Z. Cai, R. V. Veldhoven, H. Suy, G. D. Graaf, K. Makinwa, M. Pertijs
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引用次数: 2
Abstract
The measurement of carbon-dioxide (CO2) concentration is very important in home and building automation, e.g. to control ventilation in energy-efficient buildings. This application requires compact, low-cost sensors that can measure CO2 concentration with a resolution of <200 ppm over a 2500ppm range. Conventional optical (NDIR-based) CO2 sensors require components that are CMOS-incompatible, difficult to miniaturize and power-hungry [1]. Due to their CMOS compatibility, thermal-conductivity-based sensors are an attractive alternative [2,3]. They exploit the fact that the thermal conductivity (TC) of CO2 is lower than that of the other constituents of air, so that CO2 concentration can be indirectly measured via the heat loss of a hot wire to ambient. However, this approach requires the detection of very small changes in TC (0.25 ppm per ppm CO2 [3]).
二氧化碳(CO2)浓度的测量在家庭和建筑自动化中非常重要,例如在节能建筑中控制通风。这种应用需要紧凑,低成本的传感器,可以在2500ppm范围内以< 200ppm的分辨率测量二氧化碳浓度。传统的光学(基于ndir的)CO2传感器需要的组件与cmos不兼容,难以小型化并且耗电[1]。由于其CMOS兼容性,基于热导率的传感器是一个有吸引力的替代方案[2,3]。他们利用二氧化碳的热导率(TC)低于空气中其他成分的事实,因此可以通过热丝向环境的热损失间接测量二氧化碳浓度。然而,这种方法需要检测非常小的TC变化(每ppm CO2 0.25 ppm)[3]。
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