Ballasts

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