Title :
Microwave Power Harvesting for Satellite Health Monitoring
Author :
Takacs, Alexandru ; Aubert, H. ; Fredon, S. ; Despoisse, L. ; Blondeaux, Henri
Author_Institution :
Lab. for Anal. & Archit. of Syst., Nat. Center for Scientihc Res., Toulouse, France
Abstract :
This paper addresses the microwave energy harvesting on board of geostationary satellites for health satellite monitoring. To prove the feasibility of such a concept, we investigated the electromagnetic environment existing on antenna panels. Based on established cartographic maps, three designs of rectennas are proposed. Measured dc powers ranging from 0.256 to 1.28 mW can be harvested for electric field levels ranging from 91 to 121 V/m and by using very simple and compact designs. The harvesting structures consist of only one Schottky diode per rectenna and present a total surface of 2.4 cm 2. They are suitable for powering the new generation of ultra-low power transceivers, thus enabling autonomous wireless power networks for satellite health monitoring.
Keywords :
condition monitoring; direct broadcasting by satellite; energy harvesting; microwave antennas; microwave circuits; microwave propagation; radio transceivers; rectennas; satellite antennas; telecommunication power supplies; Schottky diode per rectenna; antenna panels; autonomous wireless power networks; cartographic maps; electric field levels; electromagnetic environment; geostationary satellites; harvesting structures; microwave circuits; microwave power harvesting; power 0.256 mW to 1.28 mW; rectenna design; satellite health monitoring; ultra-low power transceivers; Electromagnetics; Microwave antennas; Microwave circuits; Rectennas; Satellite broadcasting; Satellites; Schottky diodes; Autonomous wireless sensors; energy harvesting; microwave circuits; rectennas; satellite applications;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2014.2303425
