Measurement Method of Magnetic Field for the Wire Suspended Micro-Pendulum Accelerometer

Lu, Yongle; Li, Leilei; Hu, Ning; Pan, Yingjun; Ren, Chang

doi:10.3390/s150408527

Cited by 5 publications

(3 citation statements)

References 21 publications

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“…In the air-gap magnetic field ( B ), a balance moment M f is generated to balance the inertial pendulum energized coil. It means that the air-gap magnetic field ( B ) can directly affect the output of the pendulum accelerometer [ 20 ].…”

Section: Tmsp Matching Methodsmentioning

confidence: 99%

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Kuhn–Munkres Algorithm-Based Matching Method and Automatic Device for Tiny Magnetic Steel Pair

Yuan

Wang

et al. 2021

Micromachines

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The tiny magnetic steel pair (TMSP), composed by two tiny magnetic steel blocks (TMSBs), is critical for some precision instruments. Incorrect matching of TMSP may result in insufficient instrument performance. Herein, the matching method of TMSP based on the Kuhn–Munkres algorithm is proposed. Further, an automatic TMSP matching device is developed. Especially, an ingenious clamp for multiple constraints of TMSB is presented and a visual/magnetism/force hybrid control strategy is realized for the safe and efficient manipulation of TMSBs in a magnetic environment. Moreover, with the TMSBs of a pendulum accelerometer, the matching experiments are conducted to validate the comprehensive performance. The result of the numerical experiment shows that the Kuhn–Munkres algorithm-based method is stable and efficient. The results of measurement and TMSP matching experiments show that the device has good repeatability (<1 mT) and practicability. The proposed matching method has great application prospect in various matching and microassembly of TMSPs.

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Section: Tmsp Matching Methodsmentioning

confidence: 99%

“…the inertial pendulum energized coil. It means that the air-gap magnetic rectly affect the output of the pendulum accelerometer [20]. The TMSP is mainly composed of a s-TMSB and a base with a glued of the n-TMSB and S-pole of the s-TMSB are set oppositely, and magnet Y-direction).…”

Section: Fem Simulationmentioning

confidence: 99%

Kuhn–Munkres Algorithm-Based Matching Method and Automatic Device for Tiny Magnetic Steel Pair

Yuan

Wang

et al. 2021

Micromachines

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“…The sensors of magnetic field based on the Hall effect are the most used magnetic sensors and allow us to know the linear position, angular position, speed, rotation, current [56][57][58][59] and the three components of the field magnetic [60][61][62][63][64].…”

Section: Magnetic Sensormentioning

confidence: 99%

Smartphones Magnetic Sensors within Physics Lab

Escobar¹,

Ramirez-Vazquez²,

González-Rubio³

et al. 2018

Preprint

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Current smartphones incorporate different types of sensors that allow us to know our spatial position, they give us information about pressure, speed, acceleration, time, acoustic level, and other different physical magnitudes. These smartphones measure each component of the magnetic field, bearing in mind that any current perpendicular to a magnetic field produces a small potential difference, transversal to the said current, being this voltage easily measurable by Hall sensors. With the implementation of three Hall sensors, and an appropriate app, we can measure the three components of the magnetic field vector, and with this we can obtain information and deduce properties of the physical systems considered. In this paper we are exploring the use of smartphones in a physics laboratory for freshman students. To do this, we have measured, using Hall sensors, the magnetic field created by a linear quadrature, and we have obtained, first of all, its dependence on the distance between the quadrupole and the magnetic sensor. The second purpose of this work is to show that the laboratory is a powerful tool that increases the significant learning of freshman students through advanced technological tools.

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An assembly system for inertial pendulum components in miniature wire suspended pendulum accelerometers

Ren,

Zuo,

et al. 2024

J Mech Sci Technol

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Measurement Method of Magnetic Field for the Wire Suspended Micro-Pendulum Accelerometer

Cited by 5 publications

References 21 publications

Kuhn–Munkres Algorithm-Based Matching Method and Automatic Device for Tiny Magnetic Steel Pair

Kuhn–Munkres Algorithm-Based Matching Method and Automatic Device for Tiny Magnetic Steel Pair

Smartphones Magnetic Sensors within Physics Lab

An assembly system for inertial pendulum components in miniature wire suspended pendulum accelerometers

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