Dual parameters discrimination comparison between two types of optical fiber sensors during the operation of a Li-ion battery

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abstract

In this work, a comparison between the temperature and strain decoupling performed by a bare polarization-maintaining FBG (PM-FBG) sensor and by a hybrid sensing setup, involving the slow peak of the PM-FBG and the fringe shift of the fiber loop mirror (FLM) interferometer (FLM+FBGslow), was studied and discussed. To promote such comparison, the sensors were submitted to temperature and strain variations at the surface of a cylindrical Li-ion battery (LiB), cycling between 3.0 V and 4.2 V. The data spread of the FLM+FBGslow indicates a root mean square deviation of ± 0.1 °C and ± 7.8 µε, against ± 0.5 °C and ± 9.7 µε in PM-FBG, for temperature and strain, respectively. The matrixial method through the sensitivities values of each sensor was used for data processing. Although both sensing configurations showed similar trend behavior of strain and temperature variations during all the experiment, the FLM+FBGslow setup presented better accuracy when compared to the PM-FBGs, however, it could only perform measurements in all the LiB extension, while the PM-FBG could provide data regarding a specific spot of the LiB. The highest temperature and strain variations were achieved in the end of the discharge processes. © 2023 SPIE.

authors

Matuck L.C.; Pinto J.L.; Marques C.A.F.; Nascimento M.S.

our authors

foto Carlos Marques

Carlos Marques

Assistant Professor

Groups

G2 - Photonic, Electronic and Magnetic Materials

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Publication Details

type
Journal Article
year
2023
journal
Proceedings of SPIE - The International Society for Optical Engineering
volume
12643
publisher
SPIE
digital object identifier
10.1117/12.2678091
web of science article identifier
2-s2.0-85163041339

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