СПОСОБИ ПІДВИЩЕННЯ ЕНЕРГОЕФEКТИВНОСТІ СПЕЦІАЛІЗОВАНИХ ПЕРЕТВОРЮВАЧІВ ЕЛЕКТРОЕНЕРГІЇ ДЛЯ СУЧАСНИХ ІМПУЛЬСНИХ ТЕХНОЛОГІЙ

СПОСОБИ ПІДВИЩЕННЯ ЕНЕРГОЕФEКТИВНОСТІ СПЕЦІАЛІЗОВАНИХ ПЕРЕТВОРЮВАЧІВ ЕЛЕКТРОЕНЕРГІЇ ДЛЯ СУЧАСНИХ ІМПУЛЬСНИХ ТЕХНОЛОГІЙ

The article examines the proposed power electronics devices with an assessment of their basic quality indicators and functional purpose. The following of these devices have been identified, the use of which increases the energy efficiency of electrical networks the most. It is shown that these devic...

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Bibliographic Details
Date:2023
Main Authors: Голубєв, В.В., Зозульов, В.І., Маруня, Ю.В., Сторожук, А.І.
Format: Article
Language:Ukrainian
Published: Інститут електродинаміки Національної академії наук України 2023
Subjects:
енергоефективність електричних мереж
комбіновані та керовані випрямлячі Латура-Греца
магнітно-напівпровідникові регулятори та генератори імпульсів
імпульсні перетворювачі DC/DC
DC/AC
Online Access:https://prc.ied.org.ua/index.php/proceedings/article/view/298
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Journal Title:Proceedings of the Institute of Electrodynamics of the National Academy of Sciences of Ukraine

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Proceedings of the Institute of Electrodynamics of the National Academy of Sciences of Ukraine
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Summary:The article examines the proposed power electronics devices with an assessment of their basic quality indicators and functional purpose. The following of these devices have been identified, the use of which increases the energy efficiency of electrical networks the most. It is shown that these devices, due to their improved functional and parametric data, are also widely used in electrical consumer devices. Here are some of the mentioned devices. Combined and Controlled Latour-Gretz Rectifiers, Magnetic Semiconductor Pulse Regulators, DC/DC Pulse Converters, DC/AC Converters, DC/AC Converters, Full Thyristor Transistor Switch - VTS, Controlled Magneto-Semiconductor Generator pulses, an improved structural diagram of a magnetic semiconductor pulse generator. It was concluded that the following quality indicators of the above devices are the most acceptable for increasing the energy efficiency of electrical networks on the part of devices that are powered by them: high efficiency; improved electromagnetic compatibility; protection against short circuits and switching overvoltages; controllability according to load requirements; buffer resistance against interruption of the input current. Ref. 7, fig. 7.

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