Optical transmission systems based in direct detection with modulation in phase and amplitude
| Main Author: | |
|---|---|
| Publication Date: | 2022 |
| Format: | Master thesis |
| Language: | eng |
| Source: | Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) |
| Download full: | http://hdl.handle.net/10773/38009 |
Summary: | The need for optical communication systems has been increasing given the advancements in 5G and other parallel technologies. Therefore, it is required to develop low-cost high capacity solutions, particularly for short-reach systems, such as interdatacenters links. Current coherent transceivers can fulfill the capacity requirements, but their extended hardware components list make its solutions complex, power-hungry, and expensive, making it an unappealing solution for short-reach applications. Notice that a standard coherent receiver requires: two 90º optical hybrids, four pairs of balanced photodetectors, a local oscillator, and two polarization beam splitters for dual polarization schemes. State of the art self-coherent transceivers have a capacity competitive to coherent, in a short-reach scenario, while only requiring a single photodetector at the receiver. By employing single sideband methods who explore the DC-Value self-coherent algorithm, it is possible to recover the lost phase data upon photodetection. In this work, the DC-Value method is numerically and experimentally studied with the intent of exploring its limitations where it is found that the IQ modulation and the carrier contribution factor limit its capabilities. In a first stage, a deep analysis of the self-coherent DC-Value algorithm is performed. Here, an experimental validation was conducted to understand its limitations in terms of electro-optic modulation and carrier contribution factor. After, an investigation of the impact of the non-linear IQ modulator transfer function in the DC-Value through numerical and experimental work was carried out. By employing extra digital signal processing techniques, the experimental results show that high modulation depth signals can get a 2 dB EVM gain. Finally, an analysis of the impact of the carrier contribution factor estimation in the performance of the DC-Value method was conducted. It was shown by using a moving average filter that its estimation error reduced from 1.7% to 0.4%, which resulted in an EVM gain of 2.6 dB. |
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Optical transmission systems based in direct detection with modulation in phase and amplitudeKeywords optical communicationsSelf-coherent detectionDirect detectionDC-Value methodVirtual carrierDigital pre-distortionCarrier contribution factorIQ modulatorModulation depthThe need for optical communication systems has been increasing given the advancements in 5G and other parallel technologies. Therefore, it is required to develop low-cost high capacity solutions, particularly for short-reach systems, such as interdatacenters links. Current coherent transceivers can fulfill the capacity requirements, but their extended hardware components list make its solutions complex, power-hungry, and expensive, making it an unappealing solution for short-reach applications. Notice that a standard coherent receiver requires: two 90º optical hybrids, four pairs of balanced photodetectors, a local oscillator, and two polarization beam splitters for dual polarization schemes. State of the art self-coherent transceivers have a capacity competitive to coherent, in a short-reach scenario, while only requiring a single photodetector at the receiver. By employing single sideband methods who explore the DC-Value self-coherent algorithm, it is possible to recover the lost phase data upon photodetection. In this work, the DC-Value method is numerically and experimentally studied with the intent of exploring its limitations where it is found that the IQ modulation and the carrier contribution factor limit its capabilities. In a first stage, a deep analysis of the self-coherent DC-Value algorithm is performed. Here, an experimental validation was conducted to understand its limitations in terms of electro-optic modulation and carrier contribution factor. After, an investigation of the impact of the non-linear IQ modulator transfer function in the DC-Value through numerical and experimental work was carried out. By employing extra digital signal processing techniques, the experimental results show that high modulation depth signals can get a 2 dB EVM gain. Finally, an analysis of the impact of the carrier contribution factor estimation in the performance of the DC-Value method was conducted. It was shown by using a moving average filter that its estimation error reduced from 1.7% to 0.4%, which resulted in an EVM gain of 2.6 dB.A necessidade de sistemas de comunicação óticos tem vindo a aumentar dado aos avanços em 5G e noutras tecnologias paralelas. Por isso, devem-se desenvolver soluções de baixo custo e de alto débito, particularmente para sistemas de curto alcançe, como, por exemplo, ligações entre centros de dados. Os transcetores coerentes atuais conseguem cumprir os requisitos de capacidade, contudo, o seu elevado número de componentes de hardware faz com que estas soluções sejam complexas, tenham um alto consumo energético e um preço elevado, fazendo com que esta seja uma opção impraticável para aplicações de curto alcançe. De realçar que um recetor coerente típico requer: dois híbridos óticos de 90º, 4 pares de fotodetetores, um oscilador local e dois separadores de polarização para que sejam operados em esquemas de polarização dupla. Os atuais transcetores coerentes simplificados têm uma capacidade competitiva face aos sistemas coerentes num cenário de curto alcançe, requerendo apenas um único fotodetetor no recetor. Ao aplicar métodos de banda lateral única que explorem o algoritmo coerente simplificado de valor DC é possível recuperar os dados de fase perdidos durante a fotodeteção. Neste trabalho, o método de valor DC é numerica e experimentalmente estudado com o intuito de explorar as suas limitações, tendo sido observado que a modulação IQ e o fator de contribuição da portadora limitam as suas capacidades. Numa primeira fase, é efetuada uma análise aprofundada do algoritmo coerente simplificado de valor DC. Aqui, foi conduzida uma validação experimental para compreender as suas limitações relativamente à modulação eletro-ótica e do fator de contribuição da portadora. Posteriormente, é feita uma investigação sobre o impacto da função de transferência não linear do modulador IQ no método de valor DC através de análise numérica e experimental. Ao aplicar técnicas extra de processamento de sinal, os resultados experimentais mostram que sinais com um elevado índice de modulação obtêm um ganho de EVM de 2 dB. Finalmente, é efetuada uma análise do impacto da estimação do fator de contribuição da portadora. É demonstrado que ao usar um filtro de média móvel o erro de estimação reduz de 1.7% para 0.4%, resultando num ganho de EVM de 2.6 dB.2023-06-13T14:47:14Z2022-12-19T00:00:00Z2022-12-19info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttp://hdl.handle.net/10773/38009engDomingues, Guilherme de Almeidainfo:eu-repo/semantics/openAccessreponame:Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)instname:FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiainstacron:RCAAP2024-05-06T04:45:34Zoai:ria.ua.pt:10773/38009Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireinfo@rcaap.ptopendoar:https://opendoar.ac.uk/repository/71602025-05-28T14:19:17.490871Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) - FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiafalse |
| dc.title.none.fl_str_mv |
Optical transmission systems based in direct detection with modulation in phase and amplitude |
| title |
Optical transmission systems based in direct detection with modulation in phase and amplitude |
| spellingShingle |
Optical transmission systems based in direct detection with modulation in phase and amplitude Domingues, Guilherme de Almeida Keywords optical communications Self-coherent detection Direct detection DC-Value method Virtual carrier Digital pre-distortion Carrier contribution factor IQ modulator Modulation depth |
| title_short |
Optical transmission systems based in direct detection with modulation in phase and amplitude |
| title_full |
Optical transmission systems based in direct detection with modulation in phase and amplitude |
| title_fullStr |
Optical transmission systems based in direct detection with modulation in phase and amplitude |
| title_full_unstemmed |
Optical transmission systems based in direct detection with modulation in phase and amplitude |
| title_sort |
Optical transmission systems based in direct detection with modulation in phase and amplitude |
| author |
Domingues, Guilherme de Almeida |
| author_facet |
Domingues, Guilherme de Almeida |
| author_role |
author |
| dc.contributor.author.fl_str_mv |
Domingues, Guilherme de Almeida |
| dc.subject.por.fl_str_mv |
Keywords optical communications Self-coherent detection Direct detection DC-Value method Virtual carrier Digital pre-distortion Carrier contribution factor IQ modulator Modulation depth |
| topic |
Keywords optical communications Self-coherent detection Direct detection DC-Value method Virtual carrier Digital pre-distortion Carrier contribution factor IQ modulator Modulation depth |
| description |
The need for optical communication systems has been increasing given the advancements in 5G and other parallel technologies. Therefore, it is required to develop low-cost high capacity solutions, particularly for short-reach systems, such as interdatacenters links. Current coherent transceivers can fulfill the capacity requirements, but their extended hardware components list make its solutions complex, power-hungry, and expensive, making it an unappealing solution for short-reach applications. Notice that a standard coherent receiver requires: two 90º optical hybrids, four pairs of balanced photodetectors, a local oscillator, and two polarization beam splitters for dual polarization schemes. State of the art self-coherent transceivers have a capacity competitive to coherent, in a short-reach scenario, while only requiring a single photodetector at the receiver. By employing single sideband methods who explore the DC-Value self-coherent algorithm, it is possible to recover the lost phase data upon photodetection. In this work, the DC-Value method is numerically and experimentally studied with the intent of exploring its limitations where it is found that the IQ modulation and the carrier contribution factor limit its capabilities. In a first stage, a deep analysis of the self-coherent DC-Value algorithm is performed. Here, an experimental validation was conducted to understand its limitations in terms of electro-optic modulation and carrier contribution factor. After, an investigation of the impact of the non-linear IQ modulator transfer function in the DC-Value through numerical and experimental work was carried out. By employing extra digital signal processing techniques, the experimental results show that high modulation depth signals can get a 2 dB EVM gain. Finally, an analysis of the impact of the carrier contribution factor estimation in the performance of the DC-Value method was conducted. It was shown by using a moving average filter that its estimation error reduced from 1.7% to 0.4%, which resulted in an EVM gain of 2.6 dB. |
| publishDate |
2022 |
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2022-12-19T00:00:00Z 2022-12-19 2023-06-13T14:47:14Z |
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eng |
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