Effect of Excitation Parameters on Fluxgate Sensing Element Response

机译：励磁参数对浮雕传感元件响应的影响

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In this paper, the response of the fluxgate core is analyzed against different design parameters using finite element method simulations. Furthermore, the nonlinear characteristic of the core magnetic material is included during simulations to have reliable evaluation about the fluxgate core behavior under the investigated operating conditions. Results of the conducted numerical simulations reveal that at 100 KHz excitation frequency, a desired flux response was achieved for 20 μm radius' core with 100 mA ac current. Moreover, in addition to the 100 mA ac current, a dc bias of 100 mA was needed to achieve a desired flux response for 20 μm radius' core at 1 MHz excitation frequency. Furthermore, for a core radius of 40 μm, a desired flux response was achieved at 100 KHz, with the excitation ac and dc currents to be 60 mA, and 100 mA respectively.

机译：本文采用有限元方法模拟分析了浮雕核心的响应。此外，在仿真期间包括芯磁性材料的非线性特性，以在研究的操作条件下具有可靠的评估磁性核心行为。所进行的数值模拟结果表明，在100kHz激发频率下，实现了20μm半径的芯，100 mA AC电流实现了所需的通量响应。此外，除了100MA AC电流之外，还需要100 mA的DC偏压，以在1MHz激发频率下实现20μm半径的核心的所需磁通响应。此外，对于40μm的核心半径，在100kHz下实现所需的通量响应，激励AC和DC电流分别为60mA和100mA。

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《IEEE Regional Symposium on Micro and Nanoelectronics》|2021年|124-128|共5页
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Mohamed Elkattan; Hassan Mostafa; A. H. Khalil;
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Magnetic flux density; Magnetic cores; Numerical simulation; Skin; Numerical models; Finite element analysis; Sensors;

机译：磁通密度;磁性核心;数值模拟;皮肤;数值模型;有限元分析;传感器;

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Effect of Excitation Parameters on Fluxgate Sensing Element Response

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