Design of Droop Controller in Microgrid Architectures

4th International Symposium on Innovative Approaches in Engineering and Natural Sciences Proceedings Pub Date : 2019-07-26 DOI:10.36287/setsci.4.6.072

Ayşe Bağıran, Köksal Erentürk

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Abstract

A microgrid is a power grid consists of distributed power generation units and loads. Microgrid is also a system that can operate in grid-connected mode and islanding (autonomous) mode. The control of distributed power generation units in microgrids is necessary for reliability and continuity of power grid. In this study, the droop control method which is widely used in the control of distributed power generation units in intelligent microgrids has been examined. The droop control method, which operates similarly to the primary frequency regulation system of the conventional power grid, does not have communication with other distributed generation units. In this study, the design steps of the droop controller which is designed in order that linearly considering the relationship between active power – frequency (P-f) and reactive power – voltage (Q-V) and regulating the deviations that occur have been examined in detail. The designed droop controller has been compared with voltage current control and hierarchical control methods.

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微电网体系结构中的下垂控制器设计

微电网是由分布式发电机组和分布式负荷组成的电网。微电网也是一种可以并网模式和孤岛(自治)模式运行的系统。微电网中分布式发电机组的控制是保证电网可靠性和连续性的必要条件。本文对智能微电网中广泛应用于分布式发电机组控制的下垂控制方法进行了研究。下垂控制方式与常规电网一次调频系统工作原理相似，不与其他分布式发电机组通信。本文详细研究了线性考虑有功频率(P-f)和无功电压(Q-V)关系的下垂控制器的设计步骤，并对产生的偏差进行了调节。将所设计的下垂控制器与电压电流控制和分层控制方法进行了比较。

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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4th International Symposium on Innovative Approaches in Engineering and Natural Sciences Proceedings

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