A. Do, C. Lam, Y. S. Tan, K. Yeo, J. Cheong, X. Zou, Lei Yao, Kuang-Wei Cheng, M. Je
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引用次数: 11
摘要
本文提出了一种基于0.18 μm CMOS技术的9位25ks /s SAR ADC,用于神经信号的记录。ADC由1V的单电源供电,以配合同一芯片上的其他数字处理单元。所提出的ADC具有一个0.5V的共模直流输入,因此在锁存比较器中仅使用一对PMOS输入晶体管即可提供全范围采样。实现了一个通用的数字接口块,将外部控制信号转换为内部有用的采样和保持(S/H)命令,允许灵活的S/H持续时间与输入缓冲区的驱动强度相匹配。为了实现超低功耗性能,所有数字模块和比较器都经过精心优化。同时,采用带衰减帽的分帽架构,使面积最小化,进一步降低功耗。我们的模拟表明,所提出的SAR存档8.5 ENOB,同时仅消耗160 nW。
A 160 nW 25 kS/s 9-bit SAR ADC for neural signal recording applications
This paper presents a 9-bit 25 kS/s SAR ADC in 0.18 μm CMOS technology for neural signal recording applications. The ADC is powered by a single supply voltage of 1V to comply with other digital processing units on the same chip. The proposed ADC has one common-mode DC input of 0.5V thus offering a full-range sampling with only one pair of PMOS input transistors in the latched comparator. A versatile digital interface block is implemented to translate external control signals to internally useful Sample-and-Hold (S/H) commands, allowing a flexible S/H duration to match with the driving strength of the input buffer. To realize an ultra low-power performance, all digital blocks and the comparator are carefully optimized. At the same time, split-cap architecture with an attenuation cap is used to minimize area and to further reduce the power consumption. Our simulation shows that the proposed SAR archives 8.5 ENOB while consuming only 160 nW.
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