ESTIMATING THE LIMIT POSSIBILITIES OF THE STEP CHARGING SYSTEM FOR CAPACITIVE ENERGY STORAGE

The aim of the article is to estimate the limit possibilities of step-by-step charging the capacitive energy storage which are caused by the achievement of a balance among the processes of the receiving and losing of electromagnetic energy. Originality. For the first time a step the charging system...

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Main Authors: Yu.V. Batygin, E.A. Chaplygin, O.S. Sabokar
Format: Article
Language:English
Published: National Technical University "Kharkiv Polytechnic Institute" 2016-05-01
Series:Electrical engineering & Electromechanics
Subjects:
Online Access:http://eie.khpi.edu.ua/article/view/2074-272X.2016.2.06/64346
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author Yu.V. Batygin
E.A. Chaplygin
O.S. Sabokar
author_facet Yu.V. Batygin
E.A. Chaplygin
O.S. Sabokar
author_sort Yu.V. Batygin
collection DOAJ
description The aim of the article is to estimate the limit possibilities of step-by-step charging the capacitive energy storage which are caused by the achievement of a balance among the processes of the receiving and losing of electromagnetic energy. Originality. For the first time a step the charging system as a high power converter for pulsed load was considered, that allow to simplify similar charging systems and make its chipper while saving output characteristics and common quality. Methodology of the analysis applied is based on the classic electric circuits theory. All of the resulted carried out, were obtained as the differential equation solutions and its behavior was analyses analytically. Results. The basic diagram of the step-by-step charging system what is an alternative to the traditional variant with the step-up transformer was described. This system realizes the serial charge voltage increasing by the separate portions of energy, which has been, accumulated preliminary in the inductive energy storage. The formulas for estimating the limit possibilities of the step-by-step charging were got. These limits are caused by achieving a balance of the entering and losing electromagnetic energy. The applicability of the formulas was illustrated by numerical examples. Practical value. According to the results that were obtained, it is possible to note, that the step charging system is acceptable to be used as a high power converter for capacitive storage charging.
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spelling doaj.art-9009e3c2983b4dbd89854e6fb5abb6582022-12-21T23:00:21ZengNational Technical University "Kharkiv Polytechnic Institute"Electrical engineering & Electromechanics2074-272X2309-34042016-05-012353710.20998/2074-272X.2016.2.06ESTIMATING THE LIMIT POSSIBILITIES OF THE STEP CHARGING SYSTEM FOR CAPACITIVE ENERGY STORAGEYu.V. Batygin0E.A. Chaplygin1O.S. Sabokar2Kharkov National Automobile and Highway UniversityKharkov National Automobile and Highway UniversityKharkov National Automobile and Highway UniversityThe aim of the article is to estimate the limit possibilities of step-by-step charging the capacitive energy storage which are caused by the achievement of a balance among the processes of the receiving and losing of electromagnetic energy. Originality. For the first time a step the charging system as a high power converter for pulsed load was considered, that allow to simplify similar charging systems and make its chipper while saving output characteristics and common quality. Methodology of the analysis applied is based on the classic electric circuits theory. All of the resulted carried out, were obtained as the differential equation solutions and its behavior was analyses analytically. Results. The basic diagram of the step-by-step charging system what is an alternative to the traditional variant with the step-up transformer was described. This system realizes the serial charge voltage increasing by the separate portions of energy, which has been, accumulated preliminary in the inductive energy storage. The formulas for estimating the limit possibilities of the step-by-step charging were got. These limits are caused by achieving a balance of the entering and losing electromagnetic energy. The applicability of the formulas was illustrated by numerical examples. Practical value. According to the results that were obtained, it is possible to note, that the step charging system is acceptable to be used as a high power converter for capacitive storage charging.http://eie.khpi.edu.ua/article/view/2074-272X.2016.2.06/64346capacitive energy storagestep-charged systemanalytical analysiselectrical circuitsinductive energy storage
spellingShingle Yu.V. Batygin
E.A. Chaplygin
O.S. Sabokar
ESTIMATING THE LIMIT POSSIBILITIES OF THE STEP CHARGING SYSTEM FOR CAPACITIVE ENERGY STORAGE
Electrical engineering & Electromechanics
capacitive energy storage
step-charged system
analytical analysis
electrical circuits
inductive energy storage
title ESTIMATING THE LIMIT POSSIBILITIES OF THE STEP CHARGING SYSTEM FOR CAPACITIVE ENERGY STORAGE
title_full ESTIMATING THE LIMIT POSSIBILITIES OF THE STEP CHARGING SYSTEM FOR CAPACITIVE ENERGY STORAGE
title_fullStr ESTIMATING THE LIMIT POSSIBILITIES OF THE STEP CHARGING SYSTEM FOR CAPACITIVE ENERGY STORAGE
title_full_unstemmed ESTIMATING THE LIMIT POSSIBILITIES OF THE STEP CHARGING SYSTEM FOR CAPACITIVE ENERGY STORAGE
title_short ESTIMATING THE LIMIT POSSIBILITIES OF THE STEP CHARGING SYSTEM FOR CAPACITIVE ENERGY STORAGE
title_sort estimating the limit possibilities of the step charging system for capacitive energy storage
topic capacitive energy storage
step-charged system
analytical analysis
electrical circuits
inductive energy storage
url http://eie.khpi.edu.ua/article/view/2074-272X.2016.2.06/64346
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