FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3087528145> ?p ?o ?g. }

• W3087528145 endingPage "52" @default.
• W3087528145 startingPage "42" @default.
• W3087528145 abstract "Over the two past decades, a new type of semiconductor power converter has appeared – modular multilevel converter. This topology consists of several transistor-capacitive modules, allowing to realize multilevel rectifiers and invertors with various number of levels and phases. Currently, the modular multilevel converters are widely used in high-voltage direct-current power supply systems (HVDC), produced by Siemens and ABB companies, with a rated power 400-2000 MVA. Modular multi-level converters in comparison with other types of semiconductor converters have a number of significant advantages. The presence of a large number of levels (100 and higher) makes it possible to use relatively low-voltage switches and realize a low switching frequency, which leads to a high efficiency of the converter. The declared efficiency of the power transmission system of the HVDC power supply system with modular multi-level converters manufactured by Siemens is 99.5%.In addition, modular multi-level converters have increased reliability. This is due to the fact that modular converters can function even if they are output from individual transistor-capacitive modules. Constructive modularity and scalability of the converter is convenient in production. However, there is the problem of stabilizing the voltage on the capacitors of the cells. In the course of the research it was found that when using classical control algorithms for multi-level inverters (space-vector and sinusoidal pulse-width modulation) there is an imbalance of voltages on capacitors. Tension in one voice pair doubles. This leads to a significant deterioration in the shape of the output voltage. The article uses improved space-vector modulation algorithms for a modular multi-level converter, which provide the ability to stabilize the voltage in the converter cells, as well as the ability to control the amplitude and frequency of the output voltage. The Matlab / Simulink program has created a model of a modular five-level modular inverter. In the Matlab / Simulink program, a modular five-level inverter model was created. Studies have shown that the classical spatial vector modulation algorithms in modular multi-level inverters lead to an imbalance of tension on the capacitors and in modular multi-level inverters, and as a result, a voltage arises, which leads to a significant increase in the shape of the output voltage. The article uses an improved space-vector modulation algorithm for a modular multi-level converter, which allows stabilizing the voltage in cells. The simulation results confirm the proposed theoretical aspects." @default.
• W3087528145 created "2020-09-25" @default.
• W3087528145 creator A5041466773 @default.
• W3087528145 creator A5052239322 @default.
• W3087528145 creator A5079420493 @default.
• W3087528145 date "2019-11-24" @default.
• W3087528145 modified "2023-10-15" @default.
• W3087528145 title "Stabilization of voltages on capacitors of cells in modular multilevel inverters with space-vector PWM" @default.
• W3087528145 doi "https://doi.org/10.20998/2409-9295.2019.20.06" @default.
• W3087528145 hasPublicationYear "2019" @default.
• W3087528145 type Work @default.
• W3087528145 sameAs 3087528145 @default.
• W3087528145 citedByCount "1" @default.
• W3087528145 countsByYear W30875281452020 @default.
• W3087528145 crossrefType "journal-article" @default.
• W3087528145 hasAuthorship W3087528145A5041466773 @default.
• W3087528145 hasAuthorship W3087528145A5052239322 @default.
• W3087528145 hasAuthorship W3087528145A5079420493 @default.
• W3087528145 hasBestOaLocation W30875281451 @default.
• W3087528145 hasConcept C101468663 @default.
• W3087528145 hasConcept C111919701 @default.
• W3087528145 hasConcept C119599485 @default.
• W3087528145 hasConcept C127413603 @default.
• W3087528145 hasConcept C165801399 @default.
• W3087528145 hasConcept C184720557 @default.
• W3087528145 hasConcept C24326235 @default.
• W3087528145 hasConcept C2778422915 @default.
• W3087528145 hasConcept C41008148 @default.
• W3087528145 hasConcept C52192207 @default.
• W3087528145 hasConcept C92746544 @default.
• W3087528145 hasConceptScore W3087528145C101468663 @default.
• W3087528145 hasConceptScore W3087528145C111919701 @default.
• W3087528145 hasConceptScore W3087528145C119599485 @default.
• W3087528145 hasConceptScore W3087528145C127413603 @default.
• W3087528145 hasConceptScore W3087528145C165801399 @default.
• W3087528145 hasConceptScore W3087528145C184720557 @default.
• W3087528145 hasConceptScore W3087528145C24326235 @default.
• W3087528145 hasConceptScore W3087528145C2778422915 @default.
• W3087528145 hasConceptScore W3087528145C41008148 @default.
• W3087528145 hasConceptScore W3087528145C52192207 @default.
• W3087528145 hasConceptScore W3087528145C92746544 @default.
• W3087528145 hasIssue "20 (1345)" @default.
• W3087528145 hasLocation W30875281451 @default.
• W3087528145 hasOpenAccess W3087528145 @default.
• W3087528145 hasPrimaryLocation W30875281451 @default.
• W3087528145 hasRelatedWork W1553773743 @default.
• W3087528145 hasRelatedWork W1976309810 @default.
• W3087528145 hasRelatedWork W2100370879 @default.
• W3087528145 hasRelatedWork W2107618232 @default.
• W3087528145 hasRelatedWork W2166851301 @default.
• W3087528145 hasRelatedWork W2620800041 @default.
• W3087528145 hasRelatedWork W2899084033 @default.
• W3087528145 hasRelatedWork W2946534206 @default.
• W3087528145 hasRelatedWork W2998017928 @default.
• W3087528145 hasRelatedWork W3025732427 @default.
• W3087528145 hasVolume "0" @default.
• W3087528145 isParatext "false" @default.
• W3087528145 isRetracted "false" @default.
• W3087528145 magId "3087528145" @default.
• W3087528145 workType "article" @default.