A sweeping mode integrated fingerprint sensor with 256 tactile microbeams

Author

Charlot, Benoît ; Parrain, Fabien ; Galy, Nicolas ; Basrour, Skandar ; Courtois, Bernard

Author_Institution

TIMA Lab., Grenoble, France

Volume

13

Issue

4

fYear

2004

Firstpage

636

Lastpage

644

Abstract

This paper reports recent advances in the development of a tactile fingerprint sensor made by a CMOS compatible front side bulk micromachining technology. This device enables the measurement of a fingerprint by the way of a mechanical scanning principle of the finger roughness. While this sensing principle has shown good results on a first prototype of reduced width, we present here the design, fabrication and test of a new sensor. This sensor contains 256 pressure sensitive microbeams for a total length of 1.28 cm and is fully integrated with analog and mixed signal electronics. In this paper we will detail the general working principle of the tactile fingerprint sensor and the two prototypes that have been manufactured and tested with a special focus on the electronic architecture and the test results of the second prototype.

Keywords

CMOS integrated circuits; fingerprint identification; micromachining; micromechanical devices; sensors; CMOS; analog signal; electronic architecture; finger roughness; integrated MEMS; integrated fingerprint sensor; mechanical scanning principle; micromachining technology; mixed signal electronics; sensing principle; sweeping mode; switch capacitor systems; tactile microbeams; CMOS technology; Electronic equipment testing; Fabrication; Fingerprint recognition; Fingers; Mechanical sensors; Mechanical variables measurement; Micromachining; Prototypes; Tactile sensors; CMOS compatible bulk micromachining technologies; fingerprint sensor; integrated MEMS; switch capacitor systems;

fLanguage

English

Journal_Title

Microelectromechanical Systems, Journal of

Publisher

ieee

ISSN

1057-7157

Type

jour

DOI

10.1109/JMEMS.2004.832195

Filename

1321101