Title :
22.2 A 25Gb/s hybrid integrated silicon photonic transceiver in 28nm CMOS and SOI
Author :
Yanfei Chen ; Kibune, Masaya ; Toda, Asako ; Hayakawa, Akinori ; Akiyama, Tomoyuki ; Sekiguchi, Shigeaki ; Ebe, Hiroji ; Imaizumi, Nobuhiro ; Akahoshi, Tomoyuki ; Akiyama, Suguru ; Tanaka, Shinsuke ; Simoyama, Takasi ; Morito, Ken ; Yamamoto, Takuji ; Mor
Author_Institution :
Fujitsu Labs., Kawasaki, Japan
Abstract :
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.
Keywords :
CMOS integrated circuits; driver circuits; elemental semiconductors; energy conservation; hybrid integrated circuits; integrated circuit interconnections; integrated optoelectronics; low-power electronics; modulators; monolithic integrated circuits; optical transceivers; silicon-on-insulator; BW-enhancement techniques; CMOS; RGC input stage; SOI; Si; T-coil inductive peaking; bandwidth 800 MHz; bit rate 25 Gbit/s; carrier-injection ring modulator; driver-TIA chip; electrical interconnects; electronic device; hybrid integrated electrical-optical interface; hybrid integrated silicon photonic transceiver; hybrid integration; hybrid offset calibration; integrated photonic interconnect technology; mixed-pitch bumping technology; mnolithic systems; modulator-PD chip; next-generation scalable data centers; photonic device; power efficiency; pseudo-differential driver; regulated-cascode input stage; shunt-shunt feedback; size 28 nm; CMOS integrated circuits; Noise; Optical modulation; Optical transmitters; Optical waveguides; Photonics;
Conference_Titel :
Solid- State Circuits Conference - (ISSCC), 2015 IEEE International
Conference_Location :
San Francisco, CA
Print_ISBN :
978-1-4799-6223-5
DOI :
10.1109/ISSCC.2015.7063096
