仪表技术与传感器
儀錶技術與傳感器
의표기술여전감기
INSTRUMENT TECHNIQUE AND SENSOR
2009年
11期
92-95
,共4页
电容层析成像%径向电极%电容敏感场%有限元
電容層析成像%徑嚮電極%電容敏感場%有限元
전용층석성상%경향전겁%전용민감장%유한원
electrical capacitance tomography%radical electrode%capacitance sensitivity field%finite element method
由于电容层析成像系统中电容测量非常困难,常采用在相邻电极间嵌入径向电极的方法来改善电容敏感场的分布.文中对8电极电容层析成像系统进行了具体的仿真实验和理论分析,并对径向电极及其嵌入尺寸对电容传感器的电容值及敏感场分布的影响进行了研究,根据各项参数对电容传感器性能的影响以及传感器结构参数的优化目标函数,确定了径向电极的最优嵌入尺寸.实验结果表明:采用径向电极最优嵌入尺寸的电容层析成像系统,能够缩小测量电容值的动态变化范围,降低数据采集电路的设计难度,同时还能够提高电容响应的灵敏度,改善电容传感器敏感场的分布,提高电容层析成像系统的性能.
由于電容層析成像繫統中電容測量非常睏難,常採用在相鄰電極間嵌入徑嚮電極的方法來改善電容敏感場的分佈.文中對8電極電容層析成像繫統進行瞭具體的倣真實驗和理論分析,併對徑嚮電極及其嵌入呎吋對電容傳感器的電容值及敏感場分佈的影響進行瞭研究,根據各項參數對電容傳感器性能的影響以及傳感器結構參數的優化目標函數,確定瞭徑嚮電極的最優嵌入呎吋.實驗結果錶明:採用徑嚮電極最優嵌入呎吋的電容層析成像繫統,能夠縮小測量電容值的動態變化範圍,降低數據採集電路的設計難度,同時還能夠提高電容響應的靈敏度,改善電容傳感器敏感場的分佈,提高電容層析成像繫統的性能.
유우전용층석성상계통중전용측량비상곤난,상채용재상린전겁간감입경향전겁적방법래개선전용민감장적분포.문중대8전겁전용층석성상계통진행료구체적방진실험화이론분석,병대경향전겁급기감입척촌대전용전감기적전용치급민감장분포적영향진행료연구,근거각항삼수대전용전감기성능적영향이급전감기결구삼수적우화목표함수,학정료경향전겁적최우감입척촌.실험결과표명:채용경향전겁최우감입척촌적전용층석성상계통,능구축소측량전용치적동태변화범위,강저수거채집전로적설계난도,동시환능구제고전용향응적령민도,개선전용전감기민감장적분포,제고전용층석성상계통적성능.
Because it is difficult to measure the capacitance of electrical capacitance tomography,it usually improves the system capacitance sensitivity field by insetting the radial electrode.This paper carried out simulation experiment and theoretical analysis on the 8-electrode electrical capacitance tomography,and studied the effect of radial electrode and its dimension on the capacitance of transducer of the capacitive transducer and its sensitivity field.According to the effect of each parameter on the performance of the capacitive transducer and the optimal objective function of the transducer structural parameter,it defined the optimal inbuilt size of radial electrode.The experiment results show that the electrical capacitance tomography with the optical inbuilt radial electrode can reduce the dynamic change scale of capacitance measurement,lower the design difficulty of data collection circuit,enhance the response sensitivity of the capacitance,improve the sensitivity field distribution of the capacitance transducer and increase the performance of the electrical capacitance tomography.