三相四线制多功能变换器控制中的功率边界

R. Sawant, M. Chandorkar
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引用次数: 3

摘要

电压源变换器作为电能质量补偿器,可以同时用于直流母线上的双向有功功率交换。但是,如果转换器的操作被限制在指定的kVA额定值内,则可能无法同时执行所有任务以满足其最大要求。为了保证半导体器件和滤波元件的安全,变换器的工作总是被限制在规定的最大视在功率范围内。在完全执行一种任务时,其他任务可能不得不受到限制。因此,从功率边界的角度研究多功能变换器的工作极限是一项具有挑战性和必要性的工作。本文利用瞬时p-q-r理论研究了电压源变换器多功能工作时的功率边界。给出了三相四线制电力系统中最常见的线性/非线性负载下多功能补偿器运行的实例研究。利用电能质量指标绘制了运行边界。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Power boundaries in multifunctional converter control for three-phase four-wire systems
It has been established that a voltage source converter when used as a power quality compensator can be used for bidirectional active power exchange across the dc bus, simultaneously. However, it may not be possible to execute all the tasks together to their fullest requirements, if the converter operation is restricted within a specified kVA rating. To ensure the safety of the semiconductor devices and the filter components, the converter operation is always restricted within the maximum specified apparent power. While performing one type of task completely, the other tasks may have to be limited. Therefore, it is a challenging and essential task to study the limits of multifunctional converter operation in terms of the power boundaries. The paper deals with a study of power boundaries in multifunctional operation of the voltage source converter using the instantaneous p-q-r theory. The case studies for the multifunctional compensator operation with the most common linear/non-linear loads on a three-phase four-wire power system are presented. The operation boundaries are plotted with the help of power quality indices.
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