A simple approach to improvement in performance of UPQCin presence of unbalanced load

2017 IEEE PES Asia-Pacific Power and Energy Engineering Conference (APPEEC) Pub Date : 2017-11-01 DOI:10.1109/APPEEC.2017.8308971

Ashish Patel, Hitesh Datt Mathur, S. Bhanot

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引用次数: 3

Abstract

This paper proposes a simple control technique for Distributed Generation fed Unified Power Quality Conditioner (UPQCdg) in presence of unbalanced load. Compensation of unbalanced load causes second order ripples in DC link voltage of UPQCdg, which leads to ripples in reference current estimated by PI controller, and eventually unbalance & harmonics in source currents. This paper proposes use of a mean block at output of PI controller to prevent ripples passing onto reference current. Selection criterion of proposed mean block is discussed. Also, a ‘percentage unbalance’ parameter is proposed for computing unbalance in three phase quantities and comparing among different cases. Performance of proposed technique is validated using Real Time Digital Simulation (RTDS) in Opal-RT. Steady state performance of proposed technique is verified in presence of non-linear and unbalanced loads, and dynamic performance is tested during voltage sag, swell, change in load and variation in solar irradiation. RTDS results express superiority of proposed method over conventional one.

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在负载不平衡的情况下提高upqp性能的一种简单方法

提出了一种适用于负载不平衡情况下的分布式馈源统一电能质量调节器(UPQCdg)的简单控制技术。不平衡负载的补偿导致UPQCdg直流链路电压出现二阶纹波，进而导致PI控制器估计的参考电流出现纹波，最终导致源电流出现不平衡谐波。本文提出在PI控制器的输出端使用一个平均块来防止波纹传递到参考电流上。讨论了所提出的平均块的选择准则。此外，还提出了一个“百分比不平衡”参数，用于计算三相量的不平衡，并在不同情况下进行比较。利用Opal-RT中的实时数字仿真(RTDS)验证了该技术的性能。验证了该技术在非线性和不平衡负载下的稳态性能，并测试了电压跌落、膨胀、负载变化和太阳辐照变化时的动态性能。RTDS结果表明该方法优于传统方法。

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 IEEE PES Asia-Pacific Power and Energy Engineering Conference (APPEEC)

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