Comprehensive behavioural model for an electronic amplifier used in an optical communications systems
Correctly modelling the behaviour of power ampli ers to include the nonlinear aspects of their response has been a matter of interest in the elds of electronic and wireless communications for a considerable amount of time. Throughout the last decades, numerous techniques that succeed in accurate...
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Format: | info:eu-repo/semantics/masterThesis |
Language: | eng |
Published: |
Servicio de Publicaciones. Universidad de Navarra.
2019
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Subjects: | |
Online Access: | https://hdl.handle.net/10171/58373 |
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author | Fuentes-Ugartemendia, P. (Patricio) Crespo-Bofil, P. (Pedro) |
author_facet | Fuentes-Ugartemendia, P. (Patricio) Crespo-Bofil, P. (Pedro) |
author_sort | Fuentes-Ugartemendia, P. (Patricio) |
collection | DSpace |
description | Correctly modelling the behaviour of power ampli ers to include the nonlinear aspects
of their response has been a matter of interest in the elds of electronic and wireless
communications for a considerable amount of time. Throughout the last decades, numerous
techniques that succeed in accurately representing these nonlinearities and that
provide ways to reduce their impact on system performance have been derived. An
essential application of these techniques is the construction of ampli er models that
can be used to obtain a deeper understanding of the phenomena that make these devices
more or less nonlinear. These models have been used in numerous scenarios to
comprehend and devise ways to mitigate the impact of nonlinearity in the response of
many ampli ers. However, ultra-broadband RF electronic drive ampli ers used in optical
communications environments represent a small niche in which extensive derivation
of these ampli er models has not yet been accomplished. In this thesis, a device-speci c
behavioural model for one such electronic drive ampli er will be constructed based on
existing modelling techniques and extensive lab measurements. In addition, changes in
the performance of a communications system when these behavioural models are integrated
within it will also be studied. Ultimately, this thesis will strive to determine
the speci c phenomena that are linked to the nonlinearity present in the response of an
ultra-broadband RF electronic drive ampli er and how variation of these factors a ects
the behaviour of this device. |
format | info:eu-repo/semantics/masterThesis |
id | oai:dadun.unav.edu:10171-58373 |
institution | Universidad de Navarra |
language | eng |
publishDate | 2019 |
publisher | Servicio de Publicaciones. Universidad de Navarra. |
record_format | dspace |
spelling | oai:dadun.unav.edu:10171-583732022-03-07T10:33:35Z Comprehensive behavioural model for an electronic amplifier used in an optical communications systems Fuentes-Ugartemendia, P. (Patricio) Crespo-Bofil, P. (Pedro) electronic amplifier Correctly modelling the behaviour of power ampli ers to include the nonlinear aspects of their response has been a matter of interest in the elds of electronic and wireless communications for a considerable amount of time. Throughout the last decades, numerous techniques that succeed in accurately representing these nonlinearities and that provide ways to reduce their impact on system performance have been derived. An essential application of these techniques is the construction of ampli er models that can be used to obtain a deeper understanding of the phenomena that make these devices more or less nonlinear. These models have been used in numerous scenarios to comprehend and devise ways to mitigate the impact of nonlinearity in the response of many ampli ers. However, ultra-broadband RF electronic drive ampli ers used in optical communications environments represent a small niche in which extensive derivation of these ampli er models has not yet been accomplished. In this thesis, a device-speci c behavioural model for one such electronic drive ampli er will be constructed based on existing modelling techniques and extensive lab measurements. In addition, changes in the performance of a communications system when these behavioural models are integrated within it will also be studied. Ultimately, this thesis will strive to determine the speci c phenomena that are linked to the nonlinearity present in the response of an ultra-broadband RF electronic drive ampli er and how variation of these factors a ects the behaviour of this device. 2019-11-06T10:14:22Z 2019-11-06T10:14:22Z 2019-09-27 2019-03-01 info:eu-repo/semantics/masterThesis https://hdl.handle.net/10171/58373 eng info:eu-repo/semantics/openAccess application/pdf Servicio de Publicaciones. Universidad de Navarra. |
spellingShingle | electronic amplifier Fuentes-Ugartemendia, P. (Patricio) Crespo-Bofil, P. (Pedro) Comprehensive behavioural model for an electronic amplifier used in an optical communications systems |
title | Comprehensive behavioural model for an electronic amplifier used in an optical communications systems |
title_full | Comprehensive behavioural model for an electronic amplifier used in an optical communications systems |
title_fullStr | Comprehensive behavioural model for an electronic amplifier used in an optical communications systems |
title_full_unstemmed | Comprehensive behavioural model for an electronic amplifier used in an optical communications systems |
title_short | Comprehensive behavioural model for an electronic amplifier used in an optical communications systems |
title_sort | comprehensive behavioural model for an electronic amplifier used in an optical communications systems |
topic | electronic amplifier |
url | https://hdl.handle.net/10171/58373 |
work_keys_str_mv | AT fuentesugartemendiappatricio comprehensivebehaviouralmodelforanelectronicamplifierusedinanopticalcommunicationssystems AT crespobofilppedro comprehensivebehaviouralmodelforanelectronicamplifierusedinanopticalcommunicationssystems |