Harmonic instability in phase controlled rectifiers

Industry Applications Society 46th Annual Petroleum and Chemical Technical Conference (Cat.No. 99CH37000) Pub Date : 1999-09-13 DOI:10.1109/PCICON.1999.806434

J. Galloway

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引用次数: 11

Abstract

The phenomenon of harmonic instability in phase-controlled power converters has been known for a long time. The subject was discussed by Ainsworth in the context of high voltage DC converters back in the 1950s. Harmonic instability is the abnormal operation of a power converter system due to the harmonic voltage distortion of the power source caused by the harmonic currents of the converter system itself. This effect is often found in power converters such as rectifiers but is often not recognized for what it is. The consequences can range from mild overheating and increased acoustic noise, severe instability and system shutdown, to transformer failure. Phase-controlled rectifiers are the most common type in industrial use today. They include thyristor process rectifiers, large motor drives and saturable core reactor controlled rectifiers. This paper discusses the elements of the feedback loop that causes harmonic instability, and lists symptoms by which it can be recognized. A more detailed look is taken at the zero crossing type of triggering control, as this is the most common type in use today, in both analog and digital implementations. Steps to avoid or to fix the system problems are discussed.

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相位控制整流器的谐波不稳定性

相控电源变换器中的谐波不稳定现象早已为人所知。早在20世纪50年代，安斯沃思就在高压直流变换器的背景下讨论了这个问题。谐波不稳定是指电力变换器系统本身的谐波电流引起电源的谐波电压畸变而导致电力变换器系统的不正常运行。这种效应经常在整流器等电源转换器中发现，但通常不被认识到它是什么。后果可能包括轻微过热和噪音增加，严重不稳定和系统关闭，以及变压器故障。相控整流器是当今工业应用中最常见的类型。它们包括晶闸管过程整流器，大型电机驱动器和饱和堆芯电抗器控制整流器。本文讨论了引起谐波不稳定的反馈回路的要素，并列出了可以识别谐波不稳定的症状。更详细地介绍了过零触发控制类型，因为这是当今使用的最常见类型，无论是模拟还是数字实现。讨论了避免或修复系统问题的步骤。

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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Industry Applications Society 46th Annual Petroleum and Chemical Technical Conference (Cat.No. 99CH37000)

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