Suppression of Ripples of Controllable Rectifiers for Power Supply of Magnetic Systems

Q3 Energy

Energetika. Proceedings of CIS Higher Education Institutions and Power Engineering Associations Pub Date : 2022-08-02 DOI:10.21122/1029-7448-2022-65-4-317-330

M. S. Lur’e, O. M. Lur’e, A. S. Frolov

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Abstract

A number of requirements are imposed on installations associated with regulated DC sources, including low voltage and current ripple in the load, as well as a wide range of output current variation. Such installations are traditionally made on controlled rectifiers or pulse-width converters in which voltage ripples are always present. The paper considers a method for reducing the voltage ripple of powerful rectifiers for powering magnetic systems based on the insertion of a compensating voltage equal in magnitude and opposite in phase to the ripple voltage into the load circuit. The possibility of using ripple compensators connected in parallel and in series with the load, as well as methods of obtaining a compensating voltage is shown. Methods for obtaining compensating voltage are given. In order to exclude the magnetization of the ripple compensator transformer, it is proposed to use several versions of the compensating transformer and the inclusion of ripple compensators. Practical schemes of passive compensators (with a demagnetizing circuit and a bifilar winding) are analyzed. The problem of developing ripple compensators for multiphase rectifiers, as well as ways to solve it, is considered. Practical recommendations for choosing a core material and calculating a transformer are given. On the basis of the presented theoretical and practical considerations for the design of the ripple compensators, simulation models have been developed in the Simulink pack-age of the MATLAB program. A technique for studying ripple compensators using the simulation models of a symmetrical 12-pulse rectifier that has been developed is presented. The results of simulation of passive ripple compensators, performed in two versions, showed their effectiveness, while the scheme was relatively simple and economic costs were relatively low. Also, the time of setting the set current in the system in the presence of a ripple compensator increases by no more than 3 %, and the accuracy and stability of operation do not change.

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磁系统电源中可控整流器波纹的抑制

与稳压直流电源相关的安装有许多要求，包括负载中的低电压和电流纹波，以及大范围的输出电流变化。这种装置传统上是在可控整流器或脉冲宽度转换器上进行的，其中电压波动总是存在。本文提出了一种减小磁系统大功率整流器电压纹波的方法，即在负载电路中插入与纹波电压大小相等、相位相反的补偿电压。给出了纹波补偿器与负载并联或串联的可能性，以及获得补偿电压的方法。给出了补偿电压的获取方法。为了排除纹波补偿变压器的磁化，提出了使用几种版本的补偿变压器并包含纹波补偿器。分析了无源补偿器(退磁电路和双线绕组)的实用方案。研究了多相整流器纹波补偿器的开发问题及解决方法。对铁芯材料的选择和变压器的计算提出了实用的建议。根据所提出的纹波补偿器设计的理论和实际考虑，在MATLAB程序的Simulink包中建立了仿真模型。提出了一种利用对称12脉冲整流器仿真模型研究纹波补偿器的方法。对两种版本的无源纹波补偿器进行了仿真，结果表明了它们的有效性，且方案相对简单，经济成本相对较低。在有纹波补偿器存在的情况下，系统设定电流的时间增加不超过3%，运行的精度和稳定性没有变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Energetika. Proceedings of CIS Higher Education Institutions and Power Engineering Associations Energy-Nuclear Energy and Engineering

CiteScore

1.60

自引率

0.00%

发文量

审稿时长

8 weeks

期刊介绍： The most important objectives of the journal are the generalization of scientific and practical achievements in the field of power engineering, increase scientific and practical skills as researchers and industry representatives. Scientific concept publications include the publication of a modern national and international research and achievements in areas such as general energetic, electricity, thermal energy, construction, environmental issues energy, energy economy, etc. The journal publishes the results of basic research and the advanced achievements of practices aimed at improving the efficiency of the functioning of the energy sector, reduction of losses in electricity and heat networks, improving the reliability of electrical protection systems, the stability of the energetic complex, literature reviews on a wide range of energy issues.