Three-phase voltage generator for stands in the research concerning devices models for energy systems interconnection

2017 International Conference on Electromechanical and Power Systems (SIELMEN) Pub Date : 2017-10-01 DOI:10.1109/SIELMEN.2017.8123298

V. Postolaty, A. Suvorov, V. Anisimov

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Abstract

Due to with the actuality of the task of interconnection of non-synchronously operating alternating current energy systems, an experimental comparison of the interconnection devices models, which implement various methods of operation of these devices, is required. Therefore, a stand is needed, that allows conducting experimental studies with the specified models of devices. The basis of the stand are two three-phase voltage generators simulating non-synchronously operating energy systems. An important requirement for each generator is the ease of frequency control while maintaining a phase shift between phase voltages. For this purpose, a master oscillator with a frequency much higher, than the required one, was supplied. Further, the frequency divider and the decoder allow at the outputs of the latter to obtain signals with a constant value of the phase shift between them with a change of the frequency of the input pulses succession from the master oscillator. The subsequent chains in each phase form a sinusoidal voltage.

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三相电压发电机是能源系统互联设备模型研究的热点之一

由于非同步运行的交流能源系统互连任务的现状，需要对实现这些设备的各种运行方式的互连装置模型进行实验比较。因此，需要一个支架，允许用指定的设备模型进行实验研究。该支架的基础是两台模拟非同步运行能源系统的三相电压发电机。每个发电机的一个重要要求是易于控制频率，同时保持相电压之间的相移。为此，提供了一个频率比所需频率高得多的主振荡器。此外，分频器和解码器允许在后者的输出端，随着从主振荡器连续输入脉冲的频率的变化，获得具有它们之间相移恒定值的信号。每个相位的后续链形成一个正弦电压。

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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2017 International Conference on Electromechanical and Power Systems (SIELMEN)

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