A low power auto-reconfigurable pipelined ADC for implantable biomedical applications

2013 IEEE SENSORS Pub Date : 2013-12-19 DOI:10.1109/ICSENS.2013.6688455
Terence C. Randall, I. Mahbub, S. Islam
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引用次数: 10

Abstract

This paper demonstrates a reconfigurable, pipelined analog-to-digital converter (ADC) that is designed for ultra-low power consumption through the use of weak inversion region-biased transistors. In addition, the converter is able to reconfigure itself into three different modes of operation based on the input signal or a third party signal such as body motion. An adaptation unit is presented which automatically distinguishes high frequency biosignals from low frequency ones and configures the ADC in the appropriate mode of operation. The adaptation unit gives two-bits of control selecting between 8-bit or 10-bit resolution and 73.7 KS/s or 737 KS/s sampling rate. The power consumption of the pipelined ADC and adaptation unit are 680 μW and 180 μW, respectively, with a 1.8 V supply voltage. The core circuit occupies only 0.425 mm2 area.
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用于植入式生物医学应用的低功耗自动可重构流水线ADC
本文演示了一种可重构的流水线模数转换器(ADC),该转换器通过使用弱反转区域偏置晶体管而设计用于超低功耗。此外,转换器能够根据输入信号或第三方信号(如身体运动)将自己重新配置为三种不同的操作模式。提出了一种自适应单元,可以自动区分高频和低频生物信号,并将ADC配置在适当的工作模式下。适应单元提供2位控制,在8位或10位分辨率和73.7 KS/s或737 KS/s采样率之间进行选择。在1.8 V供电电压下,流水线ADC和适配单元的功耗分别为680 μW和180 μW。核心电路的面积仅为0.425 mm2。
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2013 IEEE SENSORS
2013 IEEE SENSORS
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