A 50-GBaud QPSK Optical Receiver With a Phase/Frequency Detector for Energy-Efficient Intra-Data Center Interconnects

IEEE Open Journal of the Solid-State Circuits Society Pub Date : 2022-02-09 DOI:10.1109/OJSSCS.2022.3150291

Luis A. Valenzuela;Yujie Xia;Aaron Maharry;Hector Andrade;Clint L. Schow;James F. Buckwalter

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引用次数: 8

Abstract

This paper describes the energy-efficient realization of a QPSK optical receiver (CoRX) for short-reach intra-datacenter interconnects based on analog coherent detection. The CoRX comprises inphase and quadrature channels for each polarization and a high-speed phase-frequency detector (PFD) that provides feedback to stabilize an optical local oscillator (LO) and maintain coherence with the received optical signal. Each receive (RX) channel consists of a transimpedance amplifier (TIA) based on a Cherry-Hooper emitter follower (CHEF). The electronic RX is implemented in a 130-nm SiGe HBT technology (

$f_{T} = 300$

GHz), consumes 534 mW of DC power for a total electrical RX energy efficiency of 5.34 pJ/bit, and occupies 2.8

$mm^{2}$

. Electrical characterization of the CoRX on an FR-4 PCB assembly demonstrates operation up to 60 GBaud with a bit error rate (BER) of less than 10 ⁻¹² . A co-packaged optical/electrical CoRX assembly with a silicon photonic receiver is characterized using a commercial-off-the-shelf quadrature phase-shift keying (QPSK) transmitter for constellations up to 50 GBaud (100 Gbps) at BER below KP4-FEC (

$2.2\times 10^{-4}$

查看原文本刊更多论文

用于节能数据中心内部互连的带相位/频率检测器的50GBaud QPSK光接收机

本文描述了一种基于模拟相干检测的用于短距离数据中心内互连的QPSK光接收机（CoRX）的节能实现。CoRX包括用于每个偏振的同相和正交信道以及高速相位频率检测器（PFD），其提供反馈以稳定光学本地振荡器（LO）并保持与接收到的光学信号的相干性。每个接收（RX）信道由基于Cherry Hooper发射极跟随器（CHEF）的跨阻抗放大器（TIA）组成。电子RX在130nm SiGe HBT技术中实现（$f_{T}=300$GHz），消耗534mW的DC功率，总电RX能量效率为5.34pJ/bit，并且占用2.8$mm^{2}$。FR-4 PCB组件上CoRX的电气特性表明，其操作高达60 GBaud，误码率（BER）小于10−12。具有硅光子接收器的共封装光/电CoRX组件的特征在于使用商用现成正交相移键控（QPSK）发射器，用于在低于KP4-FEC（2.2美元乘以10^{-4}$）的BER下高达50 GBaud（100 Gbps）的星座。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE Open Journal of the Solid-State Circuits Society

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