Fast Psychrometers as New SU-8 Based Microsystems

Author

Giordani, Nicolas ; Camberlein, L. ; Gaviot, E. ; Polet, F. ; Pelletier, N. ; Beche, B.

Volume

56

Issue

1

fYear

2007

Firstpage

102

Lastpage

106

Abstract

In this paper, a new approach to designing fast micro-psychrometers devoted to measuring relative humidity is presented. Such devices are based on a planar thermopile fitted with an appropriate set of microchannels arranged for monitoring the evaporation process as a Seebeck voltage. They are fabricated out of a glass substrate, sputtered metals, and near vertical side walls made of SU-8, according to standard microtechnology processes for MEMs. Considering classical psychrometers, the new design is aimed at reducing both size and response time. Thus, besides being far less invasive than a standard unit, fast measurements (tau=5 s) are enabled. A straightforward modeling, aimed at deriving the relative humidity, is given with a view to integrating the signal conditioner. As regards validation, a prototype is calibrated and compared to a reference probe, and a discussion on its enhancement is also presented

Keywords

Seebeck effect; humidity measurement; microfluidics; microsensors; photoresists; thermopiles; MEM; SU-8 material; Seebeck voltage; evaporation process; fast micropsychrometers; glass substrate; microfluidics; microtechnology processes; planar thermopile; relative humidity measurement; signal conditioner; sputtered metals; straightforward modeling; thermal microsensors; Delay; Glass; Humidity measurement; Measurement standards; Measurement units; Microchannel; Monitoring; Prototypes; Psychology; Voltage; Humidity; microfluidics; polymers; psychrometers; thermal microsensors;

fLanguage

English

Journal_Title

Instrumentation and Measurement, IEEE Transactions on

Publisher

ieee

ISSN

0018-9456

Type

jour

DOI

10.1109/TIM.2006.887332

Filename

4061084