IEEE C95.7-2022(Redline)

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IEEE Standard for Electromagnetic Energy Safety Programs, 0 Hz to 300 GHz (Redline)

Published By	Publication Date	Number of Pages
IEEE	2022	139

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Description

Revision Standard – Active. The required elements for developing, implementing, and administering effective electromagnetic energy (EME) safety programs (SPs) to achieve compliance with applicable human exposure limits are specified. Concomitant EME hazards, such as those caused by interference to medical devices, ignition of flammable atmospheres, and detonation of explosive devices, are also addressed. Well-established safety processes are used to manage potential EME hazards from known EME sources in the 0 Hz to 300 GHz frequency range. SP elements for identifying EME hazard locations, implementing needed controls, and training personnel, are included. Additional descriptions and examples of the SP elements and various factors that can be helpful when assessing potential hazards and creating SPs are annexed. (NOTE: The PDF of this standard is available at no charge via the IEEE GET program, compliments of the United States Air Force, United States Army, United States Navy, and United States Marine Corps https://ieeexplore.ieee.org/browse/standards/get-program/page/series?id=82)

PDF Catalog

PDF Pages	PDF Title
1	IEEE Std C95.7™-2022 Front Cover
2	Title page
4	Important Notices and Disclaimers Concerning IEEE Standards Documents Notice and Disclaimer of Liability Concerning the Use of IEEE Standards Documents
5	Translations Official statements Comments on standards Laws and regulations
6	Data privacy Copyrights Photocopies Updating of IEEE Standards documents Errata
7	Patents IMPORTANT NOTICE
8	Participants
10	Introduction
12	Contents
14	1. Overview 1.1 Scope 1.2 Purpose
15	1.3 Background to this revision 1.4 Structure of this document 1.5 Word usage
16	2. Normative references 3. Definitions, acronyms, and abbreviations 3.1 Definitions
25	3.2 Acronyms and abbreviations
27	3.3 Letter symbols for quantities
28	3.4 Unit symbols 3.5 Frequency bands
29	4. Required elements of a safety program 4.1 Context
31	4.2 General requirements
33	4.3 Applicability of the standard
34	4.4 EME safety program elements
39	4.5 EME safety program administration
44	4.6 EME hazard assessment (human exposure)
45	4.7 Safety program controls
56	4.8 EME awareness education and EME safety training
59	4.9 Response to EME overexposure incidents
61	5. Safety program development 5.1 General principles of safety program development
62	5.2 A roadmap for developing, implementing, and maintaining an EME safety program
64	5.3 Hazard determination
66	5.4 Mapping and categorizing
67	5.5 Population identification process
68	5.6 Establishment of controls
71	5.7 Documenting the process and composing the safety program
72	5.8 Implement, monitor, and maintain the SP
73	Annex A (informative) Electromagnetic environmental safety barrier characteristics and use A.1 Introduction A.2 Application of barriers
74	A.3 Exposure risk assessment A.4 Definitions of EME safety barriers
75	A.5 Hierarchy of barrier (controls) implementation
76	A.6 Design considerations A.7 Recommendations and conclusions
77	A.8 Joint responsibilities
78	Annex B (informative) Example references for developing an EME safety program B.1 General B.2 References that include exposure limits and the EME hazards they address
80	B.3 Overview of IEEE Std C95.3-2021 on measurements and computations B.3.1 General B.3.2 Field strength measurements B.3.3 Instrumentation B.3.4 Calibration
81	B.3.5 Measurement techniques B.3.6 Computations
82	B.3.7 Field calculations B.3.8 Induced current calculations B.3.9 Interpretation
83	Annex C (informative) Concomitant EME hazards C.1 Introduction C.2 Establishing the SP scope C.2.1 Overview to establishing the SP scope
84	C.2.2 Pre-assessment process
86	C.3 Electromagnetic interference (EMI) C.3.1 General C.3.2 EMI to medical devices and equipment
89	C.3.3 EMI to non-medical electronics C.4 Electro-explosive device, explosives, and munitions C.4.1 Hazard description and some relevant references C.4.2 Approach to defining and implementing an SP for electro-explosive devices, explosives, and munitions
90	C.5 Ignition of flammable atmospheres C.5.1 Hazard description and some relevant references C.5.2 Approach to defining and implementing an SP for flammable atmospheres
91	C.6 Electrical power phenomena C.7 Static magnetic field interactions
93	Annex D (informative) Identifying EME sources and categorization of exposure environments D.1 General D.1.1 Overview D.1.2 Potentially relevant information
94	D.2 Potential maximum EME exposure and exposure environment categorization
95	D.3 Examples of how environments might be designated using EME exposure categories D.3.1 General
96	D.3.2 Rooftop telecommunications site
98	D.3.3 Pole-mounted small cell base station
100	D.3.4 FM and TV broadcast site
103	D.3.5 RF dielectric heat sealer facility
104	Annex E (informative) Example ranking of SP responsibilities
106	Annex F (informative) Topics for inclusion in EME awareness education and EME safety training F.1 Basics in EME awareness education and EME safety training
109	F.2 Topics for in-depth EME safety training for ESOs, safety managers and/or supervisors
112	Annex G (informative) Examples of key aspects of SPs for exemplary exposure scenarios G.1 General G.2 Example EME exposure scenarios and example elements for corresponding SPs
120	G.3 Example short RF safety program for an FM broadcast tower
126	G.4 Use of site-specific guidance in EME safety sheets G.4.1 General
128	G.4.2 Signage supplementing training – restricted environment examples
130	Annex H (informative) Example report of potential SP non-conformance or EME overexposure
132	Annex I (informative) Bibliography