Proceedings (Sep 2017)

Nanogap Pirani Sensor Operating in Constant Temperature Mode for Near Atmospheric Pressure Measurements

  • Cécile Ghouila-Houri,
  • Ralph Sindjui,
  • Mohammed Moutaouekkil,
  • Omar Elmazria,
  • Quentin Gallas,
  • Eric Garnier,
  • Alain Merlen,
  • Romain Viard,
  • Abdelkrim Talbi,
  • Philippe Pernod

DOI
https://doi.org/10.3390/proceedings1040377
Journal volume & issue
Vol. 1, no. 4
p. 377

Abstract

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This paper presents a high sensitive micro-sensor designed for pressure measurements in a wide range around atmospheric pressure, for application in aerodynamics. The sensor is a temperature-resistance transducer operating with the Pirani effect, which states that below a certain pressure limit, the thermal conductivity of a gas is pressure-dependent. The sensor presents a wide measurement range between 10 kPa and about 800 kPa, in both constant current and constant temperature mode. The last mode enables high-sensitive measurements with a maximum of sensitivity around atmospheric pressure, enabling the use of the sensor for applications in aerodynamics and fluid dynamics, such as active flow control.

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