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Removal of earths magnetic field effect on magnetoelastic resonance sensors by an antisymmetric bias field

机译：通过反对称偏置场消除地球磁场对磁弹性共振传感器的影响

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摘要

Magnetoelastic sensors are used in a wide field of wireless sensing applications. The sensing element is a low-cost magnetostrictive ribbon whose resonant frequency depends on the measured quantity. The accuracy of magnetoelastic sensors is limited by the fact that the resonant frequency is also affected by the earth's magnetic field. In this paper we present a technique to minimize this effect by applying an antisymmetric magnetic bias field to the ribbon. The ribbon's response to external perturbation fields was measured and compared to a conventional sensor design. Our results show that the influence of the earth's magnetic field could be reduced by 77%.

机译：磁弹性传感器被广泛用于无线传感应用领域。传感元件是一种低成本的磁致伸缩带，其谐振频率取决于所测量的量。磁弹性传感器的精度受到共振频率还受地球磁场影响的事实的限制。在本文中，我们提出了一种通过将反对称磁偏置场施加到碳带上来最小化这种影响的技术。测量了碳带对外部扰动场的响应，并将其与常规传感器设计进行了比较。我们的结果表明，地球磁场的影响可以减少77％。

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期刊名称 Elsevier Sponsored Documents
作者
Bernhard Bergmair; Thomas Huber; Florian Bruckner; Christoph Vogler; Dieter Suess;
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作者单位

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年(卷),期 -1(183),44-2
年度 -1
页码 11–15
总页数 1
原文格式 PDF
正文语种
中图分类
关键词
Magnetoelastic resonance sensor Remote measurement Passive sensor Earths magnetic field Compensation Antisymmetric bias field;

机译：磁弹性共振传感器;遥测;无源传感器;地球磁场;补偿;反对称偏置场;

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1. Removal of earth's magnetic field effect on magnetoelastic resonance sensors by an antisymmetric bias field [J] . Bergmair B., Huber T., Bruckner F., Sensors and Actuators, A. Physical . 2012,第Null期

机译：通过反对称偏置场消除地球磁场对磁弹性共振传感器的影响
2. Removal of Temperature and Earth''s Field Effects of a Magnetoelastic pH Sensor [J] . Ong K. G., Tan E. L., Grimes C. A., IEEE sensors journal . 2008,第4期

机译：去除磁弹性pH传感器的温度和地球场效应
3. Characterization of Tunable Magnetic Sensor Using Bias Magnetic Field of a Hard Magnetic Film Magnetized by Pulsed-Magnetic Field [J] . Sonehara, M., Kamada, IEEE Transactions on Magnetics . 2013,第7期

机译：利用脉冲磁场磁化的硬磁膜的偏置磁场表征可调谐磁传感器
4. Magnetoelastic Behavior Of Rare Earth Based Intermetallics In High Magnetic Fields Up To 33 T [C] . M. Doerr, M. Rotter, J. Brooks, International Conference on Low Temperature Physics . 2005

机译：高磁场中稀土金属间金属间机制的磁力弹性行为高达33吨
5. Earth field magnetic resonance imaging and paramagnetic contrast agents. [D] . Mortazavi, Saideh Sadat. 2009

机译：地磁场磁共振成像和顺磁性造影剂。
6. Correction: Renaudin V. et al. Use of Earths Magnetic Field for Mitigating Gyroscope Errors Regardless of Magnetic Perturbation. Sensors 2011 11 11390-11414 [O] . Muhammad Haris Afzal, Valérie Renaudin, Gérard Lachapelle 2012

机译：校正：RenaudinV.等。不管磁扰动如何利用地球磁场来减轻陀螺仪误差。传感器20111111390-11414
7. Removal of earth's magnetic field effect on magnetoelastic resonance sensors by an antisymmetric bias field [O] . Bergmair Bernhard, Huber Thomas, Bruckner Florian, 2012

机译：通过反对称偏置场消除地球磁场对磁弹性共振传感器的影响
8. NMR (Nuclear Magnetic Resonance) Sensor for Calibrating the Field of a Superconducting Solenoid. [R] . Pluzhnikov, V. B. 1983

机译：用于校准超导电磁场的NmR（核磁共振）传感器。

Removal of earths magnetic field effect on magnetoelastic resonance sensors by an antisymmetric bias field

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