IEEE 1309-2013(Redline)

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IEEE Standard for Calibration of Electromagnetic Field Sensors and Probes (Excluding Antennas) from 9 kHz to 40 GHz (Redline)

Published By	Publication Date	Number of Pages
IEEE	2013

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Description

Revision Standard – Active. Consensus calibration methods for electromagnetic (EM) field sensors and probes are provided. Data recording and reporting requirements are given, and methods for estimating measurement uncertainty are specified.

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PDF Pages	PDF Title
1	IEEE Std 1309-2013 Front Cover
3	Title page
5	Important Notices and Disclaimers Concerning IEEE Standards Documents
8	Participants
9	Introduction
10	CONTENTS
12	Important Notice 1. Overview 1.1 Scope 1.2 Purpose
13	1.3 Other considerations and background 1.3.1 Other considerations
14	1.3.2 Background 1.4 Generic probe types
15	2. Normative references
16	3. Definitions
19	4. Measurement methods 4.1 Calibration methods 4.2 Field sensor or probe orientation during calibration 4.2.1 Directional and positional effects
20	4.2.2 Calibration data collection 4.2.2.1 General 4.2.2.2 Maximum reception alignment 4.2.2.3 Alignment parallel with the Poynting vector (PS)
21	4.2.2.4 Alignment parallel with the H-field polarization vector (PH) 4.2.2.5 Alignment parallel with the E-field polarization vector (PE)
22	5. Standard field generation methods
24	6. Calibration uncertainty 6.1 General considerations 6.2 Standard uncertainty 6.3 Combined standard uncertainty 6.4 Expanded uncertainty
25	6.5 Reporting uncertainty 7. Frequency domain calibration parameters 7.1 Dynamic range and amplitude calibration levels 7.2 Frequency response
26	7.3 Isotropy 7.4 Response time (optional)
27	7.5 Time constant (optional)
28	7.6 Modulation response (optional) 8. Procedures and measurement techniques 8.1 General 8.2 Transfer standard method 8.2.1 Transfer standard sensors and probes
29	8.2.2 Working standard sensors and probes 8.3 Frequency domain calibration procedure 8.3.1 General 8.3.2 Lead and cable effects
30	8.3.3 Frequency domain measurement procedures 8.3.3.1 Basic parameters 8.3.3.2 Frequency range and/or dynamic range measurements procedure
31	8.3.3.3 Isotropic response measurement procedures
32	8.3.4 Response time
33	8.3.5 Field sensor or probe time constant measurement
34	9. Documentation 9.1 Proper documentation 9.2 Test documentation 9.3 Calibration interval 9.4 Out-of-tolerance notification 9.5 Certification to client or end-user
36	Annex A (normative) Field generation setups and field calculation methods for probe calibrations A.1 Introduction
37	A.2 General setup and measurement requirements
42	A.3 Transfer standard method for probe calibration
43	A.4 Guided wave measurement setups and methods
57	A.5 Radiated wave measurement setups and methods
67	A.6 Magnetic field generation using Helmholtz coils, 9 kHz to 10 MHz
81	Annex B (informative) Basic information about probe types and uses for measuring various types of signals B.1 Generic probe types
84	B.2 Probe construction features affecting probe calibration and measurements
86	B.3 Other cable and readout device considerations
87	B.4 Probe responses for different types of signals
93	Annex C (informative) Minimizing probe measurement uncertainties during end use C.1 Probe orientation during end use
94	C.2 Probe fixtures C.3 Amplifier output signal purity C.4 Probe response time and measurement dwell time C.5 Probe interaction with surroundings
95	C.6 Summary of measurement uncertainty influencing factors for end use
96	Annex D (informative) Burst-peak field measurements
98	Annex E (informative) Estimating uncertainty E.1 Standard uncertainty
100	E.2 Combined standard uncertainty
101	E.3 Expanded uncertainty E.4 Reporting uncertainty
104	Annex F (informative) Bibliography

Additional information

Standard Title	IEEE Standard for Calibration of Electromagnetic Field Sensors and Probes (Excluding Antennas) from 9 kHz to 40 GHz (Redline)
Published Code	IEEE
Publication Date	2013

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IEEE 1309-2013(Redline)

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