Simulation of Line-Commutated Rectifier Systems Using Fixed Time-Step without Zero-Crossing Events

2018 IEEE International Conference on Smart Energy Grid Engineering (SEGE) Pub Date : 2018-08-01 DOI:10.1109/SEGE.2018.8499446

S. Ebrahimi, Navid Amiri, J. Jatskevich, Liwei Wang

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引用次数: 2

Abstract

Line-commutated rectifiers (LCRs) are widely used in many industrial applications and electronic loads. For analysis and simulation of power systems that include many switching converters, numerically efficient and accurate models of rectifiers are needed. The detailed switching models of LCRs in traditional electromagnetic transient (EMT) simulation programs (either state-variable-based or EMTP-type) require special handling of switching events (i.e., interpolation and/or use of small time-steps for zero crossing detection), which results in increased computational complexity. This paper presents the recently developed generalized parametric average-value model (GPAVM) of LCRs that is capable of predicting the ac harmonics of interest with good accuracy while using fairly large fixed time-steps without the need for handling the zero-crossing events. This feature represents an advantage over the established methods and may be utilized for more efficient simulation of power systems with many rectifier loads.

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无过零事件的固定时间步长线整流系统仿真

线路整流器(lcr)广泛应用于许多工业应用和电子负载中。对于包含多个开关变流器的电力系统的分析和仿真，需要数值高效和精确的整流器模型。传统电磁瞬变(EMT)仿真程序(基于状态变量或emtp类型)中lcr的详细开关模型需要对开关事件进行特殊处理(即插值和/或使用小时间步长进行过零检测)，这导致计算复杂性增加。本文介绍了最近发展的lcr广义参数平均值模型(GPAVM)，该模型可以在不需要处理过零事件的情况下，使用相当大的固定时间步长，以较高的精度预测感兴趣的交流谐波。该特性比现有方法具有优势，可用于更有效地模拟具有许多整流器负载的电力系统。

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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2018 IEEE International Conference on Smart Energy Grid Engineering (SEGE)

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