一个12位350毫秒/秒的40纳米CMOS流水线ADC

2021 6th International Conference on Integrated Circuits and Microsystems (ICICM) Pub Date : 2021-10-22 DOI:10.1109/ICICM54364.2021.9660359

Weiqi Gu, Peng Miao, Fei Li, Huan Wang, Bowen Ding

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引用次数: 2

摘要

提出了一种基于40纳米CMOS的12位350毫秒/秒流水线模数转换器(ADC)。采用5级1后端flash子adc架构，确保完成12位模数转换。ADC利用无sha结构和适当的采样电容来降低功耗和设置误差。为了满足增益和带宽的要求，设计并仿真了一种米勒补偿的两级运放。然后推导了放大器的直流增益、极和零点。结果表明，该ADC实现了10.07位ENOB和70位ENOB。S6dB SFDR在350 MS/s采样率。该布局占地0.1875 mm2，在1.1 v电源下消耗123 mW。

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A 12-bit 350-MS/s Pipelined ADC in 40-nm CMOS

A 12-bit 350-MS/s pipelined Analog-to-Digital Converter (ADC) in 40-nm CMOS is presented in this paper. The architecture of 5 stages and 1 backend flash sub-ADC is chosen to ensure the completion of 12bit analog-to-digital conversion. The ADC leverages SHA-less constructure and appropriate sampling capacitors to reduce power consumption and setting errors. In order to fulfill gain and bandwidth requirements, a two-stage op-amp with miller compensation is designed and simulated. The direct current gain, poles and zeros of the amplifier are derived afterward. The results reveal that the ADC achieves a 10.07 bits ENOB and 70. S6dB SFDR at 350 MS/s sample rate. The layout occupies 0.1875 mm2 area and consumes 123 mW at 1.1-V supplies.

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2021 6th International Conference on Integrated Circuits and Microsystems (ICICM)

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