An 8-nm 20-Gb/s/pin Single-Ended PAM-4 Transceiver With Pre/Post-Channel Switching Jitter Compensation and DQS-Driven Biasing

IF 2.2 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Kyunghwan Min;Jahoon Jin;Soo-Min Lee;Sodam Ju;Jisu Yook;Jihoon Lee;Yunji Hong;Sung-Sik Park;Sang-Ho Kim;Jongwoo Lee;Hyungjong Ko
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Abstract

This letter presents a 20-Gb/s/pin single-ended pulse amplitude modulation (PAM)-4 transceiver implemented in an 8-nm CMOS process, featuring an advanced switching jitter compensation (SWJC) technique and a DQS-driven amplifier bias generation method for a source-synchronous clocking system, aimed for next-generation low-power memory interfaces utilizing multilevel signaling. The proposed prechannel SWJC (pre-SWJC) in the transmitter adjusts the input edge timing of the thermometer PAM-4 driver to control the transitions of the PAM-4 signal. This transition control advances the outermost transitions, thereby not only minimizing the switching jitter (SWJ) of the middle eye but also enhancing the effectiveness of the post-channel SWJC (post-SWJC) performed at the receiver. Ultimately, the comprehensive solution combining the proposed pre/post-SWJC improved the timing margin from 0.26 UI to 0.39 UI at a BER of 1e-12, with only a 4.5% increase in power consumption and a 0.59% area overhead. Additionally, the proposed DQS-driven biasing technique in the receiver supplies biases for the amplifiers in the data lanes by utilizing the common-mode feedback of the replica amplifier in the differential clock lane. This approach reduces variation sources compared to the self-biasing structure that uses common-mode feedback in the data lanes, thereby improving the standard deviation of the amplifier’s bias voltage and gain variation by 58.3%.
具有前/后通道切换抖动补偿和 DQS 驱动偏置功能的 8 纳米 20-Gb/s/pin 单端 PAM-4 收发器
这封信介绍了一种在 8 纳米 CMOS 工艺中实现的 20-Gb/s/pin 单端脉冲幅度调制 (PAM)-4 收发器,该收发器采用先进的开关抖动补偿 (SWJC) 技术和 DQS 驱动的放大器偏置生成方法,用于源同步时钟系统,旨在实现利用多级信号的下一代低功耗存储器接口。拟议的发射器预通道 SWJC(pre-SWJC)可调整温度计 PAM-4 驱动器的输入边沿时序,以控制 PAM-4 信号的转换。这种过渡控制将最外层的过渡提前,从而不仅最大限度地减少了中间眼的开关抖动(SWJ),还提高了接收器执行的后信道 SWJC(post-SWJC)的有效性。最终,在误码率为 1e-12 的情况下,结合了所提出的前/后 SWJC 的综合解决方案将时序裕度从 0.26 UI 提高到了 0.39 UI,而功耗仅增加了 4.5%,面积开销为 0.59%。此外,接收器中的 DQS 驱动偏置技术利用差分时钟通道中复制放大器的共模反馈,为数据通道中的放大器提供偏置。与在数据通道中使用共模反馈的自偏压结构相比,这种方法减少了变化源,从而将放大器偏置电压和增益变化的标准偏差提高了 58.3%。
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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来源期刊
IEEE Solid-State Circuits Letters
IEEE Solid-State Circuits Letters Engineering-Electrical and Electronic Engineering
CiteScore
4.30
自引率
3.70%
发文量
52
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