Highly Sensitive FBG Pressure Sensor Based on a 3D-Printed Transducer

Luca Schenato; Qiangzhou Rong; Zhihua Shao; Xueguang Quiao; Alessandro Pasuto; Andrea Galtarossa; Luca Palmieri

doi:10.1109/JLT.2019.2919917

Highly Sensitive FBG Pressure Sensor Based on a 3D-Printed Transducer

Luca Schenato
, Qiangzhou Rong
, Zhihua Shao
, Xueguang Quiao
, Alessandro Pasuto
, Andrea Galtarossa
, Luca Palmieri

National Research Council of Italy
Northwest University China

科研成果: 期刊稿件 › 文章 › 同行评审

58 引用（Scopus）

摘要

In this work, we describe a fiber Bragg grating (FBG) pressure sensor with high sensitivity. The sensor exploits a three-dimensional printed mechanical transducer capable of converting the external pressure very efficiently into strain, measured by a first FBG, whereas a second one is used for temperature compensation. The pressure sensitivity of this sensor is found as high as 240 pm/kPa with an accuracy of 112 Pa over 10 kPa, which makes this sensor up to 80,000 times more sensitive than a bare fiber Bragg grating. Moreover, it is experimentally shown that it is capable of detecting fast dynamic pressure change up to 100 Hz. Thanks to these performances, this device can be used in many static and dynamic low-pressure measurement applications, and it is here demonstrated as a sub-millimetric surface water waves detector.

源语言	英语
文章编号	8726115
页（从-至）	4784-4790
页数	7
期刊	Journal of Lightwave Technology
卷	37
期	18
DOI	https://doi.org/10.1109/JLT.2019.2919917
出版状态	已出版 - 15 9月 2019
已对外发布	是

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10.1109/JLT.2019.2919917

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title = "Highly Sensitive FBG Pressure Sensor Based on a 3D-Printed Transducer",

abstract = "In this work, we describe a fiber Bragg grating (FBG) pressure sensor with high sensitivity. The sensor exploits a three-dimensional printed mechanical transducer capable of converting the external pressure very efficiently into strain, measured by a first FBG, whereas a second one is used for temperature compensation. The pressure sensitivity of this sensor is found as high as 240 pm/kPa with an accuracy of 112 Pa over 10 kPa, which makes this sensor up to 80,000 times more sensitive than a bare fiber Bragg grating. Moreover, it is experimentally shown that it is capable of detecting fast dynamic pressure change up to 100 Hz. Thanks to these performances, this device can be used in many static and dynamic low-pressure measurement applications, and it is here demonstrated as a sub-millimetric surface water waves detector.",

keywords = "Fiber gratings, optical fiber sensors, pressure sensors",

author = "Luca Schenato and Qiangzhou Rong and Zhihua Shao and Xueguang Quiao and Alessandro Pasuto and Andrea Galtarossa and Luca Palmieri",

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AU - Schenato, Luca

AU - Rong, Qiangzhou

AU - Shao, Zhihua

AU - Quiao, Xueguang

AU - Pasuto, Alessandro

AU - Galtarossa, Andrea

AU - Palmieri, Luca

PY - 2019/9/15

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N2 - In this work, we describe a fiber Bragg grating (FBG) pressure sensor with high sensitivity. The sensor exploits a three-dimensional printed mechanical transducer capable of converting the external pressure very efficiently into strain, measured by a first FBG, whereas a second one is used for temperature compensation. The pressure sensitivity of this sensor is found as high as 240 pm/kPa with an accuracy of 112 Pa over 10 kPa, which makes this sensor up to 80,000 times more sensitive than a bare fiber Bragg grating. Moreover, it is experimentally shown that it is capable of detecting fast dynamic pressure change up to 100 Hz. Thanks to these performances, this device can be used in many static and dynamic low-pressure measurement applications, and it is here demonstrated as a sub-millimetric surface water waves detector.

AB - In this work, we describe a fiber Bragg grating (FBG) pressure sensor with high sensitivity. The sensor exploits a three-dimensional printed mechanical transducer capable of converting the external pressure very efficiently into strain, measured by a first FBG, whereas a second one is used for temperature compensation. The pressure sensitivity of this sensor is found as high as 240 pm/kPa with an accuracy of 112 Pa over 10 kPa, which makes this sensor up to 80,000 times more sensitive than a bare fiber Bragg grating. Moreover, it is experimentally shown that it is capable of detecting fast dynamic pressure change up to 100 Hz. Thanks to these performances, this device can be used in many static and dynamic low-pressure measurement applications, and it is here demonstrated as a sub-millimetric surface water waves detector.

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Highly Sensitive FBG Pressure Sensor Based on a 3D-Printed Transducer

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