论文信息 - Silicon Photonic Micro-Transceivers for Beyond 5G Environments

Silicon Photonic Micro-Transceivers for Beyond 5G Environments

Here, we report on the design and performance of a silicon photonic micro-transceiver required to operate in 5G and 6G environments at high ambient temperatures above 105 °C. The four-channel “IOCore” micro-transceiver incorporates a 1310 nm quantum dot laser system and operates at a data rate of 25 Gbps and higher. The 5 × 5 mm micro-transceiver chip benefits from a multimode coupling interface for low-cost assembly and robust connectivity at high temperatures as well as an optical redundancy scheme, which increases reliability by over an order of magnitude.

[1] R. Pitwon,et al. Silicon photonics transceiver evaluation for immersion cooled data center and HPC environments , 2021, International Conference on Group IV Photonics.

[2] Richard Pitwon,et al. Short reach, high temperature operation and high reliability silicon photonic micro-transceivers for embedded and co-packaged system integration , 2021, OPTO.

[3] J. Stewart,et al. Co-packaged Optics for Data Center Switching , 2020, 2020 European Conference on Optical Communications (ECOC).

[4] Kazuhiko Kurata,et al. Hyperscale Integrated Optical and Photonic Interconnect Platform , 2020, 2020 IEEE Photonics Conference (IPC).

[5] Kazuhiko Kurata,et al. Short reach, low cost silicon photonic micro-transceivers for embedded and co-packaged system integration , 2020, OPTO.

[6] L. Giorgi,et al. Experimental evaluation of silicon photonics transceiver operating at 120°C for 5G antenna array systems , 2018, Electronics Letters.

[7] H. Schröder,et al. Universal test system for system embedded optical interconnect , 2018, OPTO.

[8] R. Pitwon,et al. Converged photonic data storage and switch platform for exascale disaggregated data centers , 2017, OPTO.

[9] A. Forchel,et al. High-temperature operating 1.3-μm quantum-dot lasers for telecommunication applications , 2001, IEEE Photonics Technology Letters.

[10] Wim Bogaerts,et al. How to bring nanophotonics to application - silicon photonics packaging , 2008 .