22.2基于28nm CMOS和SOI的25Gb/s混合集成硅光子收发器

2015 IEEE International Solid-State Circuits Conference - (ISSCC) Digest of Technical Papers Pub Date : 2015-03-19 DOI:10.1109/ISSCC.2015.7063096

Yanfei Chen, M. Kibune, Asako Toda, A. Hayakawa, T. Akiyama, S. Sekiguchi, H. Ebe, N. Imaizumi, T. Akahoshi, S. Akiyama, Shinsuke Tanaka, T. Simoyama, K. Morito, Takuji Yamamoto, Toshihiko Mori, Y. Koyanagi, H. Tamura

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引用次数: 34

摘要

集成光子互连技术不受电互连固有的带宽距离限制，有望成为下一代可扩展数据中心的颠覆性替代方案。基于单片集成和混合集成的硅光子平台已经被报道。单片系统减轻了集成开销，但需要在电子或光子器件性能方面做出妥协[1,2]。混合集成允许对每个设备进行独立的工艺选择，从而使整个系统可能达到最佳性能[3]。本文提出了一种基于混合节距碰撞技术的混合集成光电(E-O)接口，该接口包括28nm CMOS的驱动/TIA芯片和SOI的调制器/PD芯片。带预强调的伪差分驱动器使800MHz带宽(BW)载波注入环形调制器能够以25Gb/s的速度工作，功率效率为2.9pJ/b。TIA实现了两种bw增强技术:具有并联反馈和t线圈感应峰值的调节级联码(RGC)输入级，以及混合失调校准，功率效率为2.0pJ/b，灵敏度为-8.0dBm OMA，可实现25Gb/s。

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22.2 A 25Gb/s hybrid integrated silicon photonic transceiver in 28nm CMOS and SOI

Integrated photonic interconnect technology is free from the bandwidth-distance limitation that intrinsically exists in electrical interconnects, promising a disruptive alternative for next-generation scalable data centers. Silicon photonic platforms have been reported based on monolithic and hybrid integration. Monolithic systems mitigate integration overhead but require compromise in either electronic or photonic device performance [1,2]. Hybrid integration allows for independent process selection for each device so that overall system can potentially achieve the best performance [3]. This paper presents a hybrid integrated electrical-optical (E-O) interface including a driver/TIA chip in 28nm CMOS and a modulator/PD chip in SOI, based on a mixed-pitch bumping technology. A pseudo-differential driver with pre-emphasis enables an 800MHz bandwidth (BW) carrier-injection ring modulator to operate at 25Gb/s with power efficiency of 2.9pJ/b. A TIA implements two BW-enhancement techniques: a regulated-cascode (RGC) input stage with shunt-shunt feedback and T-coil inductive peaking, and a hybrid offset calibration, achieving 25Gb/s with power efficiency of 2.0pJ/b and a sensitivity of -8.0dBm OMA.

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来源期刊

2015 IEEE International Solid-State Circuits Conference - (ISSCC) Digest of Technical Papers

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