The effect of spread –spectrum modulated EMI on the power line communication systems
Over the last few years, the smart grid and renewable energy environment have attracted heightened interest and relevance from governments and investors for the purpose of decreasing their dependency on fossil fuels as a source of energy. Another objective it serves is to increase the reliability...
| Main Author: | |
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| Format: | Thesis (University of Nottingham only) |
| Language: | English |
| Published: |
2024
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| Subjects: | |
| Online Access: | https://eprints.nottingham.ac.uk/78446/ |
| _version_ | 1848801082645413888 |
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| author | Elsayed, Waseem Wafik Saad |
| author_facet | Elsayed, Waseem Wafik Saad |
| author_sort | Elsayed, Waseem Wafik Saad |
| building | Nottingham Research Data Repository |
| collection | Online Access |
| description | Over the last few years, the smart grid and renewable energy environment have attracted
heightened interest and relevance from governments and investors for the purpose of decreasing
their dependency on fossil fuels as a source of energy. Another objective it serves is to
increase the reliability of the system by utilising smart technology and communication capabilities.
Consequently, the dependency on the power converters and the communication systems
continues to rise in order to link the grid elements with each other, thereby creating a complex
environment. As such, one of the challenges resulting from this ‘complex’ environment is the
Electromagnetic Compatibility (EMC) between the smart grid devices. The EMC is the ability
of several devices to work simultaneously in the same environment without interfering with
each other, however, this is not the case with the smart grid.
In most cases, the power converter’s modulation is the main source of emissions in the
smart grid. Thus, the focus of this thesis remains only on the conducted emissions in the lowfrequency
range. The EMC standards deal with managing the amplitude of the emissions generated
from the devices at any given frequency range. A great many studies have been interested
in the use of Spread-Spectrum modulation (SSM) as an Electromagnetic Interference (EMI) amplitude
mitigation tool. Notably, the communication systems operating in the smart grid are
the main victim, as most of the power converters switching modulation frequencies lay in the
same frequency range as the communication systems.
Set in this context, this thesis aims to provide a full vision of the influence of the spreadspectrum
modulated EMI on the PLC communication system. The SSM works to distribute
the signal power by randomising the modulation parameters. The PLC system works by the
OFDM modulation, which works also by distributing the communication signal to several subcarriers.
Hence, the objective is to answer the following questions:
1 What will be the effect of the SSM parameters on the PLC performance?
2 What is the link between the SSM parameters and the PLC communication parameters?
3 What are the best SSM settings that could provide both the EMI mitigation and the communication
robustness?
4 Is it possible to improve the reliability of the PLC data transmission by control algorithms
and modulation parameters of power electronics converters operating in nearby electromagnetic
environments?
To meet the research needs, a proposed testbed is implemented to couple both the power
and the communication circuit. The performance of the communication system is analysed
under several various operating scenarios using two approaches to assure the robustness of the
results— (1) measuring the Frame Error Rate (FER) throughout the communication channel,
and; (2) calculating the channel capacity of the used channel by the Shannon Hartley equation.
Finally, a statistical analysis has been carried out to link the SSM settings with the behaviour of
the PLC systems and distinguish the best criteria for designing the SSM control of the converter.
In conclusion, the purpose of the thesis is to assure the robustness of the power line communication
data transmission capability by controlling the modulation parameters of power
electronic converters working in nearby electromagnetic environment. |
| first_indexed | 2025-11-14T21:01:48Z |
| format | Thesis (University of Nottingham only) |
| id | nottingham-78446 |
| institution | University of Nottingham Malaysia Campus |
| institution_category | Local University |
| language | English |
| last_indexed | 2025-11-14T21:01:48Z |
| publishDate | 2024 |
| recordtype | eprints |
| repository_type | Digital Repository |
| spelling | nottingham-784462024-12-30T04:40:03Z https://eprints.nottingham.ac.uk/78446/ The effect of spread –spectrum modulated EMI on the power line communication systems Elsayed, Waseem Wafik Saad Over the last few years, the smart grid and renewable energy environment have attracted heightened interest and relevance from governments and investors for the purpose of decreasing their dependency on fossil fuels as a source of energy. Another objective it serves is to increase the reliability of the system by utilising smart technology and communication capabilities. Consequently, the dependency on the power converters and the communication systems continues to rise in order to link the grid elements with each other, thereby creating a complex environment. As such, one of the challenges resulting from this ‘complex’ environment is the Electromagnetic Compatibility (EMC) between the smart grid devices. The EMC is the ability of several devices to work simultaneously in the same environment without interfering with each other, however, this is not the case with the smart grid. In most cases, the power converter’s modulation is the main source of emissions in the smart grid. Thus, the focus of this thesis remains only on the conducted emissions in the lowfrequency range. The EMC standards deal with managing the amplitude of the emissions generated from the devices at any given frequency range. A great many studies have been interested in the use of Spread-Spectrum modulation (SSM) as an Electromagnetic Interference (EMI) amplitude mitigation tool. Notably, the communication systems operating in the smart grid are the main victim, as most of the power converters switching modulation frequencies lay in the same frequency range as the communication systems. Set in this context, this thesis aims to provide a full vision of the influence of the spreadspectrum modulated EMI on the PLC communication system. The SSM works to distribute the signal power by randomising the modulation parameters. The PLC system works by the OFDM modulation, which works also by distributing the communication signal to several subcarriers. Hence, the objective is to answer the following questions: 1 What will be the effect of the SSM parameters on the PLC performance? 2 What is the link between the SSM parameters and the PLC communication parameters? 3 What are the best SSM settings that could provide both the EMI mitigation and the communication robustness? 4 Is it possible to improve the reliability of the PLC data transmission by control algorithms and modulation parameters of power electronics converters operating in nearby electromagnetic environments? To meet the research needs, a proposed testbed is implemented to couple both the power and the communication circuit. The performance of the communication system is analysed under several various operating scenarios using two approaches to assure the robustness of the results— (1) measuring the Frame Error Rate (FER) throughout the communication channel, and; (2) calculating the channel capacity of the used channel by the Shannon Hartley equation. Finally, a statistical analysis has been carried out to link the SSM settings with the behaviour of the PLC systems and distinguish the best criteria for designing the SSM control of the converter. In conclusion, the purpose of the thesis is to assure the robustness of the power line communication data transmission capability by controlling the modulation parameters of power electronic converters working in nearby electromagnetic environment. 2024-12-30 Thesis (University of Nottingham only) NonPeerReviewed application/pdf en cc_by https://eprints.nottingham.ac.uk/78446/1/UZ_Final.pdf Elsayed, Waseem Wafik Saad (2024) The effect of spread –spectrum modulated EMI on the power line communication systems. PhD thesis, University of Zielona Gora. Electromagnetic interference; Spread-spectrum modulation; Power line communication data transmission |
| spellingShingle | Electromagnetic interference; Spread-spectrum modulation; Power line communication data transmission Elsayed, Waseem Wafik Saad The effect of spread –spectrum modulated EMI on the power line communication systems |
| title | The effect of spread –spectrum modulated EMI on the power line communication systems |
| title_full | The effect of spread –spectrum modulated EMI on the power line communication systems |
| title_fullStr | The effect of spread –spectrum modulated EMI on the power line communication systems |
| title_full_unstemmed | The effect of spread –spectrum modulated EMI on the power line communication systems |
| title_short | The effect of spread –spectrum modulated EMI on the power line communication systems |
| title_sort | effect of spread –spectrum modulated emi on the power line communication systems |
| topic | Electromagnetic interference; Spread-spectrum modulation; Power line communication data transmission |
| url | https://eprints.nottingham.ac.uk/78446/ |