Sensors (Jun 2012)

An Annular Mechanical Temperature Compensation Structure for Gas-Sealed Capacitive Pressure Sensor

  • Kohei Higuchi,
  • Yonggang Jiang,
  • Kazusuke Maenaka,
  • Hidekuni Takao,
  • Xiuchun Hao

DOI
https://doi.org/10.3390/s120608026
Journal volume & issue
Vol. 12, no. 6
pp. 8026 – 8038

Abstract

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A novel gas-sealed capacitive pressure sensor with a temperature compensation structure is reported. The pressure sensor is sealed by Au-Au diffusion bonding under a nitrogen ambient with a pressure of 100 kPa and integrated with a platinum resistor-based temperature sensor for human activity monitoring applications. The capacitance-pressure and capacitance-temperature characteristics of the gas-sealed capacitive pressure sensor without temperature compensation structure are calculated. It is found by simulation that a ring-shaped structure on the diaphragm of the pressure sensor can mechanically suppress the thermal expansion effect of the sealed gas in the cavity. Pressure sensors without/with temperature compensation structures are fabricated and measured. Through measured results, it is verified that the calculation model is accurate. Using the compensation structures with a 900 μm inner radius, the measured temperature coefficient is much reduced as compared to that of the pressure sensor without compensation. The sensitivities of the pressure sensor before and after compensation are almost the same in the pressure range from 80 kPa to 100 kPa.

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