输入电路中具有独特转换环节结构的单级半导体磁脉冲发生器的电流电压特性

IF 1.6 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
O. I. Khrysto
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引用次数: 0

摘要

介绍。半导体磁脉冲发生器(smpg)的主要特点是能量在初级电容器中缓慢积累,并通过使用一系列顺序连接的磁压缩级将其快速引入负载。最初,这些设备主要用于泵送气体激光器,但在过去十年中,smpg越来越多地用于水净化和空气电离的放电技术,以去除有毒杂质。同时,随着这些装置的使用实践,它们的设计原理和数学建模方法也得到了发展。问题。现有SMPG稳态振荡模式理论的主要缺点是采用饱和电抗器(SR)模型来近似其磁芯的静态磁化曲线,以及从发电机到负载的能量传递是单向的。在大多数出版物中,电源和SR之间的交换过程仍然没有涉及。的目标。充电电路中串联和并联转换级低压单级SMPG器件的电学和能量特性研究。方法。为了达到既定的目标,本工作采用了综合的方法,包括建立实验的技术工具、处理测量结果的数值方法以及描述单级SMPG电路中电磁过程的分析方法。结果。在此基础上,对所提模型的整体磁特性和能量特性进行了数值计算。分析了具有并联转换阶段的SMPG电路纵向电容充电过程的特点,该过程同时发生在两个相邻电路中。导出了磁通密度随时间变化的解析表达式。根据得到的磁芯磁滞曲线,解释了电源与磁滞器之间能量传递的交换过程。实用价值。研究结果可用于改进能量动态参数的低压SMPG电路的开发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Current-voltage characteristics of single-stage semiconductor magnetic pulse generators with a distinctive structure of the conversion link in the input circuit
Introduction. The main feature of the semiconductor magnetic pulse generators (SMPGs) is a slow accumulation of energy in the primary capacitor and its rapid introduction into the load by using a series of sequentially connected magnetic compression stages. Initially, these devices were mainly used for pumping gas lasers, but over the last decade SMPGs have been increasingly used in electric discharge technologies for water purification and air ionization to remove toxic impurities. At the same time, along with the practice of using these devices, development has also been achieved in the principles of their design and methods of mathematical modeling. Problem. The main drawback of the existing theory of SMPG’s stationary oscillations mode is an adoption of the saturable reactor (SR) model in approximation of the static magnetization curve of its core, as well as unidirectional nature of the energy transfer from the generator to the load. In most publication the exchange processes between the power source and SR are still not covered. Goal. Study of electrical and energy characteristics of low-voltage single-stage SMPG devices with series and parallel conversion stages in the charging circuit. Methodology. To achieve the set goal, this work uses comprehensive approach relayed on technical tools of setting up the experiment, numerical methods for processing measurement results, as well as an analytical method for describing electromagnetic processes in single-stage SMPG circuits. Results. The closed current-voltage characteristics of the SR are obtained, according to which the numerical calculations of the integral magnetic and energy characteristics of the proposed models are carried out. The features of the longitudinal capacitance charging process in a SMPG’s circuit with a parallel conversion stage, which occurs simultaneously in two adjacent circuits, are explained. Analytical expressions to describe the dynamics of magnetic flux density in the SR’s core as a time-depended function are derived. Based on the obtained hysteresis curve of the core, the exchange processes of energy transfer between the power source and the SR are explained. Practical value. The results of the research can be applied in the development of low-voltage SMPG circuits with improved energy-dynamic parameters.
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来源期刊
Electrical Engineering & Electromechanics
Electrical Engineering & Electromechanics ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
2.40
自引率
50.00%
发文量
53
审稿时长
10 weeks
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