A novel general purpose current mode oscillating circuit for the read-out of capacitive sensors

2009 3rd International Workshop on Advances in sensors and Interfaces Pub Date : 2009-06-25 DOI:10.1109/IWASI.2009.5184789

A. De Marcellis, C. Di Carlo, G. Ferri, V. Stornelli

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引用次数: 8

Abstract

In this paper we present a novel general purpose current mode (CM) solution for the interfacing of capacitive sensors. The designed circuit, which utilizes only two second generation current conveyors (CCIIs) as active blocks, allows to detect, through a capacitance-to-time conversion (C-T), capacitive values as well as their variations (also lower than 1pF) both in a small and a wide range. Its main operation is based on a current differentiation, instead of voltage integration, typical of interfaces developed in the voltage-mode approach. The proposed circuit, which does not need any initial calibration, has been designed as integrated solution at transistor level in a standard CMOS 0.35µm technology. Waiting for the chip fabrication, preliminary experimental results have been performed through a discrete-component board and sample capacitors and resistors. Both simulation and experimental results have shown low percentage errors and a good agreement with theoretical expectations for more than five frequency decades. The system sensitivity has been set to about 1.8µs/pF.

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一种用于电容式传感器读出的新型通用电流模式振荡电路

本文提出了一种用于电容式传感器接口的通用电流模式(CM)解决方案。所设计的电路仅利用两个第二代电流传送带(ccii)作为有源模块，通过电容-时间转换(C-T)，可以在小范围和宽范围内检测电容值及其变化(也低于1pF)。它的主要操作是基于电流微分，而不是电压集成，典型的接口开发在电压模式的方法。该电路不需要任何初始校准，已被设计为晶体管级集成解决方案，采用标准CMOS 0.35µm技术。在芯片制造之前，已经通过分立元件板和样品电容器和电阻进行了初步的实验结果。模拟和实验结果均表明，误差百分比低，与理论预期吻合较好。系统灵敏度设置为约1.8µs/pF。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2009 3rd International Workshop on Advances in sensors and Interfaces

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