A stand-alone photovoltaic microgrid simulation environment using FPGA hardware acceleration

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Resumen

Microgrids represent a growing paradigm shift from centralised energy generation to a distributed model. However, given the relative novelty compared to traditional grids, there are still many unknown factors regarding the optimal design of this kind of system. Given this, the study of microgrids can benefit from developing tools designed specifically for such purposes. This paper presents the results of the hardware acceleration of a previously developed stand-alone microgrid simulation environment through an FPGA. The accuracy of the system was validated through a comparison with benchmark software. Execution time performance is measured against the non-hardware accelerated simulation program for microgrid configurations with varying sizes. Real-time simulations are achieved with a reduction of accuracy during transients. Finally, hardware resource usage and further improvements are discussed.

Idioma originalInglés
Título de la publicación alojadaIET Conference Proceedings
EditorialInstitution of Engineering and Technology
Páginas386-394
Número de páginas9
Volumen2022
Edición25
ISBN (versión digital)9781839538445
EstadoPublicada - 2022
Evento13th Mediterranean Conference on Power Generation, Transmission, Distribution and Energy Conversion, MEDPOWER 2022 - Valletta, Virtual, Malta
Duración: 7 nov 20229 nov 2022

Conferencia

Conferencia13th Mediterranean Conference on Power Generation, Transmission, Distribution and Energy Conversion, MEDPOWER 2022
País/TerritorioMalta
CiudadValletta, Virtual
Período7/11/229/11/22

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