Four-channel WDM transmitter with heterogeneously integrated III-V/Si photonics and low power 32 nm CMOS drivers
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Date
Authors
Huynh, Tam
Ramaswamy, Anand
Rimolo-Donadio, Renato
Schow, Clint
Roth, Jonathan
Norberg, Erik
Proesel, Jonathan
Guzzon, Robert
Shin, Jaehyuk
Rylyakov, Alexander
Journal Title
Journal ISSN
Volume Title
Publisher
Journal of Lightwave Technology
Abstract
We experimentally demonstrate a novel four-channel
wavelength division multiplexing transmitter operating at 1.3 μm
wavelength employing heterogeneously integrated III-V/Si photonic
circuit copackaged with low-power 32-nm SOI CMOS driver
integrated circuits (ICs). Error-free operation (BER < 10−12 )
has been achieved across all four channels for back-to-back, 2 and
10 km single-mode fiber transmission at 25 Gb/s per each channel,
targeting intra- and inter-datacenter interconnect applications.
Power consumption as low as 19.2 mW for four CMOS driver ICs
has been recorded, which yields 0.19 pJ/bit energy efficiency.
Description
Artículo científico
Citation
Huynh, T., Ramaswamy, A., Rimolo-Donadio, R., Schow, C., Roth, J., Norberg, E., Proesel, J., Guzzon, R., Shin, J., Rylyakov, A., Baks, C., Koch, B., Sparacin, D., Fish, G., & Lee, B. (2016). Four-channel WDM transmitter with heterogeneously integrated III-V/Si photonics and low power 32 nm CMOS drivers. Journal of Lightwave Technology, 34(13), 3131-3137.