采用16nm FinFET CMOS技术的全自适应宽带0.5-32.75Gb /s FPGA收发器

2016 IEEE Symposium on VLSI Circuits (VLSI-Circuits) Pub Date : 2016-06-15 DOI:10.1109/VLSIC.2016.7573471

P. Upadhyaya, Ade Bekele, Didem Turkur Melek, Haibing Zhao, J. Im, Junho Cho, Kee Hian Tan, S. McLeod, S. Chen, Wenfeng Zhang, Y. Frans, Ken Chang

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引用次数: 12

摘要

介绍了一种基于16nm FinFET CMOS的低功耗全自适应宽带柔性远端收发器的设计。接收器采用3级CTLE和分段AGC来最小化寄生峰值和15分接DFE，以在短通道和长通道上运行。发射器使用摆动增强CML驱动程序架构。低噪声宽带分数N LC锁相器结合基于线性有源电感的相位插补器和高速时钟用于低抖动时钟生成。收发器实现了>1200mVdpp的TX摆幅，RJ < 190fs, TJ < 5.39 ps, BER <;在32.75 Gb/s的速度下，在30 dB损耗的背板上进行10-15，同时消耗577mw。

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A fully-adaptive wideband 0.5–32.75Gb/s FPGA transceiver in 16nm FinFET CMOS technology

This paper describes the design of a low power fully-adaptive wideband, flexible reach transceiver in 16nm FinFET CMOS embedded within FPGA. The receiver utilizes a 3-stage CTLE with a segmented AGC to minimize parasitic peaking and 15-tap DFE to operate over both short and long channels. The transmitter uses a swing boosted CML driver architecture. Low noise wideband fractional N LC PLLs combined with linear active inductor based phase interpolators and high speed clocking are utilized for low jitter clock generation. The transceiver achieves >1200mVdpp TX swing with <;190 fs RJ and 5.39 ps TJ to achieve BER <; 10-15 over a 30 dB loss backplane at 32.75 Gb/s, while consuming 577 mW.

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2016 IEEE Symposium on VLSI Circuits (VLSI-Circuits)

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