灵敏度(控制系统)
电容
线性
采样(信号处理)
水分
电子工程
印刷电路板
微控制器
工程类
领域(数学)
度量(数据仓库)
香料
电容式探头
素描
感应式传感器
测量原理
电子线路
计算机科学
寄生电容
实验设计
钥匙(锁)
电容感应
电气工程
电场
体积热力学
工艺工程
准确度和精密度
数码产品
电路设计
优化设计
液位传感器
等效电路
材料科学
测量仪器
作者
Xiangrui Meng,Chong Li,Yunlong Lan,Lining Tan,Xiaoxiao Zhang
出处
期刊:Micromachines
[Multidisciplinary Digital Publishing Institute]
日期:2026-03-23
卷期号:17 (3): 388-388
摘要
This research demonstrates the principle and optimization methodology to create economic and miniaturized high-resolution micro-moisture sensors. The interdigitated fringe electric field-based moisture measurement principle is firstly investigated to sketch the key parameters of printed circuit board (PCB)-based sensors for further performance optimization. Then, a comprehensive study is conducted to analyze parameter variations with conclusions of suggested design rules to achieve higher measurement sensitivity. Two prototypes are designed and manufactured to validate the proposed theoretical contributions. Water droplets are employed to control the ambient relative humidity, which is adopted as the actual moisture variable in this work. A double-correlated sampling circuit is used for capacitance sensing. Both of them demonstrate a linearity of 1% and sensitivity of 0.1 pF/mg levels, but prototype 2 gains a better batch consistency, which is beneficial for commercialization. Further data analysis suggests that the equivalent input-output sensitivity reaches a level of 1.2403 pF/%RH (relative humidity), which is significantly higher than other types of published interdigitated fringe electric field-type moisture sensors. The optimized prototypes also show advantages of miniaturized size, low cost and high consistency, which can potentially impact the industry applications.
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