A New Method to Design Trifurcated Optical Fiber Displacement Sensors

Zubia, Gorka; Zubia, Joseba; Amorebieta, Josu; Aldabaldetreku, Gotzon; Durana, Gaizka

doi:10.1109/jsen.2023.3337311

Cited by 5 publications

References 38 publications

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In-depth analysis of optical fiber displacement sensor design process

Zubia,

Amorebieta

et al. 2024

J. Opt.

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Distance measurement is an essential issue in modern industry. Differential intensity sensors based on optical fibers have been very successful. Nevertheless, their ultimate range and sensitivity are limited by an inefficient fiber bundle design. This paper presents a method and a framework that allows researchers to find the best design for a sensor operating point. A database has been created that provides the responses of all bundles that can be configured with the major commercial fibers. Results show that the design of a fiber bundle for an operating point or range is not as critical as one might think. In fact, several fiber configurations allow working over the same distance range with the same responsivity. As we have shown, this result is maintained even when we impose stringent manufacturing tolerances (0.1%) on the positioning of the fibers. For this reason, thetool makes it possible to optimize the sensor response by selecting, among all possible solutions, those that maximize other parameters such as sensitivity, responsivity, operating range, or linearity. In addition, the tool is general purpose and facilitates the design of bundles tailored for precise distance measurement. The results obtained with the model and the tool have been validated with our experimental results and those obtained by other authors.

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In-depth analysis of optical fiber displacement sensor design process

Zubia,

Amorebieta

et al. 2024

J. Opt.

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Overview of Fiber Optic Sensor Applications

Tuv,

Akatov,

Opekunova

et al. 2024

2024 Conference of Young Researchers in Electrical and Electronic Engineering (ElCon)

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Design and performance analysis of tetrafurcated fiber optic displacement sensors for enhanced range and linearity

Zubia,

Zubia Zaballa,

Durana

et al. 2024

Photonic Instrumentation Engineering XI

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Optical fiber displacement sensors (OFDS) offer several advantages over conventional sensors due to their compact size and immunity to electromagnetic interference. These are particularly useful for applications in confined spaces, including aeronautical turbines. The critical component of OFDS is the fiber bundle, whose response depends on the arrangement, radius, and number of fibers. We developed a straightforward yet effective method for designing OFDSs based on sensor specifications: working point, range, and sensitivity. This allows to determine the bundle geometry directly from the specified requirements. Among the explored designs, the tetrafurcated bundle stands out, composed by a transmitting fiber at the center, surrounded by three collections of receiving fibers. This paper demonstrates that tetrafurcated OFDS designs significantly enhance both the range and linearity. Additionally, they effectively reduce the dead zone of the sensors, enabling precise measurements even at very short distances. The design has been manufactured and experimentally validated. Simulation and measurements are in good agreement with an MSE of 0.26%. Our findings highlight the practicality and reliability of tetrafurcated OFDS designs, opening new possibilities for advanced displacement sensing applications.

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A New Method to Design Trifurcated Optical Fiber Displacement Sensors

Cited by 5 publications

References 38 publications

In-depth analysis of optical fiber displacement sensor design process

In-depth analysis of optical fiber displacement sensor design process

Overview of Fiber Optic Sensor Applications

Design and performance analysis of tetrafurcated fiber optic displacement sensors for enhanced range and linearity

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