A SC rectification and bin-integration circuit for nerve signal processing: experimental results

Q4 Arts and Humanities Czas Kultury Pub Date : 2003-12-14 DOI:10.1109/ICECS.2003.1302027
A. Harb, M. Sawan
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引用次数: 5

Abstract

In this paper, we describe a low-voltage CMOS switched-capacitor rectification and bin-integration (RBI) circuit dedicated to sensor electronic interfaces. The applications of these interfaces are among others, biomedical and more particularly the implantable devices. RBI is the most common signal processing function applied to the nerve signals. Since the frequency of these signals is below 10 kHz, a switched-capacitor architecture has been used. The circuit comprises an always-valid sample and hold circuit followed by a full wave rectifier. The bin-integration is then performed with three resettable integration stages. The third stage is reset in such a way to use the maximum range of the ADC. The resulting RBI signal is then converted to digital and transferred to the implant central processor where information about bladder could be extracted. The circuit has been realized in CMOS 0.35 /spl mu/m, 3.3 V technology. The design, simulation and measurement results of the proposed interface are presented. At 1.3 V supply, the measured circuit obtains an RBI error of less than -45 dB for a sinewave input of 7.2 kHz that is the main component of the nerve signal and a dynamic range of /spl plusmn/1.1 V while dissipating 578 /spl mu/W and occupying a chip area of 5.83 mm/sup 2/.
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一种用于神经信号处理的SC整流双积分电路:实验结果
本文描述了一种专用于传感器电子接口的低压CMOS开关电容整流与集成电路(RBI)。这些接口的应用包括生物医学,尤其是植入式设备。RBI是应用于神经信号的最常用的信号处理函数。由于这些信号的频率低于10khz,因此使用了开关电容器结构。该电路包括一个始终有效的采样和保持电路,然后是一个全波整流器。然后通过三个可重置的集成阶段执行bin集成。第三阶段以这样的方式复位,以使用ADC的最大量程。得到的RBI信号被转换成数字信号并传输到植入体的中央处理器,在那里可以提取膀胱的信息。电路在CMOS 0.35 /spl mu/m, 3.3 V技术下实现。给出了该接口的设计、仿真和测试结果。在1.3 V电源下,当神经信号的主要成分为7.2 kHz的正弦波输入,动态范围为/spl plusmn/1.1 V时,被测电路的RBI误差小于-45 dB,而功耗为578 /spl mu/W,芯片面积为5.83 mm/sup 2/。
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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来源期刊
Czas Kultury
Czas Kultury Social Sciences-Social Sciences (miscellaneous)
CiteScore
0.10
自引率
0.00%
发文量
10
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