一种基于电阻自偏置斜坡的高速流水线sar ADC

2018 10th International Conference on Communications, Circuits and Systems (ICCCAS) Pub Date : 2018-12-01 DOI:10.1109/ICCCAS.2018.8769209

Yan Yan, Hongliang Xu, J. Jin

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引用次数: 0

摘要

针对高速、高分辨率和低功耗的应用，提出了一种两级流水线式sar ADC。子adc分别采用下盘采样和上盘采样异步SAR逻辑。级间放大器采用环形放大器。该自偏置匝道基于可变电阻，在保持低功耗和足够的相位裕度的同时，缩短了环形放大器的稳定时间。此外，第一级子adc采用两条并行路径交替采样和传递剩余电压，进一步提高了采样率。采用TSMC40nm CMOS技术，在标准1.1 V电源电压下设计并仿真了原型ADC。仿真结果显示，SNDR和ENOB分别为55.34 dB和8.9bit, Nyquist频率输入采样频率为200 MS/s，优值为35.4fJ/转换步长。

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A High-Speed Pipelined-SAR ADC with Resistor-based Self-biasing RAMP

This paper proposes a two-stage Pipelined-SAR ADC for high-speed, high-resolution and low-power applications. The sub-ADCs adopt the lower plate sampling and upper plate sampling asynchronous SAR logic respectively. The inter-stage amplifier adopts ring amplifier. The self-biasing RAMP is based on a variable resistor, which decreases the settling time of ring amplifier while maintaining low power consumption and sufficient phase margin. In addition, the first stage sub-ADC uses two parallel routes to sample and transfer residue voltage alternately, which further enhance the sample rate. A prototype ADC is designed and simulated in TSMC40nm CMOS technology with a standard 1.1 V supply voltage. The SNDR and ENOB is 55.34 dB and 8.9bit respectively from the simulation results, with a Nyquist frequency input sampled at 200 MS/s, and figure of merit of 35.4fJ/conversion-step.

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2018 10th International Conference on Communications, Circuits and Systems (ICCCAS)

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