一个8位166 nw 11.25 k / s 0.18嗯two-Step-SAR ADC使用新的DAC RFID应用程序体系结构

NORCHIP 2010 Pub Date : 2010-12-17 DOI:10.1109/NORCHIP.2010.5669487

I. Kianpour, Z. Zou, M. Nejad, Lirong Zheng

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引用次数: 9

摘要

SAR adc主要用于中速，中等分辨率的应用，功耗是主要问题之一(例如RFID)。此外，两步ADC被分类为高速、低到中等精度的ADC。本文介绍了一种用于RFID应用的超低功耗两步sar ADC。采用了几种技术来进一步降低功耗并相对提高ADC的速度。这些技术包括无静态电流的低功率比较器和作为数模转换器(DAC)的双级(电阻串/电容分频)架构。在该DAC架构中，只需两个C和15C电容器即可进行精细搜索，从而显着减少了硅面积。电路采用0.18um CMOS技术设计，仿真结果表明，该8位ADC在11.25kS/s下的功耗接近166nW。结果表明，所提出的ADC与电荷再分配ADC相比具有更高的速度和几乎相同的功耗。

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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An 8-bit 166nw 11.25 kS/s 0.18um two-Step-SAR ADC for RFID applications using novel DAC architecture

SAR ADCs have been mostly used for moderate-speed, moderate-resolution applications that power consumption is one of the major concerns (e. g. RFID). Furthermore two-step ADCs are classified as high-speed, low to moderate-accuracy ADC. In this paper an ultra low power two-step-SAR ADC for RFID application is presented. Several techniques are used to further reduce the power consumption and relatively elevate the speed of the ADC. These techniques include a low power comparator with no static current and a dual-stage (Resistor-string / capacitive dividing) architecture as digital-to-analog converter (DAC). In this DAC architecture fine search will be performed by only two C and 15C capacitors which reduced the silicon area significantly. The circuit designed in 0.18um CMOS technology and simulations show that the 8-bit ADC, consumes almost 166nW at 11.25kS/s. The results show that the proposed ADC has higher speed with almost the same power consumption in comparison with its charge redistribution counterpart.

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NORCHIP 2010

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