310 Study on Localization of Internal Short Circuit in Lithium Ion Battery by Inverse Analysis of Electromagnetic Field

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  • 310 電磁場逆解析によるリチウムイオン電池内の内部短絡の位置同定に関する研究
  • 電磁場逆解析によるリチウムイオン電池内の内部短絡の位置同定に関する研究
  • デンジジョウ ギャクカイセキ ニ ヨル リチウムイオン デンチ ナイ ノ ナイブ タンラク ノ イチ ドウテイ ニ カンスル ケンキュウ

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Abstract

Lithium ion battery is generally used in mobile devices for its advantages such as easy downsizing and weight saving due to high energy density. If there were short circuit points in the battery, the abnormal heating occurred for higher energy density than conventional batteries. It is necessary to identify the short circuit parts in Lithium ion battery. However, it is difficult to clarify the micro abnormal part in the battery by diagnosis imaging such as X-ray inspection. Therefore, a new technique of localization of short circuit part has been developed by using inverse analysis of the electromagnetic filed around the battery. This method can inspect the short circuit part in the battery by estimating the electric current value at the arbitrary point from data of the magnetic field around the battery. Because the technique is nondestructive inspection of short circuit part in the battery and able to quantitatively evaluate by electric current value, it will be expected to reduce the inspection cost and to improve the detection accuracy of shirt circuit in the battery. In this report, the effectiveness of this method was discussed through the electric current distribution calculated from the distribution of magnetic flux density around the specimen modeled the battery with one or two internal short circuit parts.

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