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Battery-less NFC sensors for the Internet of Things / Marti Boada [and more]

By: Boada i Junca, Marti

Contributor(s): Lazaro, Antonio, 1957- | Girbau, David | Villarino, Ram�on

Language: English Series: Information systems, web and pervasive computing series: Publisher: London, UK : Hoboken, NJ : ISTE, Ltd. ; Wiley, 2022Description: 1 online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9781786308368; 9781394173617; 139417361XSubject(s): Detectors | Internet of thingsGenre/Form: Electronic books.DDC classification: 621.384 LOC classification: TK6570.N43Online resources: Link text Full text is available at Wiley Online Library Click here to view

Contents:

Table of Contents 1. Wireless Power Transfer Applied to NFC 2. Case Study 1: Soil Moisture Sensor 3. Case Study 2: Smart Diaper 4. Case Study 3: NFC Sensor for pH Monitoring 5. Case Study 4: Fruit Ripeness Sensor

Summary: The implementation of near-field communication (NFC) technology in smartphones has grown rapidly, especially due to the use of this technology as a payment system. In addition, the ability to use the energy transmitted not only for communication, but also for feeding other devices, which together with the low cost of NFC chips and the internet connectivity of the smartphones, allows the design of battery-less RF tags with sensing capabilities, whose information can be sent to the cloud. This is of great interest in the increasing amount of IoT (Internet of Things) scenarios. This book studies the feasibility of these sensors, analyzing the different parameters that have an influence on performance and in the range of operation. It also presents techniques to increase the range and analyzes the effects of certain materials when they are close to the antenna. The design and analysis of several sensors that can be powered and read by any NFC enabled device are presented in this work.

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Item type	Current location	Home library	Call number	Status	Date due	Barcode	Item holds
EBOOK	COLLEGE LIBRARY	COLLEGE LIBRARY	621.384 B6301 2022 (Browse shelf)	Available

Total holds: 0

Includes bibliographical references and index.

Table of Contents

1. Wireless Power Transfer Applied to NFC

2. Case Study 1: Soil Moisture Sensor

3. Case Study 2: Smart Diaper

4. Case Study 3: NFC Sensor for pH Monitoring

5. Case Study 4: Fruit Ripeness Sensor

The implementation of near-field communication (NFC) technology in smartphones has grown rapidly, especially due to the use of this technology as a payment system. In addition, the ability to use the energy transmitted not only for communication, but also for feeding other devices, which together with the low cost of NFC chips and the internet connectivity of the smartphones, allows the design of battery-less RF tags with sensing capabilities, whose information can be sent to the cloud. This is of great interest in the increasing amount of IoT (Internet of Things) scenarios. This book studies the feasibility of these sensors, analyzing the different parameters that have an influence on performance and in the range of operation. It also presents techniques to increase the range and analyzes the effects of certain materials when they are close to the antenna. The design and analysis of several sensors that can be powered and read by any NFC enabled device are presented in this work.

About the Author

Martí Boada is a postdoctoral researcher in the Department of Electronic, Electric and Automatic Engineering (URV), Tarragona, Spain, and has a PhD in telecommunication engineering.

Antonio Lazaro is a full-time professor in the Department of Electronic, Electric and Automatic Engineering (URV), Tarragona, Spain, and has a PhD in telecommunication engineering.

David Girbau is a full-time professor in the Department of Electronic, Electric and Automatic Engineering (URV), Tarragona, Spain, and has a PhD in telecommunication engineering.

Ramón Villarino is an assistant professor in the Department of Electronic, Electric and Automatic Engineering (URV), Tarragona, Spain, and has a PhD in telecommunication engineering.

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