Ambient RF Energy Scavenging: GSM and WLAN Power Density Measurements
Hubregt J. Visser,A.C.F. Reniers,J.A.C. Theeuwes +2 more
- pp 721-724
TLDR
In this paper, a survey of expected power density levels distant from GSM 900 and GSM-1800 base stations has been conducted and power density measurements have been performed in a WLAN environment.Abstract:
To assess the feasibility of ambient RF energy scavenging, a survey of expected power density levels distant from GSM-900 and GSM-1800 base stations has been conducted and power density measurements have been performed in a WLAN environment. It appears that for distances ranging from 25 m to 100 m from a GSM base station, power density levels ranging from 0.1 mW/m2 to 3.0 mW/m2 may be expected. First measurements in a WLAN environment indicate even lower power density values, making GSM and WLAN unlikely to produce enough ambient RF energy for wirelessly powering miniature sensors. A single GSM telephone however has proven to deliver enough energy for wirelessly powering small applications on moderate distances.read more
Citations
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Journal ArticleDOI
Ambient RF Energy Harvesting in Urban and Semi-Urban Environments
TL;DR: In this article, a city-wide RF spectral survey was undertaken from outside all of the 270 London Underground stations at street level, and four harvesters (comprising antenna, impedance-matching network, rectifier, maximum power point tracking interface, and storage element) were designed to cover four frequency bands from the largest RF contributors within the ultrahigh frequency (0.3-3 GHz) part of the frequency spectrum.
Journal ArticleDOI
Micropower energy harvesting
TL;DR: In this article, the authors summarized recent energy harvesting results and their power management circuits and showed that rectification and DC-DC conversion are becoming able to efficiently convert the power from these energy harvesters.
Proceedings Article
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TL;DR: This paper summarizes recent energy harvesting results and their power management circuits.
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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
Energy Harvesting for Autonomous Wireless Sensor Networks
TL;DR: The typical power requirements of some current portable devices, including a body sensor network, are shown in Figure 1.
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