[1] Morello R, Mukhopadhyay S C, Liu Z et al. Advances on sensing technologies for smart cities and power grids: a review[J]. IEEE Sensors Journal, 17, 7596-7610(2017).
[2] Yang Q, Sun S P, Sima W X et al. Progress of advanced voltage/current sensing techniques for smart grid[J]. High Voltage Engineering, 45, 349-367(2019).
[3] Haji M M, Vahidi B, Hosseinian S H. Current transformer saturation detection using Gaussian mixture models[J]. Journal of Applied Research and Technology, 11, 79-87(2013).
[4] Ding X D, Zhang Y M, Song Y M et al. Response characteristics of pure-quartz-core fiber Bragg grating under high temperature strain[J]. Chinese Journal of Lasers, 44, 1106003(2017).
[5] Alvarez-Botero G, Baron F E, Cano C C et al. Optical sensing using fiber Bragg gratings: fundamentals and applications[J]. IEEE Instrumentation & Measurement Magazine, 20, 33-38(2017).
[6] Liu Y Q, Guo Z Y, Liu Z G et al. Fiber grating sensor with enhanced pressure and temperature sensitivity[J]. Chinese Physics Letters, 17, 115-116(2000).
[7] Wakiwaka H, Aoki K, Yoshikawa T et al. Maximum output of a low frequency sound source using giant magnetostrictive material[J]. Journal of Alloys and Compounds, 258, 87-92(1997).
[8] Liu J H, Jiang C B, Xu H B. Giant magnetostrictive materials[J]. Science China Technological Sciences, 55, 1319-1326(2012).
[9] Kumai T, Nakabayashi H, Hirata Y et al. Field trial of optical current transformer using optical fiber as Faraday sensor[C]∥IEEE Power Engineering Society Summer Meeting, July 21-25, 2002, Chicago, IL, USA., 920-925(2002).
[10] Zhou D P, Dong Y. Anti-interference of current sensing fiber in all-fiber current sensors[J]. Acta Optica Sinica, 37, 1006002(2017).
[11] Satpathi D, Moore J A, Ennis M G. Design of a terfenol-D based fiber-optic current transducer[J]. IEEE Sensors Journal, 5, 1057-1065(2005).
[12] Satpathi D, Moore J A, Ennis M G. Terfenol-D based optical current transducer[C]∥SENSORS, 2003 IEEE, October 22-24, 2003, Toronto, ON, Canada., 403-408(2003).
[13] Xiong Y L, Zhao H, Zhang J et al. Research on optical current transformer based on the fiber Bragg grating[J]. Acta Optica Sinica, 30, 949-953(2010).
[14] Chiang K S, Kancheti R, Rastogi V. Temperature-compensated fiber-Bragg-grating-based magnetostrictive sensor for DC and AC currents[J]. Optical Engineering, 42, 1906-1909(2003).
[15] Zhao H, Sun F F, Yang Y Q et al. A novel temperature-compensated method for FBG-GMM current sensor[J]. Optics Communications, 308, 64-69(2013).
[16] Liang Y R, Zheng X J. Experimental researches on magneto-thermo-mechanical characterization of terfenol-D[J]. Acta Mechanica Solida Sinica, 20, 283-288(2007).
[17] Hristoforou E, Ktena A. Magnetostriction and magnetostrictive materials for sensing applications[J]. Journal of Magnetism and Magnetic Materials, 316, 372-378(2007).
[18] Hill K O, Meltz G. Fiber Bragg grating technology fundamentals and overview[J]. Journal of Lightwave Technology, 15, 1263-1276(1997).
[19] Tan Z, Liao C R, Liu S et al. Simultaneous measurement sensors of temperature and strain based on hollow core fiber and fiber Bragg grating[J]. Acta Optica Sinica, 38, 1206007(2018).
[20] Meltz G, Morey W W, Glenn W H. Formation of Bragg gratings in optical fibers by a transverse holographic method[J]. Optics Letters, 14, 823-825(1989).