一个低于2w的10GBase-T模拟前端在40nm CMOS工艺

2012 IEEE International Solid-State Circuits Conference Pub Date : 2012-04-03 DOI:10.1109/ISSCC.2012.6177068

T. Gupta, Frank Yang, Dong Wang, A. Tabatabaei, Ramesh Singh, H. A. Aslanzadeh, Alireza Khalili, S. Vats, S. Arno, S. Campeau

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引用次数: 6

摘要

IEEE802.3an 10GBase-T标准[1]采用100M UTP电缆，通过4双绞线实现全双工收发。该标准的早期AFE实现使用了一种发射器混合配置，需要多个dac，具有严格的dac间匹配要求[2-3]。本文描述了一种新的AFE架构，使用单个DAC和线路驱动器来实现更好的回声消除线性度。该设计在400MHz带宽上实现了> 59dB TX SFDR和> 68dB回波消除(EC) SFDR。AFE接收器电路由PGA和工作速度为800MS/s的2倍时间交错SHA-less 11b流水线ADC组成。实测接收本底噪声和SFDR分别为;53dB。该AFE功耗小于2W，占地17mm2的硅面积，包含4通道和时钟电路，采用40nm三栅0.9V/1.2V/2.5V CMOS工艺实现。

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A sub-2W 10GBase-T analog front-end in 40nm CMOS process

The IEEE802.3an 10GBase-T standard [1] provides full duplex transmission and reception over 4 twisted pairs in a 100M UTP cable. Earlier AFE implementations for this standard have utilized a transmitter hybrid configuration requiring multiple DACs with stringent inter-DAC matching requirements [2-3]. This paper describes a new AFE architecture using a single DAC and line-driver to achieve better echo-cancellation linearity. The design achieves >;59dB TX SFDR and >;68dB echo-cancellation (EC) SFDR across 400MHz bandwidth. The AFE receiver circuitry consists of PGA and 2× time-interleaved SHA-less 11b pipelined ADC operating at 800MS/s. Measured receive noise floor and SFDR is <;-144dBm/Hz and >;53dB, respectively. The AFE dissipates less than 2W power, occupies 17mm2 silicon area including 4 lanes with clocking circuitry, and is implemented in a 40nm triple-gate 0.9V/1.2V/2.5V CMOS process.

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2012 IEEE International Solid-State Circuits Conference

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