Proceedings ArticleDOI
Simple RF Energy Harvesting Circuit Using AMC Backed Bowtie Antenna
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TLDR
A simple RF energy harvesting circuit operating at 1800 MHz to energize low power electronic circuits is proposed, based on the novel design of a bow-tie dipole antenna extracting the RF energy from the cellular band of 1800 MHz.Abstract:
In this paper, a simple RF energy harvesting circuit operating at 1800 MHz to energize low power electronic circuits is proposed. The proposed RF harvesting circuit is based on the novel design of a bow-tie dipole antenna extracting the RF energy from the cellular band of 1800 MHz. The designed antenna is quite robust, whose gain may be further increased with the help of a specially designed artificial magnetic conductor (AMC) and a metal reflector placed at the back side. The antenna is integrated with a Villard voltage doubler based rectifier and the impedance matching unit working in the specified frequency band which provide the maximum simulated efficiency of 59.4%. The antenna is designed using the full wave simulator, the CST studio, and the rectifier along with the matching circuit is simulated using the ADS circuit simulator.read more
Citations
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Proceedings ArticleDOI
Antennas Matching for RF Energy Harvesting Devices
TL;DR: The conclusion is that the effectiveness of RF energy harvesting can be increased with proper antenna matching based on S-parameters, and schematics and layout can be optimized for best matching.
References
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Journal ArticleDOI
Wireless Networks With RF Energy Harvesting: A Contemporary Survey
TL;DR: This paper presents an overview of the RF-EHNs including system architecture, RF energy harvesting techniques, and existing applications, and explores various key design issues according to the network types, i.e., single-hop networks, multiantenna networks, relay networks, and cognitive radio networks.
Journal ArticleDOI
RF Energy Harvesting and Transport for Wireless Sensor Network Applications: Principles and Requirements
Hubregt J. Visser,Ruud Vullers +1 more
TL;DR: The feasibility of harvesting is discussed, leading to the conclusion that RF energy transport is preferred for powering small sized sensors by radio-frequency energy harvesting or transport.
Journal ArticleDOI
Ambient RF Energy-Harvesting Technologies for Self-Sustainable Standalone Wireless Sensor Platforms
Sangkil Kim,Rushi Vyas,Jo Bito,Kyriaki Niotaki,Ana Collado,Apostolos Georgiadis,Manos M. Tentzeris +6 more
TL;DR: In this article, various ambient energy harvesting technologies (solar, thermal, wireless, and piezoelectric) are reviewed in detail and their applicability in the development of self-sustaining wireless platforms is discussed.
Ambient RF Energy-Harvesting Technologies for Self-Sustainable Standalone Wireless Sensor Platforms This paper presents various ambient energy-harvesting technologies and investigates their applicability in the development of self-sustaining wireless platforms.
Sangkil Kim,Rushi Vyas,Jo Bito,Kyriaki Niotaki,Ana Collado,Apostolos Georgiadis,Manos M. Tentzeris +6 more
TL;DR: A benchmarking prototype of an embedded microcontroller-enabled sensor platform has been successfully powered by an ambient ultrahigh-frequency (UHF) digital TV signal where a broadcasting antenna is 6.3 km away from the proposed wireless energy-harvesting device.
Journal ArticleDOI
Wireless charger networking for mobile devices: fundamentals, standards, and applications
TL;DR: A novel concept of wireless charger networking is proposed that allows chargers to be connected to facilitate information collection and control and shows the benefit in terms of reduced costs for users to identify the best charger to replenish energy for their mobile devices.
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