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Site De Rencontre Catholique Totalement Gratuit. . 2020 May 15;20102810. doi Affiliations PMID 32429105 PMCID PMC7285217 DOI Free PMC article Magnetoelectric Vortex Magnetic Field Sensors Based on the Metglas/PZT Laminates Do Thi Huong Giang et al. Sensors Basel. 2020. Free PMC article Abstract This paper describes the route, from simulations toward experiments, for optimizing the magnetoelectric ME geometries for vortex magnetic field sensors. The research is performed on the base of the Metglas/Piezoelectric PZT laminates in both open and closed magnetic circuit OMC and CMC geometries with different widths W, lengths L, and diameters D. Among these geometries, the CMC laminates demonstrate advantages not only in their magnetic flux distribution, but also in their sensitivity and in their independence of the position of the vortex center. In addition, the ME voltage signal is found to be enhanced by increasing the magnetostrictive volume fraction. Optimal issues are incorporated to realize a CMC-based ME double sandwich current sensor in the ring shape with D × W = 6 mm × mm and four layers of Metglas. At the resonant frequency of kHz, this sensor exhibits the record sensitivity of V/A as compared to variety of devices such as the CMC ME sensor family, fluxgate, magnetoresistive, and Hall-effect-based devices. It opens a potential to commercialize a new generation of ME-based current and or vortex magnetic sensors. Keywords Metglas; closed magnetic circuit; current sensor; magnetoelectric effects; vortex magnetic sensor. Conflict of interest statement The authors declare no conflict of interest. Figures Figure 1 The fabrication processes of ME Metglas/PZT composites of the O-type and I-type. Figure 2 The schematic illustration of different SS top and DS bottom structures under investigation in the a O-type; b I-type. Figure 3 a The experimental setup for investigation of the dependence of the ME effect on the vortex magnetic field strength and the center displacement; b The enlarged image at the sample position. Figure 4 a The magnetic flux distribution in the vortex magnetic field created by a current of 1A for the 8 mm diameter O-shape top and for mm × 15 mm I-shape bottom; b The corresponding effective magnetic induction Beff, when the DC electric wire is located at different x,y positions with respect to the sample center. Figure 5 The effective magnetic induction Beff data simulated for different current range a full range of 0–100 A; b Low current range; c Average diameter dependence of Beff. Figure 6 The simulation of the effective magnetic flux density for the SS and DS structures with different numbers of Metglas layers n = 2 and 4, respectively. Figure 7 a The frequency dependence of the ME voltage signal; b The average diameter dependence of the resonant frequency; c The ME voltage signal measured for the SS O-type samples of different average diameters. Figure 8 The frequency dependence of the ME voltage signal a SS and DS O-type; b and I-type. Figure 9 The effect of the vortex center position on the ME output voltage measured for SS samples a O-type; b I-type. Figure 10 The sensor manufacturing processes a packaging in a protective plastic cover; b winding excitation coil around the case; c mounting on a PCB board Figure 11 a The V-I characteristics of the fabricated SS and DS O-type ME-based sensors; b the output voltage signal of DS O-type ME-based sensors responses to an extremely weak step-varying current of 10 μA. Similar articles Magnetoelectric Magnetic Field Sensors A Review. Bichurin M, Petrov R, Sokolov O, Leontiev V, Kuts V, Kiselev D, Wang Y. Bichurin M, et al. Sensors Basel. 2021 Sep 17;21186232. doi Sensors Basel. 2021. PMID 34577439 Free PMC article. Review. Investigation of optimized end-bonding magnetoelectric heterostructure for sensitive magnetic field sensor. Lu C, Xu C, Wang L, Gao J, Gui J, Lin C. Lu C, et al. Rev Sci Instrum. 2014 Nov;8511115003. doi Rev Sci Instrum. 2014. PMID 25430140 Intense Pulsed Light Thermal Treatment of PbZr,TiO3 /Metglas Heterostructured Films Resulting in Extreme Magnetoelectric Coupling of over 20 V cm-1 Oe-1. Palneedi H, Patil DR, Priya S, Woo K, Ye JW, Woo YM, Hwang YS, Hwang GT, Park JH, Ryu J. Palneedi H, et al. Adv Mater. 2023 May 18e2303553. doi Online ahead of print. Adv Mater. 2023. PMID 37199707 Metallic Glass/PVDF Magnetoelectric Laminates for Resonant Sensors and Actuators A Review. Gutiérrez J, Lasheras A, Martins P, Pereira N, Barandiarán JM, Lanceros-Mendez S. Gutiérrez J, et al. Sensors Basel. 2017 May 31;1761251. doi Sensors Basel. 2017. PMID 28561784 Free PMC article. Review. Optimization of Metglas 2605SA1 and PZT-5A Magnetoelectric Laminates for Magnetic Sensing Applications. Freeman E, Harper J, Goel N, Schiff SJ, Tadigadapa S. Freeman E, et al. Proc IEEE Sens. 2016 Oct-Nov;2016 doi Epub 2017 Jan 9. Proc IEEE Sens. 2016. PMID 30906488 Free PMC article. Cited by Magnetically Tuned Impedance and Capacitance for FeGa/PZT Bilayer Composite under Bending and Longitudinal Vibration Modes. Chen L, Wang Y, Qin F, Wan Z. Chen L, et al. Sensors Basel. 2022 Nov 29;22239283. doi Sensors Basel. 2022. PMID 36501984 Free PMC article. Static, Dynamic, and Signal-To-Noise Analysis of a Solid-State Magnetoelectric Me Sensor with a Spice-Based Circuit Simulator. Sindler Y, Lineykin S. Sindler Y, et al. Sensors Basel. 2022 Jul 24;22155514. doi Sensors Basel. 2022. PMID 35898018 Free PMC article. A Sandwich Metal-Insulation-Metal Composite for Magnetoelectric Memory Experiment and Modeling. Zhang JW, Mahmood U, Fu G, Xu F, Li T, Liu Y. Zhang JW, et al. ACS Omega. 2021 Dec 8;65035023-35029. doi eCollection 2021 Dec 21. ACS Omega. 2021. PMID 34963983 Free PMC article. Magnetoelectric Magnetic Field Sensors A Review. Bichurin M, Petrov R, Sokolov O, Leontiev V, Kuts V, Kiselev D, Wang Y. Bichurin M, et al. Sensors Basel. 2021 Sep 17;21186232. doi Sensors Basel. 2021. PMID 34577439 Free PMC article. Review. Dependence of Modified Butterworth Van-Dyke Model Parameters and Magnetoimpedance on DC Magnetic Field for Magnetoelectric Composites. Chen L, Wang Y. Chen L, et al. Materials Basel. 2021 Aug 21;14164730. doi Materials Basel. 2021. PMID 34443252 Free PMC article. References Bichurin Viehland D. Magnetoelectricity in Composites. CRC Press; Boca Raton, FL, USA 2011. Kambale Jeong Ryu J. Current Status of Magnetoelectric Composite Thin/Thick Films. Adv. Condens. Matter. Phys. 2012;2012824643. doi - DOI Fuentes-Cobas Matutes-Aquino Fuentes-Montero In Handbook of Magnetic Materials. Buschow editor. Volume 19. Elsevier; Amsterdam, The Netherlands 2011. p. 129. Duc Huong Giang Multiferroic magneto-electrostrictive composites and applications. In Duc editor. Advanced Magnetism and Magnetic Materials. Vietnam National University Press; Hanoi, Vietnam 2015. Bichurin Petrov Petrov Kiliba Bukashev Smirnov Eliseev Magnetoelectric sensor of magnetic field. Ferroelectrics. 2002;280199–202. doi - DOI LinkOut - more resources Full Text Sources Europe PubMed Central MDPI PubMed Central
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