一种采用28纳米CMOS的36gb /s自适应波特率CDR，带CTLE和1抽头DFE

IF 2.2 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE

IEEE Solid-State Circuits Letters Pub Date : 2019-08-21 DOI:10.1109/LSSC.2019.2936768

Danny Yoo;Mohammad Bagherbeik;Wahid Rahman;Ali Sheikholeslami;Hirotaka Tamura;Takayuki Shibasaki

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引用次数: 8

摘要

这封信介绍了在28 nm CMOS中制造的36 Gb/s自适应波特率时钟和数据恢复电路（CDR）的设计细节，该电路具有连续时间线性均衡器和1抽头判决反馈均衡器（DFE）。所提出的片上自适应引擎针对波特率CDR进行了定制，其中DFE和PD之间共享前端比较器以节省功率。自适应方案在波特率CDR测试芯片上进行了演示，该芯片具有基于采样器的前端均衡，更适合低功率、短距离应用，而不是通常用于长距离（LR）链路的基于功率密集型ADC/DSP的接收器方法。该测试芯片使用34–36 Gb/s随机输入数据（PRBS31和7）进行了验证，奈奎斯特的信道损耗为15.05–18.25 dB。总功耗测量为106.3mW，相当于35Gb/s时3.04pJ/bit的FOM。

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A 36-Gb/s Adaptive Baud-Rate CDR With CTLE and 1-Tap DFE in 28-nm CMOS

This letter presents the design details of a 36-Gb/s adaptive baud-rate clock and data recovery circuit (CDR) with continuous-time linear equalizers and 1-tap decision feedback equalizer (DFE) fabricated in 28-nm CMOS. The proposed on-chip adaptation engine is tailored to a baud-rate CDR, where the front-end comparators are shared between the DFE and the PD to save power. The adaptive scheme is demonstrated on a baud-rate CDR testchip that has sampler-based front-end equalization which is more suitable for low-power, short reach, applications instead of a power intensive ADC/DSP-based receiver approach that is usually meant for long-reach (LR) links. This testchip was validated with 34-36 Gb/s random input data (PRBS31 & 7) with channel loss of 15.05-18.25 dB at Nyquist. The total power consumption is measured to be 106.3 mW, equivalent to an FOM of 3.04 pJ/bit at 35 Gb/s.

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来源期刊

IEEE Solid-State Circuits Letters Engineering-Electrical and Electronic Engineering

CiteScore

4.30

自引率

3.70%

发文量