JSSC 2009第4期RF & Wireless65nm

A Multi-Standard 1.5 to 10 Gb/s Latch-Based 3-Tap DFE Receiver With a SSC Tolerant CDR for Serial Backplane Communication Massimo Pozzoni, Simone Erba, Paolo Viola, Matteo Pisati, Emanuele Depaoli, Davide Sanzogni

一款基于锁存器的多标准3抽头DFE接收器，支持1.5至10 Gb/s数据传输，适应SSC抖动。

65 nm CMOS, 1 V, 140 mW, 6 Gb/s with SSC, 8.5 Gb/s

多标准接收器DFE时钟恢复SSC容忍自适应均衡

▸创新点1：自适应3抽头DFE数据恢复技术，采用直接反馈拓扑结构，有效解决信道损耗问题，同时实现高频差跟踪和低串并转换延迟，支持1.5至10 Gb/s的多标准数据传输。

▸创新点2：基于锁存器的DFE拓扑结构，克服传统DFE反馈环路延迟问题，提升信号处理速度和系统稳定性，适用于高速数据传输场景。

▸创新点3：数字早晚时钟恢复技术，支持5000 ppm SSC（扩频时钟）跟踪，显著提高时钟恢复精度和系统抗干扰能力，适用于高抖动容忍环境。

▸创新点4：集成自校准和内部眼图分析功能，通过数字化设计实现系统性能优化和实时监测，降低功耗至140 mW（1 V供电），同时保持0.4 UI的正弦抖动容忍度。

Abstract

This paper presents a 1.5 to 10 Gb/s SATA/SAS/FC receiver in 65 nm CMOS. The multiple constraints set by industry standards ask for a receiver architecture capable of simultaneously addressing channel loss impairments, high frequency-difference tracking and low serial to parallel latency. An adaptive 3-tap DFE data recovery is based on a direct-feed- back topology to provide a continuous equalized signal assuring a robust clock-data self alignment. A latch-based DFE topology has been developed to overcome the classical DFE feedback loop-delay issue. A digital early-late clock recovery has been proven for 5000 ppm SSC tracking. Extensive digital features allow self-calibration and internal eye analysis. The device, realized in a 65 nm technology, supports more than 36 FR4 at 6 Gb/s with SSC and 28 at 8.5 Gb/s while keeping 0.4 UI of additional sinusoidal jitter tolerance, consuming 140 mW from 1 V.