Wireless Parameters Monitoring Simulation and Design in Wireless Personal Area Network Using 2.4 GHz Transceiver Module for Wind Mill

International journal of energy engineering Pub Date : 2012-12-01 DOI:10.5923/J.IJEE.20120206.02

Vivek Kaundal, Rajesh Singh, Madhu Sharma

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引用次数: 3

Abstract

A Wireless Personal Area Network (WPAN) monitoring system is proposed to measure the voltage and current generated for wind mill farm, it is considered as a target application. It has a Rig id hub structure, economical larger capacity i.e. 5- 7 MW fo r offshore sitting and variable speed turbines are three major develop ments characterize in a wind mach ines. The forth development is the adoption of gearless wind turbine eliminating gearbo xes as weakest link in the chain of modern wind turb ines. Eliminating the burdens associated with cabling, the proposed wireless network enables sensors to place on the each individual mill to monitor voltage and current so that we can optimize wind farm productivity. The proposed system consist of ZigBee based wireless personal area network i.e. co mmunication through ZigBee transceiver module, coding of microcontroller through AVR Studio4, and interfacing all with wind mill. The data from the wind-power generator will be collected with the help of proposed system and wired RS-232 Interface. The collected data will be displayed with the help of suitable GUI in MATLA B.

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2.4 GHz风力机无线个人局域网无线参数监测仿真与设计

提出了一种无线个人区域网络(WPAN)监测系统，用于测量风力发电场产生的电压和电流，并将其作为目标应用。它具有刚性轮毂结构，经济大容量(5- 7mw)的海上静坐和变速涡轮机是风力发电机的三个主要发展特征。第四个发展是采用无齿轮风力发电机，消除了齿轮轴作为现代风力发电机链中最薄弱的环节。该无线网络消除了与电缆相关的负担，使传感器能够放置在每个单独的风车上，以监测电压和电流，从而我们可以优化风力发电场的生产力。该系统由基于ZigBee的无线个人区域网络组成，即通过ZigBee收发模块进行通信，通过AVR Studio4对单片机进行编码，并与风力机进行接口。利用所设计的系统和有线RS-232接口对风力发电机组的数据进行采集。收集到的数据将在MATLA B中使用合适的GUI进行显示。

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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International journal of energy engineering

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