N. Mehta, Sen Lin, Bozhi Yin, S. Moazeni, V. Stojanović
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引用次数: 4
摘要
本文首次利用微环谐振(MRR)实现了激光LO信号转发的全集成相干二相移键控(BPSK)链路。它是通过将基于光学DAC的调制器、3db耦合器和基于mrr的平衡光电探测器(PD)等硅光子块集成在单片零变化45nm SOI CMOS中实现的。链路运行速度为10gb /s,发射机驱动器消耗40fJ/bit, OMA灵敏度为15.1dBm的接收机消耗450fJ/bit。激光转发的BPSK链路与具有相同组件的直接检测NRZ链路相比,激光功率预算提高了6美元。
A Laser-forwarded Coherent 10Gb/s BPSK Transceiver using Monolithic Microring Resonators in 45nm SOI CMOS
This paper demonstrates the first fully integrated coherent binary-phase-shift-keying (BPSK) link using microring resonat(MRR) with forwarded laser LO signal. It is enabled by integration of silicon-photonic blocks like optical DAC based modulator, 3-dB coupler, and MRR-based balanced photodetector (PD) in a monolithic zero-change 45nm SOI CMOS. The link operates at 10 Gb/s with transmitter driver consuming 40fJ/bit and receiver with OMA sensitivity of 15.1dBm consuming 450fJ/bit. The laser-forwarded BPSK link improves the laser power budget by $\sim 6$ dB compared to direct detection NRZ link with same components.
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