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The analysis of power systems under various conditions represents one of the most important and complex tasks in electrical power engineering. Studies in this area are necessary to ensure that the reliability, efficiency, and stability of the power system is not adversely affected. This issue is devoted to reviews and applications of modern methods of signal processing used to analyze the operation of a power system and evaluate the performance of the system in all aspects. Smart grids as an emerging research field of the current decade is the focus of this issue. Monitoring capability with data integration, advanced analysis of support system control, enhanced power security and effective communication to meet the power demand, efficient energy consumption and minimum costs, and intelligent interaction between power-generating and -consuming devices depends on the selection and implementation of advanced signal analysis and processing techniques.
convolutional neural networks --- multi-headed CNN --- CNN-LSTM --- forecasting --- solar output --- sliding window --- renewable energy --- data mining --- cluster analysis --- power quality --- global power quality index --- electrical power network --- distributed generation --- mining industry --- ward algorithm --- different working conditions --- power supply restoration --- power supply outages --- failures --- time intervals --- obtaining information --- information recognition --- connection harmonization --- virtual power plant --- distributed energy resources --- energy storage systems --- grid codes --- power systems --- smart grids --- prosumer --- business model --- economic efficiency --- sensitivity analysis
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Continuous cost reduction of photovoltaic (PV) systems and the rise of power auctions resulted in the establishment of PV power not only as a green energy source but also as a cost-effective solution to the electricity generation market. Various commercial solutions for grid-connected PV systems are available at any power level, ranging from multi-megawatt utility-scale solar farms to sub-kilowatt residential PV installations. Compared to utility-scale systems, the feasibility of small-scale residential PV installations is still limited by existing technologies that have not yet properly address issues like operation in weak grids, opaque and partial shading, etc. New market drivers such as warranty improvement to match the PV module lifespan, operation voltage range extension for application flexibility, and embedded energy storage for load shifting have again put small-scale PV systems in the spotlight. This Special Issue collects the latest developments in the field of power electronic converter topologies, control, design, and optimization for better energy yield, power conversion efficiency, reliability, and longer lifetime of the small-scale PV systems. This Special Issue will serve as a reference and update for academics, researchers, and practicing engineers to inspire new research and developments that pave the way for next-generation PV systems for residential and small commercial applications.
three-phase rectifier --- PFC --- switch-mode rectifier --- ZVS --- ZCS --- single stage micro-inverter --- burst control --- variable frequency control --- maximum power-point tracking --- grid-connected photovoltaic systems --- cascade multilevel converters --- multistring converters --- T-type converters --- power clipping --- ESS sizing --- grid-tied PV plant --- cascaded H-bridge --- photovoltaic inverter --- module level --- switching modulation strategy --- energy yield --- photovoltaic (PV) --- virtual synchronous generator (VSG) --- frequency response (FR) --- power reserve control (PRC) --- active power up-regulation --- dual inverter --- open-end winding transformer --- photovoltaic application --- filter --- DC–AC converters --- efficiency --- neutral-point-clamped inverter --- PV applications --- PV inverters --- PV systems --- quasi-z-source --- two-level inverter --- three-level inverter --- converter topologies --- partial shading --- photovoltaic (PV) arrays --- multiple maximas --- mismatch --- differential power processing (DPP) --- series-parallel (SP) --- total-cross-tied (TCT) --- bridge-linked (BL) --- center-cross-tied (CCT) --- quasi-Z-source inverter --- double-frequency ripple --- ripple vector cancellation --- shoot-through duty cycle --- modulation --- DC microgrid --- DC electric spring --- distributed cooperative control --- adaptive droop control --- consensus algorithm --- Electric spring --- hierarchical control --- coordinated control --- power decoupling control --- droop control --- microgrid --- microinverter --- variable dc-link voltage --- photovoltaic --- solar energy --- renewable energy --- residential systems --- PV generators --- active power --- reactive power --- Renewable energy --- grid codes --- capability curves --- transformerless inverter --- full bridge inverter --- leakage current --- NPC topology --- full-bridge inverter --- PV microinverters --- single-stage --- buck-boost --- tapped inductor --- modular multilevel converter --- photovoltaic power system --- grid integration --- control system --- distributed renewable energy source --- energy storage --- 1500 V photovoltaic (PV) --- reliability --- cost-oriented design --- DC–DC converter --- series resonance converter --- wide range converter --- bidirectional switch --- conversion efficiency
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