Design of Low Power 12-bit SAR Analog-to-digital Converter

Q3 Mathematics Journal of Institute of Control, Robotics and Systems Pub Date : 2023-09-30 DOI:10.5302/j.icros.2023.23.0085

Bo-yeong Park, Jee-Youl Ryu

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Abstract

In this paper, we present a 12-bit SAR (Successive-Approximation-Register) ADC (Analog-to-Digital Converter). The proposed ADC comprises sample-and-hold, capacitor array network, SAR control logic, comparator, DAC (Digital-to-Analog Converter) control logic, and DAC stages. This SAR ADC employs a method of changing the total capacitor capacity by adding a split capacitor to the capacitor array network, because area of the capacitor and the capacitor array network increase with the increase in resolution. A sample-and-hold circuit combined with a bootstrip technique can reduce distortion and unnecessary power consumption, as this circuit is designed to operate with a single input clock. To optimize power consumption and chip area, a 1MSps sampling rate with 12-bit resolution was designed. The proposed ADC was designed using the 1poly-6 metal 0.13㎛ CMOS process, and it operates at 1.2V. A SNDR (Signal-to-Noise Distortion Ratio) and an ENOB (Effective Number of Bits) of approximately 80.09㏈ and 11.86bits, respectively ware achieved. Compared with previous research results, the effective small chip area is approximately 0.028mm2 and the low power consumption is 63.07㎼.

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低功耗12位SAR模数转换器的设计

在本文中，我们提出了一个12位的SAR(连续逼近寄存器)ADC(模数转换器)。所提出的ADC包括采样保持、电容阵列网络、SAR控制逻辑、比较器、DAC(数模转换器)控制逻辑和DAC级。由于电容和电容阵列网络的面积随着分辨率的提高而增加，因此该SAR ADC采用了通过在电容阵列网络中增加分裂电容来改变电容总容量的方法。采样保持电路与自引导技术相结合，可以减少失真和不必要的功耗，因为该电路设计为单输入时钟工作。为了优化功耗和芯片面积，设计了1MSps采样率和12位分辨率的芯片。所提出的ADC采用1聚6金属0.13微米(um) CMOS工艺设计，工作电压为1.2V。SNDR(信噪比)和ENOB(有效比特数)分别约为80.09英寸和11.86比特。与以往的研究成果相比，有效小芯片面积约为0.028mm2，低功耗为63.07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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