磁强计
平面的
霍尔效应传感器
磁场
材料科学
巨磁阻抗
功率(物理)
汽车工业
声学
平面阵列
电阻抗
传感器阵列
光电子学
领域(数学)
霍尔效应
电气工程
泄漏(经济)
核磁共振
电子工程
电流(流体)
磁化
作者
Shiliang Zhao,Yao Wang,Minrui Fei,Libin Chen,Yumei Wen,Ping Li
标识
DOI:10.1002/adfm.202521724
摘要
ABSTRACT The three‐axis magnetometers are widely utilized in automotive electronics, industrial robotics, and intelligent navigation for motion recognition and attitude detection. But the conventional 3D magnetic field detection is realized with multiple orthogonal sensors, causing the spatial errors, non‐orthogonality, and bulky issue. This study presents an ultra‐low power 3D magneto‐impedance (MI) sensor based on a planar [FeSiBC 20 nm/Cu 6 nm] 50 /graphene microcoil/[FeSiBC 20 nm/Cu 6 nm] 50 heterostructure. Utilizing the synergetic effects of soft magnetic material's magnetoimpedance and graphene's Hall effect under the weak current excitation, it decouples the X, Y, Z magnetic field components in one measurement, avoiding the multiple steps required by the recent planar sensors. It possesses the ultra‐low power of 25 µW, high resolutions of 20, 20, 7587 nT/Hz 1/2 at the X, Y, Z direction, and real‐time detection capability. Experiments verify that the miniature sensor array improves the magnetic field imaging accuracy by around 65% compared to the conventional 1D Hall sensors in the magnetic field leakage test.
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