WIRELESS DATA COMMUNICATION TECHNIQUES TO COORDINATE SINGLE-PHASE ROOFTOP PVs IN UNBALANCED THREE-PHASE LOW VOLTAGE FEEDER

TELKOMNIKA : Indonesian Journal of Electrical Engineering Pub Date : 2018-02-01 DOI:10.12928/telkomnika.v16i1.7780

R. Rachmawati, Anita Fauziah, Nelly Safitri

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Abstract

A necessity of the availability of communication network to provide data transfer amongst the coordinated single-phase rooftop photovoltaic (PV) in unbalanced three-phase low voltage (LV) feeder is essential since fetching data within the sensor of each PV unit requires real-time measurement and reliable data exchange within smart grid (SG), loads and other PV units. The main objective of this paper is to modeling the popular Wi-Fi, WiMax and ZigBee wireless data communication techniques into algorithms using numerical analysis. Those communication technologies have low cost and low power consumption. The benefits and drawbacks of those considered wireless data communications are shown as the required data that transferred and appropriate coding is also proposed. The number of transmitted symbols and the processing time delay of the proposed data coding are numerically analyzed, the results indicated that the 100% penetration level of PV that resulted higher injected reactive power back into the networks is able to be overcome since the coordinated PVs along the feeder is communicating to lower the unbalanced voltage profile.

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不平衡三相低压馈线中协调单相屋顶pv的无线数据通信技术

在不平衡三相低压馈线中，在协调的单相屋顶光伏(PV)之间提供数据传输的通信网络的可用性是必不可少的，因为在每个光伏单元的传感器内获取数据需要实时测量和智能电网(SG)、负载和其他光伏单元之间可靠的数据交换。本文的主要目的是利用数值分析将流行的Wi-Fi、WiMax和ZigBee无线数据通信技术建模为算法。这些通信技术具有低成本、低功耗的特点。所考虑的无线数据通信的优点和缺点显示为传输所需的数据，并提出了适当的编码。对所提出的数据编码的传输符号数和处理时间延迟进行了数值分析，结果表明，由于沿馈线的协调PV正在通信以降低不平衡电压分布，因此能够克服PV的100%渗透水平，从而导致更高的无功回注。

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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TELKOMNIKA : Indonesian Journal of Electrical Engineering

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