A timing impairment module for electrical synchrometrology

2019 IEEE International Symposium on Precision Clock Synchronization for Measurement, Control, and Communication (ISPCS) Pub Date : 2019-09-01 DOI:10.1109/ISPCS.2019.8886638

D. Anand, C. Freiheit, M. Weiss, K. Shenoi, H. Ossareh

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Abstract

Accurate time is frequently cited as an enabling requirement for precisely coordinated control systems used in the electrical power system. Methods and technologies to evaluate the impact of impaired time accuracy on these control systems are frequently expensive to build and confined to a laboratory setting. Our focus in this paper is to develop a system to apply timing impairments to electrical sensors in the field. We expect that the value of such a system would be in elucidating potentially negative interactions between interconnected and interdependent measurement and control components as deployed. As such, this paper outlines the design of a new hardware-in-the-loop tool for applying timing impairments to sensors that require accurate time. In addition to the design of the tool, we discuss the challenges and one approach for implementing realistic impairment scenarios that may be comprised of stochastic variations, systematic offsets and accumulating errors.

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一种用于电气同步测量的时序损伤模块

准确的时间经常被认为是电力系统中使用的精确协调控制系统的使能要求。评估时间精度受损对这些控制系统影响的方法和技术往往造价昂贵，而且仅限于实验室环境。本文的重点是开发一种将时序损伤应用于现场电传感器的系统。我们期望这样一个系统的价值在于阐明部署的相互连接和相互依赖的测量和控制组件之间潜在的负面相互作用。因此，本文概述了一种新的硬件在环工具的设计，用于将定时损伤应用于需要精确时间的传感器。除了工具的设计之外，我们还讨论了实现实际损伤场景的挑战和一种方法，这些场景可能包括随机变化、系统偏移和累积误差。

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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2019 IEEE International Symposium on Precision Clock Synchronization for Measurement, Control, and Communication (ISPCS)

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