Electromagnetic Analysis and Validation of an Ironless Inductive Position Sensor

Author

Danisi, Alessandro ; Masi, A. ; Losito, R. ; Perriard, Yves

Author_Institution

Eng. Dept., Eur. Organ. for Nucl. Res. (CERN), Geneva, Switzerland

Volume

62

Issue

5

fYear

2013

fDate

May-13

Firstpage

1267

Lastpage

1275

Abstract

The ironless inductive position sensor is a linear position sensing structure, which exhibits intrinsic immunity to external magnetic fields since it is characterized by air-cored windings. This new solution may be of major interest for applications where external magnetic fields can be a source of interference. In this paper, an analytical model of the working principle of the sensor is proposed. The effect of the moving coil flux on the overall sensed magnetic flux is described. The model is preliminarily verified by simulations on a finite-element structure of the sensor, in order to assess its soundness. Finally, experimental measurements on a custom sensor´s prototype give the definitive benchmarking of the model as a valid design tool, in the framework of the design and synthesis of the device.

Keywords

finite element analysis; inductive sensors; position measurement; air-cored windings; custom sensor; definitive benchmarking; electromagnetic analysis; external magnetic fields; finite-element structure; ironless inductive position sensor; linear position sensing structure; validation; Analytical models; Coils; Couplings; Finite element methods; Inductance; Mathematical model; Windings; Air-cored coils; electromagnetic modeling; ironless position sensor; linear variable differential transformer (LVDT); mutual inductance;

fLanguage

English

Journal_Title

Instrumentation and Measurement, IEEE Transactions on

Publisher

ieee

ISSN

0018-9456

Type

jour

DOI

10.1109/TIM.2012.2224274

Filename

6341080