M00020904
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DETERMINING THE PEAK SPATIAL-AVERAGE SPECIFIC ABSORPTION RATE (SAR) IN THE HUMAN BODY FROM WIRELESS COMMUNICATIONS DEVICES, 30 MHZ TO 6 GHZ - PART 2: SPECIFIC REQUIREMENTS FOR FINITE DIFFERENCE TIME DOMAIN (FDTD) MODELLING OF EXPOSURE FROM VEHICLE MOUNTED ANTENNAS
British Standards Institution
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Availability date: 11/05/2021
FOREWORD<br>INTRODUCTION<br>1 Scope<br>2 Normative references<br>3 Terms and definitions<br>4 Abbreviated terms<br>5 Exposure configuration modelling<br>6 Validation of the numerical models<br>7 Computational uncertainty<br>8 Benchmark simulation models<br>9 Documenting SAR simulation results<br>Annex A (normative) - File format and description of the<br> standard human body models<br>Annex B (informative) - Population coverage<br>Annex C (informative) - Peak spatial-average SAR locations<br> for the validation and the benchmark simulation models<br>Bibliography
Describes the concepts, techniques, validation procedures, uncertainties and limitations of the finite difference time domain technique (FDTD) when used for determining the peak spatial-average and whole-body average specific absorption rate (SAR) in a standardized human anatomical model exposed to the electromagnetic field emitted by vehicle mounted antennas in the frequency range from 30 MHz to 1 GHz, which covers typical high power mobile radio products and applications.
Published | |
Document Type | Standard |
Status | Current |
Publisher | British Standards Institution |
Pages | |
ISBN | |
Committee | GEL/106 |