理想-变压器-模型接口算法的稳定性分析

J. Dolenc, A. Božiček, B. Blazic
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引用次数: 1

摘要

本文讨论的主题是定义用于耦合两个实时模拟器的理想变压器模型接口算法的稳定性条件。理想变压器模型算法是硬件在环仿真中最直接的方法之一。将理想变压器模型集成到系统中不会影响系统的阻抗特性,这是其最突出的优点。然而,系统和负载阻抗比的特定变化可能导致系统不稳定。进一步证明了系统进入不稳定状态的转变是模拟器之间的时间延迟的结果。延时是一种干扰,它放大了模拟器之间电压信号传输的误差。考虑Nyquist稳定性判据,给出了三种不同系统和负载阻抗比的情况,分别在Matlab Simulink和RT模拟器上进行了仿真。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Stability analysis of an Ideal-Transformer-Model interface algorithm
The subject addressed in the proposed paper is to define stability conditions of an Ideal Transformer Model interface algorithm used for coupling two real-time simulators. The Ideal Transformer Model algorithm is one of the most straightforward methods for hardware-in-the-loop simulations. Integration of the Ideal Transformer Model into the system does not affect systems impedance characteristics and this is its most prominent advantage. However, specific change of system and load impedance ratio may result into system instability. Furthermore, it is shown that the transition of the system into an unstable state is the consequence of the time-delay between simulators. Time-delay turns out as a disturbance that amplifies an error due to transmission of the voltage signal between the simulators. Taking into account Nyquist stability criterion, three cases with different system and load impedance ratio are presented, first with the simulations in Matlab Simulink and later on with simulations on RT simulators.
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