Evaluation of Applied Axial Field Modulation Technique on ME Sensor Input Equivalent Magnetic Noise Rejection

Author

Zhuang, Xin ; Sing, Marc Lam Chok ; Cordier, Christophe ; Saez, Sébastien ; Dolabdjian, Christophe ; Shen, Liangguo ; Li, Jie Fang ; Li, Menghui ; Viehland, Dwight

Author_Institution

Groupe de Rech. en Inf., Image, Autom. et Instrum. de Caen (GREYC), ENSICAEN, Caen, France

Volume

11

Issue

10

fYear

2011

Firstpage

2266

Lastpage

2272

Abstract

By using nonlinearity effects in magnetostrictive -piezoelectric laminated sensors, modulation techniques can transfer low-frequency signals to higher frequencies. Theory predicts that the transfer ability depends mainly on the amplitude of the carrier signal and the sensor nonlinearity. This was confirmed by our experiments. We present the first analysis on a ME noise model associated to a modulation technique. Furthermore, the overall equivalent magnetic noise was analyzed, and shown to be dominated only by the signal transfer ability and the output electrical noise level appearing around the carrier frequency.

Keywords

laminates; magnetic noise; magnetic sensors; magnetoelectric effects; magnetoelectronics; magnetostrictive devices; modulation; piezoelectric devices; applied axial field modulation technique; carrier frequency; electrical noise; input equivalent magnetic noise rejection; low frequency signal; magnetostrictive piezoelectric laminated sensor; manetoelectric sensor; nonlinearity effects; Amorphous magnetic materials; Frequency modulation; Magnetic fields; Magnetic noise; Magnetostriction; Noise; Equivalent magnetic noise; laminated ME coefficient; magnetoelectric effect; nonlinearity effect;

fLanguage

English

Journal_Title

Sensors Journal, IEEE

Publisher

ieee

ISSN

1530-437X

Type

jour

DOI

10.1109/JSEN.2011.2131647

Filename

5737747