Current-limiting droop controller with fault-ride-through capability for grid-tied inverters

2017 IEEE PES Innovative Smart Grid Technologies Conference Europe (ISGT-Europe) Pub Date : 2017-09-01 DOI:10.1109/ISGTEurope.2017.8260159

A. Paspatis, G. Konstantopoulos, M. Mayfield, V. Nikolaidis

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引用次数: 2

Abstract

In this paper, the recently proposed current-limiting droop (CLD) controller for grid-connected inverters is enhanced in order to comply with the Fault-Ride-Through (FRT) requirements set by the Grid Code under grid voltage sags. The proposed version of the CLD extends the operation of the original CLD by fully utilizing the power capacity of the inverter under grid faults. It is analytically proven that during a grid fault, the inverter current increases but never violates a given maximum value. Based on this property, an FRT algorithm is proposed and embedded into the proposed control design to support the voltage of the grid. In contrast to the existing FRT algorithms that change the desired values of both the real and reactive power, the proposed method maximizes only the reactive power to support the grid voltage and the real power automatically drops due to the inherent current-limiting property. Extensive simulations are presented to compare the proposed control approach with the original CLD under a faulty grid.

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并网逆变器具有故障穿越能力的限流下垂控制器

本文对最近提出的并网逆变器限流下垂(CLD)控制器进行了改进，以满足电网规范对电网电压跌落下的故障穿越(FRT)的要求。该方案通过充分利用逆变器在电网故障下的功率容量，扩展了原有CLD的运行能力。分析证明，在电网发生故障时，逆变器电流会增加，但不会超过给定的最大值。基于这一特性，提出了一种FRT算法，并将其嵌入到所提出的控制设计中以支持电网电压。与现有的FRT算法同时改变实功率和无功功率的期望值不同，该方法仅使无功功率最大化以支持电网电压，而由于其固有的限流特性，实功率会自动下降。通过大量的仿真，将所提出的控制方法与原有的故障电网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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来源期刊

2017 IEEE PES Innovative Smart Grid Technologies Conference Europe (ISGT-Europe)

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