6.6 A 128Gb/s 1.3pJ/b PAM-4 Transmitter with Reconfigurable 3-Tap FFE in 14nm CMOS

2019 IEEE International Solid- State Circuits Conference - (ISSCC) Pub Date : 2019-02-01 DOI:10.1109/ISSCC.2019.8662479

Z. Deniz, J. Proesel, J. Bulzacchelli, H. Ainspan, T. Dickson, Michael P. Beakes, M. Meghelli

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引用次数: 24

Abstract

The ever-increasing demand for higher bandwidth continues to fuel the need for faster and more power-efficient IOs, with the next generation high-speed serial links expected to reach data rates higher than 112Gb/s using PAM-4 signaling [1–3]. While PAM-4 spectral efficiency is better than that of NRZ, it is less tolerant of residual ISI and noise. As a consequence, a driver with high bandwidth and large output amplitude is required. This paper presents a 64Gbaud PAM-4 TX with a fully reconfigurable 3-tap FFE, which achieves a power efficiency of 1.3pJ/b in PAM-4 mode and 2.7pJ/b in NRZ mode for a differential output swing of $1\mathrm{V}_{ppd}$. A feature of the FFE construction is the use of fully re-assignable FFE segments among the 3 taps, which allows a reduced number of segments for lower capacitance and higher driver bandwidth. To minimize power consumption, a quarter-rate clocking architecture is adopted with a tailless 4:1 multiplexer, which also acts as a pre-driver to a tailless CML output driver.

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6.6一个128Gb/s 1.3pJ/b PAM-4发射机，带有可重构的14nm CMOS 3-Tap FFE

对更高带宽的不断增长的需求继续推动对更快、更节能的IOs的需求，下一代高速串行链路预计将使用PAM-4信令达到高于112Gb/s的数据速率[1-3]。PAM-4的频谱效率优于NRZ，但对残留ISI和噪声的容忍度较低。因此，需要具有高带宽和大输出幅度的驱动器。本文提出了一种具有完全可重构三分接FFE的64Gbaud PAM-4 TX，在PAM-4模式下功率效率为1.3pJ/b，在NRZ模式下功率效率为2.7pJ/b，差分输出摆幅为$1\mathrm{V}_{ppd}$。FFE结构的一个特点是在3个抽头之间使用完全可重新分配的FFE段，这允许减少段数量，以降低电容和提高驱动器带宽。为了最大限度地降低功耗，采用四分之一速率时钟架构，并采用无尾4:1多路复用器，该多路复用器也可作为无尾CML输出驱动器的预驱动器。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 IEEE International Solid- State Circuits Conference - (ISSCC)

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