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IEC/IEEE 63195-1 Reference functions mmw 30GHz 60GHz
The analytical function are to be used for the evaluation of the field reconstruction algorithm uncertainty, and the forward transformation and back transformation uncertainties; those functions satisfy Maxwell equations and verify laws of electromagnetic field propagation.
The volume distribution of the E-field and H-field they represent shall be the target for the reconstructed field from the data samples at the probe(s) location.
All the functions are normalized so that the reference PsP (...)
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2019-12-17 | IEC/IEEE 63195-1 |
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IEC/IEEE 62704-4 Support Documents
This folder contains supplemental files required for the code verification.
Note: file IEC/IEEE 62704-4 Supplements Code Verification updated.
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2018-10-18 | IEC/IEEE 62704-4 |
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IEC/IEEE 62704-3 supplemental files
The CAD model is for use in the basic manufacture of the SAM phantom standard test fixture and of simulation software systems by groups having the necessary expertise and resources. Four *.IGES files of inner and outer surfaces for the left and right halves extracted from the CAD model of the SAM phantom are provided. The four file names are: 1) sam_lft_in_6_11.igs 2) sam_lft_out_6_11.igs 3) sam_rt_in_6_11.igs 4) sam_rt_out_6_11.igs
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2017-06-06 | IEC/IEEE 62704-3:2017 |
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IEC/IEEE 62704-2 standard human model of a bystander
This model is intended for computer simulations and evaluation of the Specific Absorption Rate (SAR) in the human body from wireless communication devices with vehicle mounted antennas according to IEC/IEEE 62704-2 standard. It represents a standard bystander model. The file format description and parameters relevant for simulations are provided in the Annex A of the IEC/IEEE 62704-2 standard.
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2016-09-23 | IEC/IEEE 62704-2:2017 |
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IEC/IEEE 62704-2 standard CAD model of a vehicle
This vehicle CAD model is intended for computer simulations and evaluation of the Specific Absorption Rate (SAR) in the human body from wireless communication devices with vehicle mounted antennas according to IEC/IEEE 62704-2 standard. This CAD model is provided in ACIS version 18 SAT file format as well as in an open OBJ file format.
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2016-12-16 | IEC/IEEE 62704-2:2017 |
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IEC/IEEE 62704-2 standard human model of a passenger
This model is intended for computer simulations and evaluation of the Specific Absorption Rate (SAR) in the human body from wireless communication devices with vehicle mounted antennas according to IEC/IEEE 62704-2 standard. It represents a standard passenger model. The file format description and parameters relevant for simulations are provided in the Annex A of the IEC/IEEE 62704-2 standard.
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2016-09-23 | IEC/IEEE 62704-2:2017 |
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IEC/IEEE 62704-1 supplemental files
This file contains CAD models and reference results for IEC/IEEE 62704-1.
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2016-12-20 | IEC/IEEE 62704-1:2017 |
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IEEE/IEC 62209-1528 Fast SAR Wizard
This publication contains files in the form of Fast SAR Wizard to substantially increase the user-friendliness of the fast SAR testing procedure. These files are intended to be used as a complement and do not form an integral part of the publication.
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2020-11-23 | IEC/IEEE 62209-1528:2020 |
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IEC TR 62669 Annexes
Test reports referenced in IEC TR 62669:2019 annexes providing examples of the implementation of IEC 62232:2017 for base station RF exposure assessement
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2020-04-29 | IEC TR 62669:2019 |
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IEC 62232 Normalised Antenna Pattern- Figure B.24
This file contains the normalised horizontal and vertical antenna pattern data for a generic radio base station antenna at 900MHz. It may be used to validate a synthetic model and ray tracing algorithms.
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2017-08-21 | IEC 62232:2017 Ed.2 |
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IEC 62232 Compliance error probabilities
This file contains example simulations to determine the compliance error probability. It calculates probability for the surveyor conducting the evaluation, as well as an audit evaluation; to determine whether the exposure level exceeds the allowable limit at the assessor's compliance boundary.
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2017-08-21 | IEC 62232:2017 |
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IEC 62209-3 Analytical functions for Annex H
The analytical function are to be used for the evaluation of the reconstruction algorithm uncertainty; those functions verify Maxwell equations.
The volume distribution of the E-field they represent shall be the target for the reconstructed field from the data samples at the probe locations.
All the functions are normalized so that the reference peak spatial-average 1g SAR equals 1 W/kg and the target peak spatial-average 10g SAR is given in Table H.1 of the IEC PAS 63151_ED1 and IEC CDV (...)
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2018-12-16 | IEC 62209-3, IEC PAS 63151_ED1 |
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CAD files for the SAM phantom
The CAD model is for use in the basic manufacture of the SAM phantom standard test fixture and of simulation software systems by groups having the necessary expertise and resources. Four *.IGES files of inner and outer surfaces for the left and right halves extracted from the CAD model of the SAM phantom are provided. The four file names are: 1) sam_lft_in_6_11.igs 2) sam_lft_out_6_11.igs 3) sam_rt_in_6_11.igs 4) sam_rt_out_6_11.igs
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2017-09-03 | IEC 62209-1:2016; IEC 62209-3, IEC PAS 63151:2018, IEC/IEEE 62704 (all parts) |
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