Litcius/Paper detail

A Displacement Sensing Method Based on Permanent Magnet and Magnetic Flux Measurement

Jikai Zhang, Yicheng Shi, Y. Huang, Liang Cheng, Yantong Dong, Yihua Kang, Bo Feng

2022Sensors16 citationsDOIOpen Access PDF

Abstract

This paper proposes a displacement sensing method based on magnetic flux measurement. A bridge-structured magnetic circuit, formed by permanent magnets and two ferromagnetic cores, is designed and discussed. The analyses of the equivalent magnetic circuit and three-dimensional finite element simulations showed that the magnetic flux density changes linearly with the reciprocal of the sum of a constant and the displacement. A prototype sensor of the bridge structure is developed that consists of four permanent magnets as excitation, a Hall sensor as reception, and two ferromagnetic cores as the connection. Experiments have validated the feasibility of this method. The measured results show a good linearity between the sensor's output and the reciprocal of the sum of a constant and the displacement, with a correlation coefficient greater than 0.9995 across different measurement ranges. Additionally, the measured results significantly indicate that the proposed sensor is compatible with different ferromagnetic materials with a worst-case error of less than 5%. The proposed sensor has the advantages of low cost and good linearity; however, the test object is limited to ferromagnetic materials.

Topics & Concepts

MagnetDisplacement (psychology)Magnetic fluxFerromagnetismLinearityMagnetic circuitElectromagnetHall effect sensorFinite element methodMagnetic flux leakageMaterials scienceAcousticsPhysicsComputational physicsElectronic engineeringMagnetic fieldElectrical engineeringCondensed matter physicsEngineeringStructural engineeringPsychotherapistQuantum mechanicsPsychologyNon-Destructive Testing TechniquesSensor Technology and Measurement SystemsMagnetic Field Sensors Techniques