Title :
Analysis Model for Magnetic Energy Harvesters
Author :
Jinyeong Moon ; Leeb, Steven B.
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., Massachusetts Inst. of Technol., Cambridge, MA, USA
Abstract :
Energy harvesting offers an important design option for creating sensing and control elements without a requirement for custom wiring or batteries. An exciting possibility creates a “self-powered” sensor node with an integrated energy harvester that can extract power from the magnetic fields around a power line to a load, in the manner of a current transformer. However, this “current transformer” provides not just current sensing, but also power for a sensor package, all without ohmic contact. This paper provides a technique for design optimization for maximizing power harvest, revealing a critical result: For any given core in any particular application, power harvest is maximized when the core is permitted to saturate at an opportune time in the line cycle. Circuits for optimizing this power transfer window and experimental results supporting the analysis are presented in this paper.
Keywords :
current transformers; electric sensing devices; energy harvesting; magnetic sensors; batteries; control elements; current sensing; current transformer; custom wiring; design optimization; line cycle; magnetic energy harvester analysis model; magnetic fields; power harvesting maximization; power line; power transfer window; self-powered sensor node; sensor package; Current transformers; IP networks; Mathematical model; Saturation magnetization; Sensors; Transformer cores; Energy; harvest; inductor; magnetic; nonideal; nonlinear; power; saturation; transfer window; transformer;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2014.2357448
