New IEEE Standard – Active. Safe and reliable methods for the electrical protection of telecommunication facilities serving electric supply locations through the use of metallic wire-line components in part of the telecommunication circuit and optical fiber systems in the remainder of the telecommunication circuit are presented in this standard. Hybrid applications have an equipment junction between the metallic wire-line and the fiber cable, i.e., a wire-linefiber cable junction (CFJ).

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PDF Pages	PDF Title
1	IEEE Std 487.3-2014 Front Cover
3	Title page
4	AbstractKeywords
5	Important Notices and Disclaimers Concerning IEEE Standards Documents
8	Participants
10	Introduction
11	Contents
13	IMPORTANT NOTICE 1. Overview
14	1.1 Scope 1.2 Purpose 2. Normative references
15	3. Definitions, abbreviations and acronyms 3.1 Definitions
16	3.2 Abbreviations and acronyms
17	4. Overview of telecommunications service to electric supply locations
18	4.1 Electric power stations 4.2 Wireless service sites 4.3 Service via metallic wire-line facilities 4.4 Service via optical fiber facilities
19	4.5 Service via microwave systems 4.6 Responsibilities 5. Hybrid fiber-optic isolation systems
20	5.1 Topologies for hybrid optical fiber isolation systems
23	6. Telecommunications service to electric supply locations
24	6.1 Voltage protection levels
25	6.2 Locations at or near high-voltage towers or poles 6.3 Electrical protection considerations for telecommunications outside plant serving high-voltage tower and pole sites
26	6.4 Electrical protection measures 6.4.1 All-dielectric optical fiber cable 6.4.2 Optical fiber cable with metallic members 6.5 Typical grounding 6.5.1 Electric power stations 6.5.2 Typical grounding at power line structures such as towers or poles
27	6.5.3 Typical grounding requirements for BTS
28	7. Telecommunications service to electric supply locations—recommendations 7.1 GPR-related protection considerations 7.2 Induction-related protection considerations 7.3 Benefits of all-dielectric cables
29	8. Design recommendations for CFJ installations 8.1 CFJ at electric power stations
30	8.2 CFJ located outside the ZOI of an electric supply location 8.3 CFJ located within the ZOI of an electric supply location
31	8.4 Conditional deployment of CFJ with electronics or pair protection that requires grounding by design 8.4.1 Installation configuration 1: voltage level II protection (SPO Classes B and C)
32	8.4.2 Installation configuration 2: voltage level III protection 8.4.3 Protection configuration for topology 4: MGN network 8.4.4 Constraints at the CFJ/FIP location
33	8.5 Conditional deployment of CFJ with electronics or pair protection that does not require grounding by design
35	9. Powering arrangements at electric supply locations
36	9.1 Typical ac power service to wireless locations at power line towers or poles 9.2 Distribution transformers 9.3 Electrostatic coupling
37	9.4 Engine generating units 10. Typical dc powering arrangements at OEI and CFJ
39	10.1 Wire-line–fiber cable junction (CFJ)
43	10.2 Remote end and OEI 11. Construction concerns and general recommendations 11.1 Existing facilities
44	11.2 Locating buried all-dielectric optical fiber cable 12. Installation and inspection considerations 12.1 Installation considerations 12.2 Inspection considerations 13. Safety 13.1 General safety considerations
45	13.2 Electrical safety 13.3 Radio frequency (RF) safety awareness
46	13.3.1 General guidelines
47	Annex A (informative) Bibliography
50	Annex B (informative) Locating buried cables
57	Back Cover

Published By	Publication Date	Number of Pages
IEEE	2014	57


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Standard Title	IEEE Standard for the Electrical Protection of Communication Facilities Serving Electric Supply Locations Through the Use of Hybrid Facilities
Published Code	IEEE
Publication Date	2014
Pages Count	57

IEEE 487.3 2014

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