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Study on the Stability of the Electrical Connection of High-Temperature Pressure Sensor Based on the Piezoresistive Effect of P-Type SiC

Yongwei Li, Ting Liang, Cheng Lei, Qiang Li, Zhiqiang Li, Abdul Ghaffar, Jijun Xiong

2021Micromachines29 citationsDOIOpen Access PDF

Abstract

In this study, a preparation method for the high-temperature pressure sensor based on the piezoresistive effect of p-type SiC is presented. The varistor with a positive trapezoidal shape was designed and etched innovatively to improve the contact stability between the metal and SiC varistor. Additionally, the excellent ohmic contact was formed by annealing at 950 °C between Ni/Al/Ni/Au and p-type SiC with a doping concentration of 1018cm−3. The aging sensor was tested for varistors in the air of 25 °C–600 °C. The resistance value of the varistors initially decreased and then increased with the increase of temperature and reached the minimum at ~450 °C. It could be calculated that the varistors at ~100 °C exhibited the maximum temperature coefficient of resistance (TCR) of ~−0.35%/°C. The above results indicated that the sensor had a stable electrical connection in the air environment of ≤600 °C. Finally, the encapsulated sensor was subjected to pressure/depressure tests at room temperature. The test results revealed that the sensor output sensitivity was approximately 1.09 mV/V/bar, which is better than other SiC pressure sensors. This study has a great significance for the test of mechanical parameters under the extreme environment of 600 °C.

Topics & Concepts

Materials sciencePiezoresistive effectVaristorOhmic contactComposite materialAnnealing (glass)Pressure sensorHumidityElectrical resistivity and conductivityContact resistanceDopingOptoelectronicsElectrical engineeringVoltageEngineeringLayer (electronics)ThermodynamicsPhysicsAdvanced MEMS and NEMS TechnologiesElectrical and Thermal Properties of MaterialsSilicon Carbide Semiconductor Technologies
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