A 9.6-Gb/s 1.22-mW/Gb/s Data-Jitter Mixing Forwarded-Clock Receiver in 65-nm CMOS

Chung Sang-Hye; Kim Lee-Sup

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A 9.6-Gb/s 1.22-mW/Gb/s Data-Jitter Mixing Forwarded-Clock Receiver in 65-nm CMOS

机译：65 nm CMOS的9.6 Gb / s 1.22 mW / Gb / s数据抖动混合转发时钟接收器

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摘要

In this paper, a data-jitter mixing (DJM) forwarded-clock receiver is proposed that achieves high jitter correlation between data and a clock for high speed and small power consumption. The first-stage injection-locked oscillator (ILO) filters out high-frequency clock jitter that loses the correlation due to a latency mismatch between data and the clock. Then, a data-jitter mixer in the second stage of the proposed receiver further increases the jitter correlation reduced by nonoptimal jitter filtering in ILO. Moreover, the DJM reduces power supply noise induced jitter from a clock distribution network, while the conventional jitter filter cannot track the high-frequency jitter because of filtering it out. A prototype receiver implemented in 1-V 65-nm CMOS process achieves 9.6 Gb/s with 1.22-mW/Gb/s in spite of a 1.92-ns latency mismatch between data and a clock.

机译：本文提出了一种数据抖动混合（DJM）前向时钟接收器，该接收器可实现数据与时钟之间的高抖动相关性，从而实现高速和小功耗。第一级注入锁定振荡器（ILO）过滤掉高频时钟抖动，该抖动由于数据和时钟之间的等待时间不匹配而失去了相关性。然后，所提出的接收机的第二级中的数据抖动混频器进一步增加了由ILO中的非最佳抖动滤波所降低的抖动相关性。此外，DJM减少了时钟分配网络中电源噪声引起的抖动，而传统的抖动滤波器由于将其滤除而无法跟踪高频抖动。尽管数据和时钟之间存在1.92 ns的延迟不匹配，但采用1-V 65-nm CMOS工艺实现的原型接收器仍可达到9.6 Gb / s和1.22-mW / Gb / s。

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来源
《Very Large Scale Integration (VLSI) Systems, IEEE Transactions on》 |2015年第10期|2023-2033|共11页
作者
Chung Sang-Hye; Kim Lee-Sup;
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作者单位

Department of Electrical Engineering and Computer Science, Korea Advanced Institute of Science and Technology, Daejeon, Korea;

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正文语种 eng
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关键词
Data-jitter mixer (DJM); double-balanced mixer; injection-locked oscillator (ILO); jitter tracking bandwidth; receiver; source synchronous parallel link;

机译：数据抖动混频器（DJM）;双平衡混频器;注入锁定振荡器（ILO）;抖动跟踪带宽;接收器;源同步并行链路;

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专利

1. A 10-Gb/s 0.71-pJ/bit Forwarded-Clock Receiver Tolerant to High-Frequency Jitter in 65-nm CMOS [J] . Sang-Hye Chung, Young-Ju Kim, Yong-Hun Kim, Circuits and Systems II: Express Briefs, IEEE Transactions on . 2016,第3期

机译：10 Gb / s 0.71 pJ / bit转发时钟接收器，可承受65 nm CMOS中的高频抖动
2. A 0.36 pJ/bit, 0.025 mm2, 12.5 Gb/s Forwarded-Clock Receiver With a Stuck-Free Delay-Locked Loop and a Half-Bit Delay Line in 65-nm CMOS Technology [J] . Woorham Bae, Gyu-Seob Jeong, Kwanseo Park, IEEE transactions on circuits and systems . I , Regular papers . 2016,第9期

机译：具有65nm CMOS技术的0.36 pJ /位，0.025 mm2、12.5 Gb / s的前向时钟接收器，具有无卡滞延迟锁定环路和半位延迟线
3. A 4.8-mW/Gb/s 9.6-Gb/s 5 $+$ 1-Lane Source-Synchronous Transmitter in 65-nm Bulk CMOS [J] . Yuan S., wang Z., Zheng X., Circuits and Systems II: Express Briefs, IEEE Transactions on . 2014,第4期

机译：65 nm批量CMOS中的4.8-mW / Gb / s 9.6-Gb / s 5 $ + $ 1通道源同步发送器
4. 1.22mW/Gb/s 9.6Gb/s data jitter mixing forwarded-clock receiver robust against power noise with 1.92ns latency mismatch between data and clock in 65nm CMOS [C] . Chung Sang-Hye, Kim Lee-Sup VLSI Circuits (VLSIC), 2012 Symposium on . 2012

机译：1.22mW / Gb / s 9.6Gb / s数据抖动混合转发时钟接收器具有65nm CMOS数据和时钟之间的1.92ns延迟不匹配，可抵抗功率噪声
5. Current Feedback-Based High Load Current Low Drop-Out Voltage Regulator in 65-nm CMOS Technology [D] . Teoh, Melody. 2018

机译：基于电流反馈的高负荷电流低丢弃电压稳压器65-NM CMOS技术
6. A 3.0 Gsymbol/s/lane MIPI C-PHY Receiver with Adaptive Level-Dependent Equalizer for Mobile CMOS Image Sensor [O] . Seokwon Choi, Changmin Song, Young-Chan Jang 2021

机译：一个3.0 Gsymbol / S / Lane MIPI C-PHY接收器具有用于移动CMOS图像传感器的自适应电平依赖性均衡器
7. A 5Gb/s Speculative DFE for 2x Blind ADC-based Receivers in 65-nm CMOS [O] . Siamak Sarvari, Tina Tahmoureszadeh, Ali Sheikholeslami, 2013

机译：5Gb / s投机性DFE，用于2个基于65nm CMOS的基于ADC的盲接收器

A 9.6-Gb/s 1.22-mW/Gb/s Data-Jitter Mixing Forwarded-Clock Receiver in 65-nm CMOS

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