Evaluation of various methods for energy storage calculation in nonlinear capacitors

Evaluation of various methods for energy storage calculation in nonlinear capacitors

In the practical application of capacitors, especially in pulsed application, recoverable energy is a key parameter, which represents the ability to store energy. However, many existing evaluation methods for energy storage calculation have not been systematically implemented and comprehensively und...

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Main Authors: Jiake Xia, Fei Cao, Shiguang Yan, Xuefeng Chen, Zhi-Sheng Lin, Yunxiong Song, Yonghong Chen, Xianlin Dong, Genshui Wang
Format: Article
Language:English
Published: AIP Publishing LLC 2020-09-01
Series:AIP Advances
Online Access:http://dx.doi.org/10.1063/5.0012089
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spelling doaj-4aa6535b422546a4b88069e191a3792d2020-11-25T03:36:12ZengAIP Publishing LLCAIP Advances2158-32262020-09-01109095132095132-810.1063/5.0012089Evaluation of various methods for energy storage calculation in nonlinear capacitorsJiake Xia0Fei Cao1Shiguang Yan2Xuefeng Chen3Zhi-Sheng Lin4Yunxiong Song5Yonghong Chen6Xianlin Dong7Genshui Wang8Key Laboratory of Inorganic Functional Materials and Devices, Shanghai Institute of Ceramics, Chinese Academy of Sciences, 588 Heshuo Road, Jiading District, Shanghai 201800, People’s Republic of ChinaKey Laboratory of Inorganic Functional Materials and Devices, Shanghai Institute of Ceramics, Chinese Academy of Sciences, 588 Heshuo Road, Jiading District, Shanghai 201800, People’s Republic of ChinaKey Laboratory of Inorganic Functional Materials and Devices, Shanghai Institute of Ceramics, Chinese Academy of Sciences, 588 Heshuo Road, Jiading District, Shanghai 201800, People’s Republic of ChinaKey Laboratory of Inorganic Functional Materials and Devices, Shanghai Institute of Ceramics, Chinese Academy of Sciences, 588 Heshuo Road, Jiading District, Shanghai 201800, People’s Republic of ChinaFujian Torch Electron Technology Co., Ltd., Quanzhou, Fujian 362000, People’s Republic of ChinaFujian Torch Electron Technology Co., Ltd., Quanzhou, Fujian 362000, People’s Republic of ChinaFujian Torch Electron Technology Co., Ltd., Quanzhou, Fujian 362000, People’s Republic of ChinaKey Laboratory of Inorganic Functional Materials and Devices, Shanghai Institute of Ceramics, Chinese Academy of Sciences, 588 Heshuo Road, Jiading District, Shanghai 201800, People’s Republic of ChinaKey Laboratory of Inorganic Functional Materials and Devices, Shanghai Institute of Ceramics, Chinese Academy of Sciences, 588 Heshuo Road, Jiading District, Shanghai 201800, People’s Republic of ChinaIn the practical application of capacitors, especially in pulsed application, recoverable energy is a key parameter, which represents the ability to store energy. However, many existing evaluation methods for energy storage calculation have not been systematically implemented and comprehensively understood. In this work, four methods were applied to calculate the energy storage in linear, ferroelectric, and antiferroelectric capacitors. All methods were valid when the linear capacitor was examined. In terms of the ferroelectric capacitor, the method of equivalent parameter using DC-bias capacitance was infeasible under the high voltage owing to a massive decrease in field-dependent capacitance. As for the antiferroelectric capacitor with noticeable hysteresis, the maximum of energy storage was obtained by the method of integration of hysteresis loop, while the lower one was obtained in the fast discharge condition by the method of integration of UI (product of voltage and current). In summary, for different materials, both test conditions and calculation methods should be considered to get accurate energy storage, which best fits the working conditions.http://dx.doi.org/10.1063/5.0012089
collection DOAJ
language English
format Article
sources DOAJ
author Jiake Xia
Fei Cao
Shiguang Yan
Xuefeng Chen
Zhi-Sheng Lin
Yunxiong Song
Yonghong Chen
Xianlin Dong
Genshui Wang
spellingShingle Jiake Xia
Fei Cao
Shiguang Yan
Xuefeng Chen
Zhi-Sheng Lin
Yunxiong Song
Yonghong Chen
Xianlin Dong
Genshui Wang
Evaluation of various methods for energy storage calculation in nonlinear capacitors
AIP Advances
author_facet Jiake Xia
Fei Cao
Shiguang Yan
Xuefeng Chen
Zhi-Sheng Lin
Yunxiong Song
Yonghong Chen
Xianlin Dong
Genshui Wang
author_sort Jiake Xia
title Evaluation of various methods for energy storage calculation in nonlinear capacitors
title_short Evaluation of various methods for energy storage calculation in nonlinear capacitors
title_full Evaluation of various methods for energy storage calculation in nonlinear capacitors
title_fullStr Evaluation of various methods for energy storage calculation in nonlinear capacitors
title_full_unstemmed Evaluation of various methods for energy storage calculation in nonlinear capacitors
title_sort evaluation of various methods for energy storage calculation in nonlinear capacitors
publisher AIP Publishing LLC
series AIP Advances
issn 2158-3226
publishDate 2020-09-01
description In the practical application of capacitors, especially in pulsed application, recoverable energy is a key parameter, which represents the ability to store energy. However, many existing evaluation methods for energy storage calculation have not been systematically implemented and comprehensively understood. In this work, four methods were applied to calculate the energy storage in linear, ferroelectric, and antiferroelectric capacitors. All methods were valid when the linear capacitor was examined. In terms of the ferroelectric capacitor, the method of equivalent parameter using DC-bias capacitance was infeasible under the high voltage owing to a massive decrease in field-dependent capacitance. As for the antiferroelectric capacitor with noticeable hysteresis, the maximum of energy storage was obtained by the method of integration of hysteresis loop, while the lower one was obtained in the fast discharge condition by the method of integration of UI (product of voltage and current). In summary, for different materials, both test conditions and calculation methods should be considered to get accurate energy storage, which best fits the working conditions.
url http://dx.doi.org/10.1063/5.0012089
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