Analysis of Harmonic Levels from PWM Rectifiers due to Background Voltage Distortion

R. O. Abdelqader, D. Robinson, P. Ciufo
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引用次数: 0

Abstract

PWM rectifiers receive significant attention due to their flexible control and perceived low harmonic currents, and as a consequence are replacing controlled and uncontrolled rectifiers as the preferred technology in industrial applications. However, low harmonic currents from PWM rectifiers are generally limited to applications where supply voltages have very low background distortion. An investigation using derived mathematical equations, simulation and laboratory measurement is presented to assess the influence of higher levels of background voltage distortion on the harmonic current distortion of PWM rectifiers. The mathematical expression for the harmonic current is derived using the Double Fourier Integral method. A simulation model is developed to quantity the effect of increased supply voltage distortion on harmonic currents from PWM rectifiers. Simulation results and laboratory measurements are presented for the simple case of a PWM rectifier to validate the methodology, which will ultimately be used for future work to quantity the influence of supply voltage distortion. As expected the increase in harmonic current of a PWM rectifier is heavily impacted by the severity of the voltage distortion appearing at the PWM rectifier terminals.
背景电压畸变引起的PWM整流器谐波电平分析
PWM整流器由于其灵活的控制和感知低谐波电流而受到极大的关注,因此正在取代受控和非受控整流器作为工业应用中的首选技术。然而,来自PWM整流器的低谐波电流通常仅限于电源电压具有非常低的背景失真的应用。通过推导数学方程、仿真和实验室测量,研究了高水平的背景电压畸变对PWM整流器谐波电流畸变的影响。用二重傅立叶积分法推导了谐波电流的数学表达式。建立了仿真模型,定量分析了电源电压畸变增大对PWM整流器谐波电流的影响。仿真结果和实验室测量给出了一个PWM整流器的简单案例来验证该方法,最终将用于未来的工作,以量化电源电压畸变的影响。正如预期的那样,PWM整流器谐波电流的增加受到PWM整流器端电压畸变严重程度的严重影响。
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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