This part of IEC 61967 provides guidance for exchanging data generated by near-field scan measurements.

The described exchange format could also be used for near-field scan data generated by simulation or computation software. It should be noted that, although it has been developed for near-field scan, its use is not restricted to this application. The exchange format can be applied to emission and immunity near-field scan data in the frequency and time domains.

The scope of this technical report includes neither the methods used for the measurements or simulations, nor the software and algorithms used for generating the exchange file or for processing or viewing the data contained therein.

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PDF Pages	PDF Title
4	CONTENTS
7	FOREWORD
9	INTRODUCTION
10	1 Scope 2 Normative references 3 Terms, definitions and abbreviations 3.1 Terms and definitions
11	3.2 Abbreviations 4 General syntax rules and guidelines 4.1 General 4.2 XML requirements 4.2.1 General 4.2.2 XML declaration 4.2.3 XML elements
12	4.2.4 Root element 4.2.5 Comments 4.2.6 Line terminations 4.2.7 Element hierarchy
13	4.3 Keyword requirements 4.3.1 General 4.3.2 Keyword characters 4.3.3 Keyword syntax
14	4.3.4 Root element keywords 4.4 File structure 4.4.1 General 4.4.2 File names 4.4.3 File paths 4.4.4 Single XML file 4.4.5 Multiple XML files
15	4.4.6 Separate data files 4.4.7 Additional files 4.4.8 File compression Figures Figure 1 – Multiple XML files
16	4.5 Values 4.5.1 General Figure 2 – XML files with data files Figure 3 – Additional files
17	4.5.2 Numerical value syntax 4.5.3 Numerical value with units syntax 4.5.4 Text string 4.5.5 Valid units
18	4.6 Coordinate systems 4.6.1 General 4.6.2 Cartesian coordinate system Tables Table 1 – Valid logarithmic units
19	4.6.3 Cylindrical coordinate system Figure 4 – Right-hand Cartesian coordinate system Figure 5 – Left-hand Cartesian coordinate system
20	4.6.4 Spherical coordinate system Figure 6 – Cylindrical coordinate system
21	4.6.5 Coordinate offsets Figure 7 – Spherical coordinate system
22	4.6.6 Image coordinates Figure 8 – Offsets and image positioning (right-hand Cartesian)
23	4.7 Field type and orientation Figure 9 – Offsets and image positioning (left-hand Cartesian)
24	Figure 11 – Field orientation – Right-hand Cartesian coordinate system Figure 12 – Field orientation – Left-hand Cartesian coordinate system
25	Figure 13 – Field orientation – Cylindrical coordinate system Figure 14 – Field orientation – Spherical coordinate system
26	4.8 Data syntax 4.8.1 General 4.8.2 Data arrangement Table 2 – Relationship between azimuth, zenith angles and field component
27	4.8.3 Data with coordinate information 4.8.4 Data without coordinate information Table 3 – Permitted values for the keyword: Coordinates
28	4.8.5 Data format 4.8.6 Data notation
29	Table 4 – Order of measurement points when coordinates are not included
30	4.9 Probe factor
31	Table 5 – Probe factor linear units Table 6 – Probe factor logarithmic units
32	4.10 Images 4.10.1 General 4.10.2 Image file types 4.10.3 Image file name and path 4.11 3D objects 4.11.1 General 4.11.2 3D object file types 4.11.3 3D object file name and path 4.11.4 3D map object file name and path
33	Annex A (informative) Example files A.1 Minimum default file A.1.1 Example file A.1.2 Default value description
34	A.2 File with magnitude and angle data A.2.1 Example file A.2.2 Default value description
35	A.3 File with field azimuth and zenith orientation A.3.1 Example file A.3.2 Default value description
36	A.4 File with optimised field azimuth orientation A.4.1 Example file A.4.2 Default value description
37	A.5 File with piece-wise linear time domain data in a separate binary file A.5.1 Example file A.5.2 Default value description A.6 File without coordinate information A.6.1 Example file
38	A.6.2 Default value description A.7 File for immunity scan with multiple criteria A.7.1 Example file Table A.1 – Data matrix
39	A.7.2 Default value description
40	A.8 File for emission scan with probe factor A.8.1 Example file A.8.2 Default value description Table A.2 – Magnetic field strength for emission
41	A.9 File for immunity scan with probe factor A.9.1 Example file A.9.2 Default value description Table A.3 – Magnetic field strength for immunity
42	A.10 File with image and 3D image A.10.1 Example file A.10.2 Default value description Figure A 1 – Example .obj file
43	A.11 File with plane rotation Figure A.2 – Coordinates in DUT reference plane
44	A.12 Emission scan in several XML files Figure A.3 – Coordinates in the measurement reference plane
46	Annex B (normative) Valid keywords B.1 General B.2 File header keywords B.3 Global keywords B.4 Component section keywords
47	B.5 Setup section keywords
48	B.6 Probe section keywords B.7 Data section keywords
51	Annex C (normative) Keyword usage rules Table C.1 – File header keywords
52	Table C.2 – Global keywords
53	Table C.3 – Component section keywords
55	Table C.4 – Setup section keywords
58	Table C.5 – Probe section keywords
60	Table C.6 – Data section keywords
65	Bibliography

Status	Definitive
Pages	68
Publication Date	2015-09-30
ISBN	978 0 580 86204 5
Standard Number	PD IEC/TR 61967-1-1:2015
Title	Integrated circuits. Measurement of electromagnetic emissions – General conditions and definitions. Near-field scan data exchange format
Identical National Standard Of	IEC TR 61967-1-1:2015
Replaces	PD IEC/TR 61967-1-1:2010
Descriptors	Radio disturbances, Integrated circuits, Electromagnetic fields, Data representation, Circuits, Emission, Electronic equipment and components, Information exchange, Noise (spurious signals), XML, Electrical measurement, Data transfer, Data processing, Electromagnetic radiation
Publisher	BSI
Committee	EPL/47
ICS Codes	31.200 - Integrated circuits. Microelectronics


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