Human Exposure to Close-Range Resonant Wireless Power Transfer Systems as a Function of Design Parameters

In this study, human exposure to close-range wireless power transfer (WPT) systems operating in the frequency range 0.1-10 MHz with coil diameters up to 150 mm are investigated. Approximation formulae, which include scaling factors derived from numerical simulations that take variations of complex human anatomies into consideration, are proposed to conservatively estimate human exposure with respect to the most authoritative exposure guidelines. The approximation has been verified for two precommercial prototype WPT systems, the first of which, a 5-W system operating at 100 kHz, has been evaluated in this study; the second system been verified was reported in a separate study and operates at 6.78 MHz with a nominal current of 5.4 A rms. Based on the results obtained, the optimal operational frequency range for WPT with respect to compliance with exposure safety guidelines is revealed to be ca. 1-2.5 MHz. In summary, this study provides novel and insightful information for the design of an exposure-compliant close-range magnetic resonant WPT system.

[1]  A. Ahlbom Guidelines for limiting exposure to time-varying electric, magnetic, and electromagnetic fields (up to 300 GHz) , 1998 .

[2]  E. Neufeld,et al.  Children and adults exposed to low-frequency magnetic fields at the ICNIRP reference levels: theoretical assessment of the induced electric fields , 2012, Physics in medicine and biology.

[3]  M. Soljačić,et al.  Wireless Power Transfer via Strongly Coupled Magnetic Resonances , 2007, Science.

[4]  A. Hirata,et al.  Reducing the staircasing error in computational dosimetry of low-frequency electromagnetic fields , 2012, Physics in medicine and biology.

[5]  R. W. Lau,et al.  The dielectric properties of biological tissues: III. Parametric models for the dielectric spectrum of tissues. , 1996, Physics in medicine and biology.

[6]  Joshua R. Smith,et al.  Evaluation of Wireless Resonant Power Transfer Systems With Human Electromagnetic Exposure Limits , 2013 .

[7]  C. Gabriel,et al.  Electrical conductivity of tissue at frequencies below 1 MHz , 2009, Physics in medicine and biology.

[8]  J. Wiart,et al.  Estimation Formulas for the Specific Absorption Rate in Humans Exposed to Base-Station Antennas , 2011, IEEE Transactions on Electromagnetic Compatibility.

[9]  K. Jokela,et al.  ICNIRP Guidelines GUIDELINES FOR LIMITING EXPOSURE TO TIME-VARYING , 1998 .

[10]  E. Neufeld,et al.  IT’IS Database for Thermal and Electromagnetic Parameters of Biological Tissues , 2012 .

[11]  R. W. Lau,et al.  The dielectric properties of biological tissues: II. Measurements in the frequency range 10 Hz to 20 GHz. , 1996, Physics in medicine and biology.

[12]  Akimasa Hirata,et al.  Evaluation of SAR in a human body model due to wireless power transmission in the 10 MHz band , 2012, Physics in medicine and biology.

[13]  Qiang Chen,et al.  Numerical Analysis on Transmission Efficiency of Evanescent Resonant Coupling Wireless Power Transfer System , 2010, IEEE Transactions on Antennas and Propagation.

[14]  Niels Kuster,et al.  Realistic Skeleton Based Deformation of High-Resolution Anatomical Human Models for Electromagnetic Simulations , 2008 .

[15]  N. Kuster,et al.  Analysis of human brain exposure to low‐frequency magnetic fields: A numerical assessment of spatially averaged electric fields and exposure limits , 2013, Bioelectromagnetics.

[16]  M. Soljačić,et al.  Efficient wireless non-radiative mid-range energy transfer , 2006, physics/0611063.

[17]  F. Grover,et al.  The Calculation of the Mutual Inductance of Circular Filaments in Any Desired Positions , 1944, Proceedings of the IRE.

[18]  Andreas Christ,et al.  Assessing Human Exposure to Electromagnetic Fields From Wireless Power Transmission Systems , 2013, Proceedings of the IEEE.

[19]  Niels Kuster,et al.  The Virtual Family—development of surface-based anatomical models of two adults and two children for dosimetric simulations , 2010, Physics in medicine and biology.