Design and Analysis of A 2.5-Gbps Optical Receiver Analog Front-End in a 0.35-μm Digital CMOS Technology

Wei-Zen Chen; Chao-Hsin Lu

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Design and Analysis of A 2.5-Gbps Optical Receiver Analog Front-End in a 0.35-μm Digital CMOS Technology

机译：采用0.35μm数字CMOS技术的2.5 Gbps光接收器模拟前端的设计与分析

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This paper presents the design of an optical receiver analog front-end circuit capable of operating at 2.5 Gbit/s. Fabricated in a low-cost 0.35-μm digital CMOS process, this integrated circuit integrates both transimpedance amplifier and post limiting amplifier on a single chip. In order to facilitate high-speed operations in a low-cost CMOS technology, the receiver front-end has been designed utilizing several enhanced bandwidth techniques, including inductive peaking and current injection. Moreover, a power optimization methodology for a multistage wide band amplifier has been proposed. The measured input-referred noise of the optical receiver is about 0.8 μA{sub}(rms). The input sensitivity of the receiver front-end is 16 μA for 2.5-Gbps operation with bit-error rate less than 10{sup}(-12), and the output swing is about 250 mV (single-ended). The front-end circuit drains a total current of 33 mA from a 3-V supply. Chip size is 1650 μm × 1500 μm.

机译：本文提出了一种能够以2.5 Gbit / s的速度工作的光接收机模拟前端电路的设计。该集成电路采用低成本的0.35μm数字CMOS工艺制造，在单个芯片上集成了跨阻放大器和后限放大器。为了促进低成本CMOS技术中的高速操作，已经设计了利用几种增强的带宽技术（包括电感性峰值和电流注入）的接收器前端。此外，已经提出了用于多级宽带放大器的功率优化方法。测得的光接收器的等效输入噪声约为0.8μA{sub}（rms）。对于2.5 Gbps操作，接收器前端的输入灵敏度为16μA，误码率小于10 {sup}（-12），输出摆幅约为250 mV（单端）。前端电路从3 V电源消耗总电流为33 mA。芯片尺寸为1650μm×1500μm。

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《IEEE Transactions on Circuits and Systems. I, Regular Papers》 |2006年第5期|p.977-983|共7页
作者
Wei-Zen Chen; Chao-Hsin Lu;
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原文格式 PDF
正文语种 eng
中图分类 TN71;
关键词
Active inductor; Limiting amplifier (LA); Transimpedance amplifier (TIA);

机译：有源电感器;限幅放大器（LA）;跨阻放大器（TIA）;

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专利

1. Design and anaylsis of a 2.5-Gbps optical receiver analog front-end in a 0.35-μm digital CMOS technology [J] . Wei-Zen Chen, Chao-Hsin Lu IEEE transactions on circuits and systems . I , Regular papers . 2006,第5期

机译：采用0.35-μm数字CMOS技术的2.5 Gbps光接收器模拟前端的设计和分析
2. Design and Implementation of 10-Gb/s Optical Receiver Analog Front-End in 0.13-μm CMOS Technology [J] . Won-Seok OH, rnKang-Yeob PARK, rnKyu-Ho PARK, IEICE Transactions on Electronics . 2010,第3期

机译：采用0.13μmCMOS技术的10 Gb / s光接收器模拟前端的设计与实现
3. A 90-${hbox {dB}}Omega$ 10-Gb/s Optical Receiver Analog Front-End in a 0.18-$mu{hbox {m}}$ CMOS Technology [J] . Wei-Zen Chen, Da-Shin Lin IEEE transactions on very large scale integration (VLSI) systems . 2007,第期

机译：90-$ {hbox {dB}} Omega $ 10-Gb / s光接收器模拟前端采用0.18- $ mu {hbox {m}} $ CMOS技术
4. Broadband transimpedance amplifier in 0.35-μm SiGe BiCMOS technology for 10-Gb/s optical receiver analog front-end application [C] . Huang J. C., Lai Y. S., Hsu K. Y. J. Custom Integrated Circuits Conference, 2008 IEEE . -1

机译：0.35-μmSiGe BiCMOS技术的宽带跨阻放大器，用于10-Gb / s光接收器模拟前端应用
5. Design of CMOS front-end receivers for optical wireless communication . [D] . Zhang, Yiling. 2008

机译：用于光学无线通信的CMOS前端接收机的设计。
6. Design and Implementation of A CMOS Light Pulse Receiver Cell Array for Spatial Optical Communications [O] . Md. Shakowat Zaman Sarker, Shinya Itoh, Moeta Hamai, 2011

机译：用于空间光通信的CMOS光脉冲接收器单元阵列的设计与实现
7. An image-sensor-based optical receiver fabricated in a standard 0.35-µm CMOS technology for free-space optical communications [O] . Keiichiro Kagawa, Tomoaki Kawakami, Hiroaki Asazu, 2015

机译：基于图像传感器的光学接收器，采用标准0.35-μmCmOs技术制造，用于自由空间光通信

Design and Analysis of A 2.5-Gbps Optical Receiver Analog Front-End in a 0.35-μm Digital CMOS Technology

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