Electrical spectrum synthesis technique using digital pre-processing and ultra-broadband electrical bandwidth doubler for high-speed optical transmitter

Proposed is an electrical spectrum synthesis technique that converts low-speed signals to a high-speed signal using transmitter-side digital signal processing (DSP) and an ultra-broadband electrical bandwidth doubler. The transmitter-side DSP converts a high-speed signal to low-speed upper and lower...

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Bibliographic Details
Published in:Electronics letters 2018-11, Vol.54 (24), p.1390-1391
Main Authors: Hamaoka, F, Nakamura, M, Nagatani, M, Wakita, H, Yamazaki, H, Kobayashi, T, Nosaka, H, Miyamoto, Y
Format: Article
Language:English
Subjects:
analogue multiplexers
digital pre‐processed low‐speed signal output
digital signal processing chips
digital‐analogue conversion
digital‐to‐analogue converters
DSP
electrical spectrum synthesis technique
heterojunction bipolar transistors
high‐speed optical transmitter
III‐V semiconductors
indium compounds
InP
in‐house indium phosphide heterojunction bipolar transistor technologies
multiplexing
Optical communication
optical transmitters
phase shift keying
quadrature phase shift keying signal
transmitter‐side digital signal processing
ultrabroadband electrical bandwidth doubler
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Summary:Proposed is an electrical spectrum synthesis technique that converts low-speed signals to a high-speed signal using transmitter-side digital signal processing (DSP) and an ultra-broadband electrical bandwidth doubler. The transmitter-side DSP converts a high-speed signal to low-speed upper and lower sideband signals, down- and up-converts the low-speed signals into baseband signals, and adds and subtracts the in-phase and the quadrature components of the baseband signals. The digital pre-processed low-speed signals output from digital-to-analogue converters are multiplexed to the high-speed signal by the bandwidth doubler, which consists of analogue multiplexers designed and fabricated using in-house indium phosphide heterojunction bipolar transistor technologies. A 120 GBaud quadrature phase shift keying signal has been successfully generated by using the proposed technique as a demonstration of a high-speed optical transmitter.
ISSN:0013-5194
1350-911X
1350-911X
DOI:10.1049/el.2018.6216