Power Bounds and Energy Efficiency in Incremental<inline-formula><tex-math notation='LaTeX'>$DeltaSigma$</tex-math></inline-formula>Analog-to-Digital Converters

Saqib Mohamad; Jie Yuan; Amine Bermak

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Power Bounds and Energy Efficiency in Incremental$DeltaSigma$Analog-to-Digital Converters

机译：增量 $ Delta Sigma $ 模数转换器的功率范围和能效

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Incremental analog-to-digital-converters (IADCs) are variants of ΔΣ ADCs, which have been increasingly used for low-power sensory applications in recent years. Most IADC applications require high resolution and high energy efficiency. In this paper, we present a systematic analysis of IADCs. We derive analytical design equations for practical IADC designs. Process limitations are included in the model as well. The equations are verified with a 14-bit second-order IADC design in a 0.18-μm process. With the design equations, the theoretical energy efficiency bound is derived for IADCs. The efficiency bound is compared with previously reported IADC designs. It is found that the derived bound matches existing designs well.

机译：增量式模数转换器（IADC）是ΔΣADC的变体，近年来已越来越多地用于低功耗传感器应用。 IADC的大多数应用都需要高分辨率和高能效。在本文中，我们对IADC进行了系统分析。我们得出实用的IADC设计的分析设计方程。过程限制也包括在模型中。这些方程式已通过0.18μm工艺的14位二阶IADC设计进行了验证。利用设计方程式，可以得出IADC的理论能效界限。将效率界限与先前报告的IADC设计进行比较。发现导出的边界与现有设计非常匹配。

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《IEEE transactions on circuits and systems . I , Regular papers》 |2018年第12期|4110-4120|共11页
作者
Saqib Mohamad; Jie Yuan; Amine Bermak;
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作者单位

Department of Electronic and Computer Engineering, The Hong Kong University of Science and Technology, Hong Kong;

Department of Electronic and Computer Engineering, The Hong Kong University of Science and Technology, Hong Kong;

Department of Information and Computing Technology, College of Science and Engineering, Hamad Bin Khalifa University, Doha, Qatar;

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正文语种 eng
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Mathematical model; Signal resolution; Clocks; Quantization (signal); Thermal noise; Temperature sensors; Energy resolution;

机译：数学模型;信号分辨率;时钟;量化（信号）;热噪声;温度传感器;能量分辨率;

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Power Bounds and Energy Efficiency in Incremental$DeltaSigma$Analog-to-Digital Converters

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