The extensive research for high-speed circuits for wireline communication is motivated by the ever-expanding demand for high-speed data transport. This thesis, in collaboration with CamGraPhIC, illustrates work done in order to obtain a low noise and broadband amplifier as the first stage of a receiver. In particular, considering an amplifier with feedback resistance, the design, and techniques useful for broadening the band using Cadence and the frequency analysis using Matlab, were carried out to obtain the project requests.
The extensive research for high-speed circuits for wireline communication is motivated by the ever-expanding demand for high-speed data transport. This thesis, in collaboration with CamGraPhIC, illustrates work done in order to obtain a low noise and broadband amplifier as the first stage of a receiver. In particular, considering an amplifier with feedback resistance, the design, and techniques useful for broadening the band using Cadence and the frequency analysis using Matlab, were carried out to obtain the project requests.
Low noise and wideband amplifier design for 112-Gbps NRZ optical communications
CARACCIOLO, DEMETRA
2021/2022
Abstract
The extensive research for high-speed circuits for wireline communication is motivated by the ever-expanding demand for high-speed data transport. This thesis, in collaboration with CamGraPhIC, illustrates work done in order to obtain a low noise and broadband amplifier as the first stage of a receiver. In particular, considering an amplifier with feedback resistance, the design, and techniques useful for broadening the band using Cadence and the frequency analysis using Matlab, were carried out to obtain the project requests.È consentito all'utente scaricare e condividere i documenti disponibili a testo pieno in UNITESI UNIPV nel rispetto della licenza Creative Commons del tipo CC BY NC ND.
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https://hdl.handle.net/20.500.14239/14910