A 26-Gb/s 3-D-Integrated Silicon Photonic Receiver in BiCMOS-55 nm and PIC25G With – 15.2-dBm OMA Sensitivity

ESSCIRC 2019 - IEEE 45th European Solid State Circuits Conference (ESSCIRC) Pub Date : 2019-09-01 DOI:10.1109/ESSCIRC.2019.8902549

Farhad Bozorgi, M. Bruccoleri, M. Repossi, E. Temporiti, A. Mazzanti, F. Svelto

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Abstract

This letter presents a 3-D-integrated 26 Gb/s opto-electrical receiver front-end. The electronic integrated circuit (EIC) is fabricated in a BiCMOS-55-nm technology, flipped and placed on top of the photonic integrated circuits (PICs) die through copper pillars. In the receiver chain, a fully differential shunt-feedback TI amplifier (FD-SF TIA) is followed by a limiting amplifiers (LAs) with embedded equalization, output driver and an automatic offset cancelation loop. The whole receiver provides a transimpedance (TI) gain of 76 dBñ with 30-GHz bandwidth. By exploiting the FD-SF TIA with low parasitic capacitance of the Germanium dual heterojunction photo diode (Ge-PD) in the photonic die, the receiver achieves sensitivity of −15.2 dBm optical modulation amplitude (OMA) at Ge-PD and −10-dBm OMA at the single-mode fiber (SMF) optical output with bit error rate of 10−12 and PRBS 15. The sensitivity is aligned with state-of-the-art receivers employing discrete photonics and, to author’s best knowledge, it is the lowest reported among published 25 Gb/s receivers exploiting silicon photonics.

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具有- 15.2 dbm OMA灵敏度的bicmos - 55nm和PIC25G的26gb /s三维集成硅光子接收器

这封信介绍了一个3d集成的26gb /s光电接收器前端。电子集成电路(EIC)采用bicmos -55纳米技术制造，通过铜柱翻转并放置在光子集成电路(PICs)芯片的顶部。在接收器链中，一个全差分并联反馈TI放大器(FD-SF TIA)之后是一个具有嵌入式均衡、输出驱动器和自动偏移抵消回路的限制放大器(LAs)。整个接收机在30 ghz带宽下提供76 dBñ的透阻(TI)增益。通过利用光子芯片中锗双异质结光电二极管(Ge-PD)低寄生电容的FD-SF TIA，接收器在Ge-PD处实现了−15.2 dBm的光调制幅度(OMA)，在单模光纤(SMF)光输出处实现了−10 dBm的光调制幅度(OMA)，误码率为10−12,PRBS为15。灵敏度与采用离散光子学的最先进的接收器一致，据作者所知，它是已发表的利用硅光子学的25 Gb/s接收器中报道的最低的。

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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ESSCIRC 2019 - IEEE 45th European Solid State Circuits Conference (ESSCIRC)

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