Fiber Optic Wrapped Sensor Packaging Process

There is thus potential for the development of a more affordable type of packaging and this paper describes work undertaken to produce a cost-effective and easy-to-use technique for encapsulating fiber optic sensors in r...

Encapsulation of Fiber Optic Sensors in 3D Printed Packages for Use

To evaluate this approach, several such 3D printed package types and geometries are described and their behavior is assessed from a programme of laboratory trials, the results of which

A novel packaging method for FBG temperature sensors based on

Therefore, this article starts with the soldering process of quartz glass sheets and Invar alloy sheets and gradually introduces this technology into the fiber optic sensor packaging field.

US5533161A

A method resulting in a package for a fiber optic component includes positioning the fiber optic component within a primary protective body. A flat wrappable secondary protective...

Gecko-inspired self-adhesive packaging for strain-free temperature

In this paper, a packaging structure with a microstructure array is proposed to protect FBG sensors, while providing gecko-inspired dry adhesive capabilities through van der Waals force.

Wrap around fiber optic component package and packaging method

A packaged fiber optic coupler 10 and a method of packaging a fiber optic component, such as a fiber optic coupler 12, shall be described with reference to FIGS. 1-4.

(PDF) A Hermetic Package Technique for Multi-Functional Fiber

This article investigates using optical fibers with enhanced backscattering profiles to improve distributed fiber sensor performance and reduce instrumentation costs.

A Hermetic Package Technique for Multi-Functional Fiber Sensors

The paper demonstrates an effective technique to deploy fiber sensors to perform multi-parameter measurements in a wide range of energy systems that utilize high temperatures and

Utilizing 3D printing for the packaging of fiber optic sensors

The 3D-printing of fiber optic sensor packaging is explored. The investigation includes the evaluation of the stress-strain behavior of different filaments, the silane based bonding agent as well as the sensor

Fiber-optic sensor packaging assessment and benchmarking for

In this work, we focus our efforts on investigating various types of packaging schemes for their compatibility and integrability on the surfaces of metallic structures such as oil and gas pipelines

Adhesive free packaging method for high stability fiber MEMS sensors

This paper presents an adhesive-free packaging method for fabricating fiber-optic MEMS sensors with high measurement stability using laser welding. After the ag.