学位论文详细信息
Design and Development of a Self-contained and Non-Invasive Integrated System for Electricity Monitoring Applications
Energy Harvesting;Power Management;Electricity Monitoring;Integrated System
Zarabi, Sidadvisor:Wei, Lan ; advisor:Salehian, Armaghan ; affiliation1:Faculty of Engineering ; advisor:Nairn, David ; Wei, Lan ; Nairn, David ; Salehian, Armaghan ;
University of Waterloo
关键词: Power Management;    Master Thesis;    Integrated System;    Energy Harvesting;    Electricity Monitoring;   
Others  :  https://uwspace.uwaterloo.ca/bitstream/10012/12276/1/Zarabi_Sid.pdf
瑞士|英语
来源: UWSPACE Waterloo Institutional Repository
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【 摘 要 】

Growing interest in improving the energy consumption efficiency in residential and commercial buildings has led to the emergence of intelligent energy management systems. This growing technology allows the transformation of the outdated electric distribution network within buildings to a smart and intelligent system. A major challenge in the development of such infrastructure is the need for low cost, integrated, self-contained, and non-invasive wireless sensor nodes. While an electric meter provides the utility company with information regarding the total energy consumption, no information is provided to the consumers regarding the energy consumed by individual appliances. Such visibility can provide consumers with the ability to better control and manage their energy usage leading to a reduced overall energy consumption.This work explores the design and development of a self-contained and non-invasive integrated system intended for real-time electricity monitoring within residential and commercial buildings. The proposed system includes an Energy Harvester, an electric current sensor, a Micro-controller Unit, and a wireless communication device. The proposed system is self-powered and non-invasive, which offers a promising solution in providing real time information regarding the energy distribution within buildings. The design featured in this work provides an innovative approach in the development of a customized interface circuitry that is designed to collect and regulate the energy from the Energy Harvester. The entire sensor node will operate under a power budget in the range of microwatts collected by the Energy Harvester. A Wireless MCU is programmed to acquire, process, and transmit the data from the sensor to the central hub via Bluetooth Low Energy connectivity. The real-time data transmitted to the central hub provides detailed information regarding the energy consumed by individual appliances within the building.

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