An 8.2 Gb/s-to-10.3 Gb/s Full-Rate Linear Referenceless CDR Without Frequency Detector in 0.18 μm CMOS

被引:30
|
作者
Huang, Sui [1 ]
Cao, Jun [2 ]
Green, Michael M. [1 ]
机构
[1] Univ Calif Irvine, Irvine, CA 92697 USA
[2] Broadcom Corp, Irvine, CA 92617 USA
来源
IEEE JOURNAL OF SOLID-STATE CIRCUITS | 2015年 / 50卷 / 09期
关键词
Analog; clock-and-data recovery (CDR); CMOS; jitter tolerance; linear phase detector; receiver; referenceless; wide-band data communication; DATA RECOVERY CIRCUIT; CONTINUOUS-RATE CLOCK; PHASE; TRANSCEIVER;
D O I
10.1109/JSSC.2015.2427332
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
An 8.2 Gb/s-to-10.3 Gb/s full-rate referenceless CDR in 0.18 mu m CMOS is presented. By realizing an asymmetric phase detector transfer curve, the linear CDR's "single-sided" capture range increases, which allows the Hogge phase detector itself to function as a frequency detector, thus eliminating the need for the reference clock and the separate frequency detector in conventional dual-loop CDRs. Robust frequency and phase acquisition is demonstrated. Furthermore, a new phase adjustment mode is added to further improve the jitter tolerance performance. The measurement results show that with a 10.3 Gb/s 2(31)-1 PRBS input, the random jitter at the output data is 0.336 Ps(rms), and the out-of-band jitter tolerance is 0.34 UIp-p.
引用
收藏
页码:2048 / 2060
页数:13
相关论文
共 50 条
  • [21] A 200-Mb/s to 3-Gb/s Wide-band Referenceless CDR Using Bidirectional Frequency Detector
    Nguyen Huu Tho
    Son, Kyung-Sub
    Lee, Kyongsu
    Kang, Jin-Ku
    2016 INTERNATIONAL SOC DESIGN CONFERENCE (ISOCC), 2016, : 259 - 260
  • [22] A 5-Gb/s Continuous-time Adaptive Equalizer and CDR using 0.18μm CMOS
    Kim, Tae-Ho
    Kim, Sang-Ho
    Kang, Jin-Ku
    ISOCC: 2008 INTERNATIONAL SOC DESIGN CONFERENCE, VOLS 1-3, 2008, : 488 - 491
  • [23] A 10-Gb/s CDR/DEMUX with LC delay line VCO in 0.18-μm CMOs
    Rogers, JE
    Long, JR
    IEEE JOURNAL OF SOLID-STATE CIRCUITS, 2002, 37 (12) : 1781 - 1789
  • [24] A 3.2 Gb/s VCSEL driver implemented in 0.18 μm CMOS
    Chuah, AEL
    Venditti, MB
    Liu, F
    Plant, DV
    APPLICATIONS OF PHOTONIC TECHNOLOGY 5: CLOSING THE GAP BETWEEN THEORY, DEVELOPMENT, AND APPLICATION, 2002, 4833 : 1198 - 1202
  • [25] 0.18 μm CMOS preamplifier for 10 Gb/s optical receiver
    Huang, Qian
    Feng, Jun
    Dianzi Qijian/Journal of Electron Devices, 2006, 29 (01): : 29 - 32
  • [26] A 0.0285mm2 0.68pJ/bit Single-Loop Full-Rate Bang-Bang CDR without Reference and Separate Frequency Detector Achieving an 8.2(Gb/s)/μs Acquisition Speed of PAM-4 data in 28nm CMOS
    Zhao, Xiaoteng
    Chen, Yong
    Mak, Pui-In
    Martins, Rui P.
    2020 IEEE CUSTOM INTEGRATED CIRCUITS CONFERENCE (CICC), 2020,
  • [27] A Full-Rate 40 Gb/s Clock and Data Recovery with Resonator-Based Frequency-Doubling Mechanism in 0.13-μm CMOS
    Chong, Joseph
    Ha, Dong Sam
    2017 IEEE 60TH INTERNATIONAL MIDWEST SYMPOSIUM ON CIRCUITS AND SYSTEMS (MWSCAS), 2017, : 1438 - 1441
  • [28] 10 Gb/s 0.18μm CMOS时钟恢复芯片
    袁晟
    冯军
    王骏峰
    王志功
    电子器件, 2003, (04) : 434 - 437
  • [29] A 25-28Gb/s PLL-based Full-Rate Reference-Less CDR in 0.13μm SiGe BiCMOS
    Zhang, Peng
    Zhang, Changchun
    Zhang, Jingjian
    Zhang, Yi
    Zhang, Ying
    Ji, Xincun
    2017 2ND IEEE INTERNATIONAL CONFERENCE ON INTEGRATED CIRCUITS AND MICROSYSTEMS (ICICM), 2017, : 186 - 190
  • [30] A Gb/s one-forth-rate CMOS CDR circuit without external reference clock
    Tontisirin, Sitt
    Tielert, Reinhard
    2006 IEEE INTERNATIONAL SYMPOSIUM ON CIRCUITS AND SYSTEMS, VOLS 1-11, PROCEEDINGS, 2006, : 3265 - +
12345