电容感应
三角积分调变
电容
电气工程
湿度
噪音(视频)
电子工程
模数转换器
材料科学
计算机科学
工程类
物理
电极
CMOS芯片
人工智能
热力学
图像(数学)
量子力学
电压
作者
Byeoncheol Lee,Hyungseup Kim,Kim Js,Kwonsang Han,Sangyoun Shin,Gyungtae Kim,Woo Suk Sul,Boung Ju Lee,Sangmin Lee,Hyoungho Ko
标识
DOI:10.18494/sam.2019.2272
摘要
In this paper, a low-noise 16-bit capacitance-to-digital convertor (CDC) for a capacitive humidity sensor is proposed.The proposed sensor interface circuit is implemented as a firstorder incremental delta-sigma structure and directly converts the capacitance change of the humidity sensor to a 16-bit digital code.A switched capacitor (SC) integrator of the deltasigma modulator is adopted in the chopper stabilization technique for a low-noise characteristic.The chopper stabilization technique can avoid the offset and low-frequency flicker noise of an amplifier.The offset cancellation programmable capacitor array of the input stage is used for eliminating the mismatched capacitance from the parasitic capacitor and process variations.The proposed delta-sigma CDC has an accumulator with a simple 16-bit dual counter that converts the delta-sigma modulator output to a 16-bit digital code for reducing the power consumption of the back-end digital processing.The proposed sensor interface circuit is fabricated using the standard 0.18 μm complementary metal-oxide-semiconductor process with an active area of 0.66 mm 2 .The effective resolution of the worst case is 14.4 bits, and the active power consumption of the proposed delta-sigma CDC is 376 μW with a 1.8 V supply.
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