RFID for Everyone: An Easily-Accessible, Experimental UHF RFID Platform

This paper presents an expandable wireless sensing platform designed to exhibit similar functionality to high-performing RFID devices such as the Intel WiSP while remaining accessible as a learning tool. Towards this end, the platform is designed around components that are stocked by most component...

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Veröffentlicht in:	IEEE journal of radio frequency identification (Online) 2020-03, Vol.4 (1), p.46-54
1. Verfasser:	Thomas, Stewart J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Accessibility Backscattering Capacitors Firmware Microcontrollers passive RFID tags Power management Radio frequency Radio frequency identification Radiofrequency identification Telemetering UHF RFID Wireless communication Wireless power transmission wireless sensing platform Wireless sensor networks
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container_title	IEEE journal of radio frequency identification (Online)
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creator	Thomas, Stewart J.
description	This paper presents an expandable wireless sensing platform designed to exhibit similar functionality to high-performing RFID devices such as the Intel WiSP while remaining accessible as a learning tool. Towards this end, the platform is designed around components that are stocked by most component suppliers, and physically large enough to be soldered by hand. With an aim to bring more researchers into the RFID community, the system allows for a user to quickly perform wireless power transfer experiments, design and test low-power embedded firmware, quickly prototype backscatter communication protocols, and design fully-functional battery-free sensors. The platform runs a 16-bit MSP430 microcontroller and receives all power from a 915 MHz CW source. It has a measured sensitivity of −6dBm where digital communication is possible and sufficient voltage (1.8 V) is harvested to operate an MSP430 microcontroller. The reader for this system is a custom design that transmits a CW signal and allows output data to be easily seen with an oscilloscope. To showcase the effectiveness of the system, a battery-free sensor designed by a group of undergraduate students with no prior RFID experience is presented. The exemplary sensor is capable of wirelessly telemetering luminance.
doi_str_mv	10.1109/JRFID.2019.2941831
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subjects	Accessibility Backscattering Capacitors Firmware Microcontrollers passive RFID tags Power management Radio frequency Radio frequency identification Radiofrequency identification Telemetering UHF RFID Wireless communication Wireless power transmission wireless sensing platform Wireless sensor networks
title	RFID for Everyone: An Easily-Accessible, Experimental UHF RFID Platform
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