TY - JOUR
T1 - Intensity-Modulated Fiber-Optic Sensor
T2 - A Novel Grid Measurement Unit
AU - Yao, Wenxuan
AU - Zhan, Lingwei
AU - Rooke, Sterling Sean
AU - Vizas, Christopher
AU - Kaybulkin, Victor
AU - King, Thomas J.
AU - Xiao, Bailu
AU - Li, Zhi
AU - Liu, Yilu
AU - Yin, He
N1 - Publisher Copyright:
© 2005-2012 IEEE.
PY - 2023/4/1
Y1 - 2023/4/1
N2 - This article presents a novel approach to physical-displacement-based power grid measuring via an intensity-modulated fiber-optic sensor (IMFOS). An IMFOS utilizes one fiber to transmit the intensity modulated light from its electro-optic controller to a fiber-optic probe. The power grid voltage and current can induce physical displacements in transducers via the piezoelectric effect and the Lorentz law, respectively, which then result in a distance change between the optical probe and the reflective surface of the transducers. In parallel, multiple fibers are used to collect the reflective light for electro-optic conversion. A National-Instruments-based characterization platform is set up for performance evaluation. The testing result demonstrates that the IMFOS is immune to the inherent dc and low-frequency saturation issues prevalent in conventional potential and current transformers. Finally, the IMFOS is implemented in a universal grid analyzer to illustrate its applicability for phasor estimation in actual power grids.
AB - This article presents a novel approach to physical-displacement-based power grid measuring via an intensity-modulated fiber-optic sensor (IMFOS). An IMFOS utilizes one fiber to transmit the intensity modulated light from its electro-optic controller to a fiber-optic probe. The power grid voltage and current can induce physical displacements in transducers via the piezoelectric effect and the Lorentz law, respectively, which then result in a distance change between the optical probe and the reflective surface of the transducers. In parallel, multiple fibers are used to collect the reflective light for electro-optic conversion. A National-Instruments-based characterization platform is set up for performance evaluation. The testing result demonstrates that the IMFOS is immune to the inherent dc and low-frequency saturation issues prevalent in conventional potential and current transformers. Finally, the IMFOS is implemented in a universal grid analyzer to illustrate its applicability for phasor estimation in actual power grids.
KW - Intensity-modulated fiber optic (IMFO)
KW - power grid measuring
KW - universal grid analyzer (UGA)
UR - http://www.scopus.com/inward/record.url?scp=85135753689&partnerID=8YFLogxK
U2 - 10.1109/TII.2022.3194631
DO - 10.1109/TII.2022.3194631
M3 - Article
AN - SCOPUS:85135753689
SN - 1551-3203
VL - 19
SP - 5566
EP - 5575
JO - IEEE Transactions on Industrial Informatics
JF - IEEE Transactions on Industrial Informatics
IS - 4
ER -