电容感应
电子工程
电气工程
电阻式触摸屏
噪音(视频)
计量系统
电子线路
电流(流体)
计算机科学
仪表放大器
带宽(计算)
CMOS芯片
放大器
运算放大器
工程类
物理
电信
图像(数学)
人工智能
天文
作者
Dong‐Soo Kim,Barbara L. Goldstein,Wei Tang,F.J. Sigworth,Eugenio Culurciello
标识
DOI:10.1109/tbcas.2012.2192273
摘要
In this paper, we report on the noise analysis of low current measurement systems for biomedical applications and their fundamental limits. We analyzed resistive feedback, capacitive feedback and current amplifier circuits for low current measurement systems. Detailed noise analysis for different biomedical applications are presented and matched with measurement data using a 0.5-μm fabrication process. Based on the theoretical analysis and the corresponding measurement results, the capacitive feedback system provides better noise performance for the measurement of low current than the others. The capacitive feedback circuit is capable of measuring 750 fA RMS at a 10 kHz sampling rate, whereas the resistive feedback provides 4 pA and the current conveyor provides 600 pA at the same bandwidth. This paper provides design guidelines to maximize the performance of low current measuring system for biomedical instrumentation and to provide the best performance available with CMOS technologies.
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