A one-phase, distribution-level phasor measurement unit for post-event analysis

2014 Power and Energy Conference at Illinois (PECI) Pub Date : 2014-04-24 DOI:10.1109/PECI.2014.6804575

Bogdan Pinte, M. Quinlan, A. Yoon, K. Reinhard, P. Sauer

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引用次数: 20

Abstract

Phasor measurement units (PMUs) are devices which provide near real-time synchronized data (synchrophasor data) at widely separated points across the power grid and are mainly installed at the transmission level. The widespread installation of PMUs across the power grid is gradually becoming a reality - and promises new capabilities to significantly improve real time knowledge of the power grid's operating state. Archived synchrophasor data provides a wealth of high-fidelity data to aid power system model sustainability analyses and to reconstruct unusual power system events. While the PMU device concept is well known in the power industry, the challenges of designing and implementing a PMU which integrates field measurements to deliver Global Positioning System (GPS) synchronized phasor data to the power industries' networks are not as well known or understood. This paper describes the steps, challenges, and reasoning involved in building a single-phase, distribution-level PMU. Our efforts have provided a fundamental understanding of a PMU's inner workings and direction to future efforts to improve PMU performance.

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用于事后分析的单相分布级相量测量单元

相量测量单元(pmu)是在电网中广泛分离的点上提供近实时同步数据(同步数据)的设备，主要安装在传输级。在整个电网中广泛安装pmu正逐渐成为现实，并承诺提供新的功能，以显着提高对电网运行状态的实时了解。存档的同步量数据提供了丰富的高保真数据，以帮助电力系统模型可持续性分析和重建异常的电力系统事件。虽然PMU设备的概念在电力工业中是众所周知的，但设计和实施PMU的挑战是集成现场测量，向电力工业网络提供全球定位系统(GPS)同步相量数据，这是不为人所知或理解的。本文描述了构建单相分布级PMU所涉及的步骤、挑战和推理。我们的努力提供了一个基本的了解PMU的内部工作和方向，未来的努力，以提高PMU的性能。

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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2014 Power and Energy Conference at Illinois (PECI)

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