Performance Study of Strongly Coupled Magnetic Resonance
Chathuranga M. Wijerathna Basnayaka, Dushantha Nalin K. Jayakody,, Abhishek Sharma, Hwang-Cheng Wang, P Muthuchidambaranathan
TL;DR
This paper evaluates the efficiency of Strongly Coupled Magnetic Resonance (SCMR) for wireless power transfer through experimental and simulation analysis, highlighting its advantages over non-resonant systems.
Contribution
It provides a comprehensive experimental and simulation analysis of SCMR, including a prototype implementation and verification of resonant frequency, advancing understanding of its performance factors.
Findings
SCMR achieves higher energy transfer efficiency than non-resonant systems
Experimental and simulated results validate the effectiveness of SCMR
Resonant frequency and system factors significantly influence transfer performance
Abstract
Strongly Coupled Magnetic Resonance (SCMR) uses electromagnetic resonance in order to efficiently transfer power wirelessly over mid-range distances. Since the energy exchange capability of resonant objects higher than non-resonant objects, strongly coupled systems are able to achieve more efficient energy transfer than other wireless power transfer systems. The paper presents detailed experimental and simulated analysis of the performance of the SCMR system. A prototype of the SCMR system was implemented and experiments were conducted to analyze the performance of the system. Finally, the resonant frequency of the system was experimentally verified and the factors influencing the wireless power transfer were also studied
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Taxonomy
TopicsWireless Power Transfer Systems · Energy Harvesting in Wireless Networks · Wireless Body Area Networks