A 90-${hbox {dB}}Omega$ 10-Gb/s Optical Receiver Analog Front-End in a 0.18-$mu{hbox {m}}$ CMOS Technology

Wei-Zen Chen; Da-Shin Lin

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A 90-${hbox {dB}}Omega$ 10-Gb/s Optical Receiver Analog Front-End in a 0.18-$mu{hbox {m}}$ CMOS Technology

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

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A 10-Gb/s 90-dBOmega optical receiver analog front-end (AFE), including a transimpedance amplifier (TIA), an automatic gain control circuit, and a postamplifier (PA), is fabricated using a 0.18-mum CMOS technology. In contrast with a conventional limiting amplifier architecture, the PA is consisted of a voltage amplifier followed by a slicer. By means of the TIA and the PA codesign, the receiver front-end provides a -3-dB bandwidth of 7.86 GHz and a gain bandwidth product (GBW) of 248.5 THz-Omega. The tiny photocurrent received by the AFE is amplified to a differential voltage swing of 900 mVpp when driving 50-Omega output loads. The measured input sensitivity of the optical receiver is -13 dBm at a bit-error rate of 10-12 with a 231-1 pseudorandom test pattern. The optical receiver AFE dissipates a total power of 199 mW from a 1.8-V supply, among which 35 mW is consumed by the output buffer. The chip size is 1300 mumtimes1796 mum

机译：使用0.18微米CMOS技术制造了包括互阻放大器（TIA），自动增益控制电路和后置放大器（PA）的10 Gb / s 90-dBOmega光接收器模拟前端（AFE）。与传统的限幅放大器架构相比，PA由电压放大器和限幅器组成。借助TIA和PA代码，接收器前端可提供7.86 GHz的-3-dB带宽和248.5THz-Ω的增益带宽积（GBW）。当驱动50Ω输出负载时，AFE接收到的微小光电流被放大到900 mVpp的差分电压摆幅。在23-12伪随机测试模式下，在10-12的误码率下，光接收器的测量输入灵敏度为-13 dBm。光接收器AFE从1.8V电源消耗总功率199mW，其中输出缓冲器消耗35mW。芯片尺寸为1300倍x 1796微米

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来源
《IEEE transactions on very large scale integration (VLSI) systems》 |2007年第3期|p.358-365|共8页
作者
Wei-Zen Chen; Da-Shin Lin;
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正文语种 eng
中图分类微电子学、集成电路（IC）;
关键词
CMOS integrated circuits; amplifiers; automatic gain control; error statistics; optical receivers; 0.18 micron; 1.8 V; 10 Gbit/s; 1300 micron; 1796 micron; 199 mW; 35 mW; 50 ohm; 7.86 GHz; CMOS technology; bit-error rate; optical receiver analog front-end; pseudorandom t;

机译：CMOS集成电路;放大器;自动增益控制;误差统计;光学接收器;0.18微米;1.8 V;10 Gbit / s;1300微米;1796微米;199 mW;35 mW;50 ohm;7.86 GHz;CMOS技术;bit-错误率;光接收机模拟前端;伪随机数;

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1. 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
2. A $Q$ -Band Four-Element Phased-Array Front-End Receiver With Integrated Wilkinson Power Combiners in 0.18-$mu{{hbox{m}}}$ SiGe BiCMOS Technology [J] . Kwang-Jin Koh, Rebeiz G.M. IEEE Transactions on Microwave Theory and Techniques . 2008,第9期

机译：具有0.18- $ mu {{hbox {m}}} $ SiGe BiCMOS技术的集成了Wilkinson功率合成器的$ Q $频段四元件相控阵前端接收器
3. A $Q$ -Band Four-Element Phased-Array Front-End Receiver With Integrated Wilkinson Power Combiners in 0.18-$mu{{hbox{m}}}$ SiGe BiCMOS Technology [J] . Kwang-Jin Koh, Rebeiz G.M. IEEE Transactions on Microwave Theory and Techniques . 2008,第9期

机译：具有0.18- $ mu {{hbox {m}}} $ SiGe BiCMOS技术的集成了Wilkinson功率合成器的$ Q $频段四元件相控阵前端接收器
4. Broadband transimpedance amplifier in 0.35-#x03BC;m SiGe BiCMOS technology for 10-Gb/s optical receiver analog front-end application [C] . Huang J. C., Lai Y. S., Hsu K. Y. J. IEEE Custom Integrated Circuits Conference . 2008

机译：0.35微米SiGe BICMOS技术的宽带跨阻抗放大器用于10 GB / S光学接收器模拟前端应用
5. Co-Packaged 100+ Gbps Optical Communication Receiver Front-Ends in FinFET CMOS [D] . Patel, Dhruv Rajendra. 2020

机译：共同包装的100+ GBPS光通信接收器前端在FinFET CMOS中
6. Reliable Low-Cost Fabrication of Low-Loss $hbox{Al}_{2}hbox{O} _{3}{:}hbox{Er}^{3+}$ Waveguides With 5.4-dB Optical Gain [O] . Kerstin Worhoff, Jonathan D. B. Bradley, Feridun Ay, 2009

机译：可靠的低损耗$ hbox {al} _ {2} hbox {o} _ {3} {} _ {3} {} _ {3}} ^ {3 +} $ 5.4-db光学增益

A 90-${hbox {dB}}Omega$ 10-Gb/s Optical Receiver Analog Front-End in a 0.18-$mu{hbox {m}}$ CMOS Technology

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