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Instrumentation Science & Technology Volume 44, 2016 - Issue 2
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Original Articles

Novel optical current sensor for metering and protection in high power applications

I. M. NascimentoINESC TEC, Porto, Portugal;Department of Physics and Astronomy, Faculty of Sciences, University of Porto, Porto, PortugalCorrespondence[email protected]
,
A. C. S. BrígidaINESC TEC, Porto, Portugal;Universidade Federal do Pará, Belém, Brazil
,
J. M. BaptistaINESC TEC, Porto, Portugal;Centro de Competências de Ciências Exactas e de Engenharia, Universidade da Madeira, Funchal, Portugal
,
J. C. W. A. CostaUniversidade Federal do Pará, Belém, Brazil
,
M. A. G. MartinezCentro Federal de Educação Tecnológica Celso Suckow da Fonseca, Rio de Janeiro, Brazil
&
P. A. S. JorgeINESC TEC, Porto, Portugal
Pages 148-162 | Published online: 09 Dec 2015

References

  • El-Khozondar, H.J.; Muller, M.S.; El-Khozondar, R.J.; Koch, A.W. Magnetic Field In homogeneity Induced on the Magneto-Optical Current Sensors. Inf. Photon. 2011, 1–2.
  • Rahmatian, F. High-Voltage Current and Voltage Sensors for a Smarter Transmission Grid and their Use in Live-Line Testing and Calibration. Power Energy Soc. Gen. Meet. 2010, 10–12.
  • Lin, H.; Lin, W.; Chen, M. Modified In-Line Sagnac Interferometer with Passive Demodulation for Environmental Immunity of a Fiber-Optic Current Sensor. Appl. Opt. 1999, 38(13), 2760–2766.
  • Frosio, G.; Dandliker, R. Reciprocal Reflection Interferometer for a Fiber-Optic Faraday Current Sensor. Appl. Opt. 1994, 33(25), 6111–6122.
  • Silva, R.M.; Martins, H.; Nascimento, I.; Baptista, J.M.; Ribeiro, A.L.; Santos, J.L.; Jorge, P.; Frazão, O. Optical Current Sensors for High Power Systems: A Review. Appl. Sci. 2012, 2(4), 602–628.
  • Yang, M.; Dai, J., Zhou; C.; Jiang, D. Optical Fiber Magnetic Field Sensors with TbDyFe Magnetostrictive Thin Films as Sensing Materials. Opt. Expr. 2009, 17(23), 20777–20782.
  • Cranch, G.A.; Flockhart, G.M.H.; Kirkendall, C.K. DFB Fiber Laser Magnetic Field Sensor Based on the Lorentz Force. Opt. Fiber Sensors 2006, 1–4(2006).
  • Li, X.; Ding, H. All-Fiber Magnetic-Field Sensor based on Microfiber Knot Resonator and Magnetic Fluid. Opt. Lett. 2012, 37(24), 5187–5189.
  • Laming, R.I.; Payne, D.N. Electric current Sensors Employing Spun Highly Birefringent Optical Fibers. J. Light. Technol. 1989, 7(12), 2084–2094.
  • Kurosawa, K.; Shirakawa, K.; Kikuchi, T. Development of Optical Fiber Current Sensors and Their Applications. Transm. Distrib. Conf. Exhib. AsiaPacific 2005, (1), 1–6.
  • Fibercore. Available at http://fibercore.com/product/spun-hibi-fiber (accessed June 29, 2015).
  • Duncan, P.G.; Mastro, S. Fiber Optic Current and Potential Sensors for Naval Shipboard Use, Intelligent Ships Symposium VI, Villanova, Pennsylvania, USA, 2005.
  • Ulmer, E.A. High Accuracy Faraday Rotation Measurements. Opt. Fiber Sensors 1988, 2, 288–291.
  • Deng, X.; Li, Z.; Peng, Q.; Liu, J.; Tian, J. Research on the magneto-optic current sensor for high-current pulses. Rev. Sci. Instrum. 2008, 79(8), 1–4.
  • Cruden, A.; Michie, C.; Madden, I.; Niewczas, P.; McDonald, J.R.; Andonovic, I. Optical Current Measurement System for High-Voltage Applications. Measurement 1998, 24(2), 97–102.
  • Perciante, C.D.; Ferrari, J.A. Magnetic Crosstalk Minimization in Optical Current Sensors. IEEE Trans. Instrum. Meas. 2008, 57(10), 2304–2308.
  • Hecht, E. Optics, 4th ed. Addison Wesley: San Francisco, CA, USA, 2001.
  • Westenberger, G.; Hoffmann, H.J.; Jochs, W.W.; Przybilla, G. The Verdet Constant and its Dispersion in Optical Glasses. Passiv. Mater. Opt. Elem. 1991, 1535, 113–120.
  • Ning, Y.N.; Wang, Z.P.; Palmer, A.W.; Grattan, K.T.V.; Jackson, D.A. Recent Progress in Optical Current Sensing Techniques. Rev. Sci. Instrum. 1995, 66(5), 3097.
  • Westenberger, G.; Hoffmann, H.J.; Jochs, W.W.; Przybilla, G. The Verdet Constant and its Dispersion in Optical Glasses. In Passive Materials for Optical Elements; 1991; Vol. 1535, pp. 113–120, Conference Proceedings (http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=968958), Published in SPIE: San Diego, CA, July 21, 1991.
  • Temple, C.M.M. van den. Model of a New Temperature-Compensated Optical Current Sensor using BI12SIO20. Appl. Opt. 1993, 4869–4874.
  • Tabor, W.J. Electromagnetic Propagation through Materials Possessing Both Faraday Rotation and Birefringence: Experiments with Ytterbium Orthoferrite. J. Appl. Phys. 1969, 40(7), 2760.
  • Brigida, A.C.S.; Nascimento, I.M.; Mendonça, S.; Costa, J.C.W.A.; Martinez, M.A.G.; Baptista, J.M.; Jorge, P.A.S. Experimental and Theoretical Analysis of an Optical Current Sensor for High Power Systems. Photon. Sensors 2012, 3(1), 26–34.
  • Epoxy Technology Inc. Available at http://www.epotek.com/site/component/products/productdetail.html?cid[0]=231 (accessed June 30, 2015).
  • Williams, P.A.; Rose, A.H.; Day, G.W.; Milner, T.E.; Deeter, M.N. Temperature Dependence of the Verdet Constant in Several Diamagnetic Glasses. Appl. Opt. 1991, 30(10), 1176–1178.
  • Targonski, S.D. Compensation for Temperature Dependence Of Faraday Effect in Diamagnetic Materials: Application to Optical Fibre Sensors. Electron. Lett. 1991, 27(73), 1131–1132.

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