High temperature sensors based on silicon carbide (SiC) devices

G. Brezeanu, M. Badila, F. Draghici, R. Pascu, G. Pristavu, F. Craciunoiu, I. Rusu
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引用次数: 16

Abstract

SiC devices' electrical properties used as sensing mechanisms are demonstrated for two types of sensors. A Schottky barrier diode (SBD) is proposed as a temperature sensor while a MOS capacitor is used for gas (hydrogen) detection. A layout with different active contacts, having 200, 300 and 400μm diameters and similar technology is designed and used for fabricating both sensors. An automatic high temperature system is developed to test the sensors up to 450°C. The main electrical parameters of the SiC devices designed to operate as sensors are extracted using dedicated programs. The temperature detection sensitivity of the SBD is in range of 1.52-2.13mV/°C. For the gas sensor, a sensitivity peak of 120% is achieved for a H2 concentration over 1000 ppm. An industrial temperature probe based on SiC SBD was tested to monitor furnace temperature in the 100-400°C range in a cement factory.
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基于碳化硅(SiC)器件的高温传感器
SiC器件作为传感机制的电学性能在两种类型的传感器中得到了演示。提出了肖特基势垒二极管(SBD)作为温度传感器,而MOS电容器用于气体(氢)检测。设计了直径为200、300和400μm的不同有源触点布局和类似的技术,并用于制造这两种传感器。开发了一个自动高温系统来测试传感器高达450°C。使用专用程序提取用于传感器的SiC器件的主要电气参数。SBD的温度检测灵敏度范围为1.52-2.13mV/°C。对于气体传感器,H2浓度超过1000ppm时,灵敏度峰值达到120%。在某水泥厂对基于SiC SBD的工业温度探头进行了100-400℃范围内的炉温监测试验。
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