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Control of Magnetic Sensor for Tunable Measure Range

2022 IEEE 6th Conference on Energy Internet and Energy System Integration (EI2) Pub Date : 2022-11-11 DOI:10.1109/EI256261.2022.10116539
B. Tian, Bofeng Luo, Zhong Liu, Q. Lv, Zejie Tan, Zhiming Wang, Zhenheng Xu, Renze Chen
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Abstract

Magnetic sensor can contactless monitor current in energy system, whose tunable measure range is very desirable in complex scenes. Here we use the CoxFe3-xO4/(PbMg0.33Nb0.67O3)0.67 -(PbTiO3)0.33 heterostructure to fabricate the magnetic sensor that can be controlled by electric field. By controlling the components of CoxFe3-xO4, we obtain the Co0.2Fe2.8O4 film device with proper hall resistance and strong response to applied voltage. Under the electric field from - 5kV/m to 5kV/m, an increment of 7.5 times in linear sensing range has been realized in the heterostructure, which is much larger than that in Fe3O4 film. Our finding reveals that the magnetocoupling structure has the potential for controllable sensor.
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磁传感器的可调量程控制
磁传感器可以实现电能系统电流的非接触式监测,其测量范围可调,在复杂场景中具有重要的应用价值。本文采用CoxFe3-xO4/(PbMg0.33Nb0.67O3)0.67 -(PbTiO3)0.33异质结构制备了可电场控制的磁传感器。通过对CoxFe3-xO4元件的控制,得到了具有良好霍尔电阻和强电压响应的Co0.2Fe2.8O4薄膜器件。在- 5kV/m到5kV/m的电场作用下,异质结构的线性传感范围增加了7.5倍,远远大于Fe3O4薄膜的线性传感范围。我们的研究结果表明,磁耦合结构具有可控传感器的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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2022 IEEE 6th Conference on Energy Internet and Energy System Integration (EI2)
2022 IEEE 6th Conference on Energy Internet and Energy System Integration (EI2)
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