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Fusiek, Grzegorz
University of Strathclyde
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (11/11 displayed)
- 2023Development of Fiber Bragg grating strain amplification sensor for use in nuclear power plants
- 2023Design and implementation of a passive autoranging circuit for hybrid FBG-PZT photonic current transducercitations
- 2022Construction and evaluation of an optical medium voltage transducer module aimed at a 132 kV optical voltage sensor for WAMPAC systemscitations
- 2020Photonic voltage transducer with lightning impulse protection for distributed monitoring of MV networkscitations
- 2018Design and demonstration of a low-cost small-scale fatigue testing machine for multi-purpose testing of materials, sensors and structurescitations
- 2017Comparison of epoxy and braze-welded attachment methods for FBG strain gauges
- 2017Optical voltage sensor for MV networkscitations
- 2016First-time demonstration of measuring concrete prestress levels with metal packaged fibre optic sensorscitations
- 2012Towards the development of a downhole optical voltage sensor for monitoring electrical submersible pumpscitations
- 2011Induction heating assisted optical fiber bonding and sealing techniquecitations
- 2011Preliminary evaluation of a high-pressure, high-temperature downhole optical sensorcitations
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document
Optical voltage sensor for MV networks
Abstract
The design and construction of an optical voltage sensor (OVS) for distributed voltage measurements on medium-voltage (MV) networks (11 kV) is presented in this paper. The sensor prototype, comprising a piezoelectric transducer and a fiber Bragg grating (FBG) as a basic optical strain sensing element, is evaluated through laboratory testing and its performance is assessed based on the accuracy requirements specified by the relevant industry standards. It is demonstrated that the device has the potential to meet the requirements for the 3P protection and 0,2 metering classes specified by the IEC 60044-7 standard.