低功耗1-V 10位40 ms /s流水线ADC

2011 18th IEEE International Conference on Electronics, Circuits, and Systems Pub Date : 2011-12-01 DOI:10.1109/ICECS.2011.6122251

M. Hashemi, M. Sharifkhani, M. Gholami

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引用次数: 3

摘要

介绍了一种低功耗10位、40 MS/s的流水线模数转换器。在不同的抽象层次上提出了许多低功耗技术。在电路层面，提出了一种采用直接共模反馈电路(CMFB)的低功耗a /AB类运放，大大降低了运放的功耗。在后端设计中，通过优化串联电容的布局，打破了一级电容失配与负载效应之间的僵局。基于所提出的运放和架构，开发了一个定制的软件工具，提供最佳的级缩放因子，尾电流和运放晶体管尺寸。在0.13um CMOS技术下的仿真表明，该ADC实现了56.04dB的信噪比(SNDR)， 9.02有效位数(ENOB)和小于1 LSB的INL/DNL，而在1 v电源下仅消耗3.9 mW。性能因数(FOM)值小于0.19 pJ/Conversion。

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A low power 1-V 10-bit 40-MS/s pipeline ADC

A low power 10 bit, 40 MS/s pipeline analog to digital converter is presented. A number of low-power techniques are proposed in various levels of abstraction. In circuit level, a low power class A/AB opamp with direct common-mode-feedback circuit (CMFB) is proposed which significantly reduces power in the opamps. In backend design, optimal series capacitors are layed out to break the deadlock between the mismatch and loading effect of the first stage capacitors. A customized software tool is developed based on the proposed opamp and architecture which provides optimum stage scaling factors, tail current and opamp transistor sizes. Simulations in 0.13um CMOS technology show that the ADC achieves 56.04dB signal-to-noise ratio (SNDR), 9.02 effective numbers of bits (ENOB) and INL/DNL of less than 1 LSB, while consuming only 3.9 mW from a 1-V power supply. The Figure-of-Merit (FOM) value is less than 0.19 pJ/Conversion.

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2011 18th IEEE International Conference on Electronics, Circuits, and Systems

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