IEEE 1637 2010

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IEEE Guide to Select Terminations for Shielded Alternating-Current Power Cable Rated 5 kV – 46 kV

Published By	Publication Date	Number of Pages
IEEE	2010	26

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Description

New IEEE Standard – Active. A step-by-step process for selecting an appropriate termination that is commensurate with a particular shielded power cable design is provided in this guide. Over the years, shielded power cables have been developed that employ many different insulating materials and many different shielding systems, such that, there are numerous issues to consider when selecting a termination for a particular cable design. Over the same period of time, many different termination methods and designs have been developed that serve the same purpose, but employ different application methodologies.This guide does not attempt to cover every cable and termination design, and is generally restricted to single conductor underground residential distribution (URD) and shielded power cable that have a voltage rating from 5 kV 46 kV, which includes some industrial cables. By nature, the terminations referred to in this guide are considered to be live front, in that the terminations comprise a transition from a shielded power cable system to an energizedcomponent or bus that is either bare or simply covered.

PDF Catalog

PDF Pages	PDF Title
1	IEEE Std 1637™-2010, Front cover
3	Title page
6	Introduction Notice to users Laws and regulations Copyrights Updating of IEEE documents
7	Errata Interpretations Patents Participants
9	Contents
11	1. Overview 1.1 Scope 1.2 Purpose 1.3 General
12	2. Normative references 3. Definitions
13	4. Termination 4.1 Termination theory 4.1.1 Shielded power cable configuration 4.1.2 Dielectric field
15	4.2 Parts of termination 4.2.1 Cable end seal 4.2.2 Connector
16	4.2.3 Electric stress relief
17	4.2.4 Electro-chemical track resistance 5. Mounting 5.1 Riser pole mounting
18	5.2 Structure mounting 5.3 Enclosures
19	6. Operating environment 6.1 Indoor terminations 6.2 Outdoor terminations 6.3 Highly contaminated areas
20	6.4 Radiation Exposure 7. Sizing 8. Cable preparation
21	9. Grounding 9.1 Shield Type 9.2 Fault Current 9.3 Special Features
22	10. Termination types 10.1 Tape terminations 10.1.1 High dielectric constant tapes 10.1.2 Geometric taped stress cone 10.2 Cold-shrink terminations
23	10.3 Porcelain terminations 10.4 Heat-shrink terminations 10.4.1 Stress-relief filler and stress-relief tube
24	10.4.2 Integrated stress relief 10.5 Force fit slip-on molded termination 11. Summary of selecting a termination
26	Annex A (informative)Bibliography

Additional information

Standard Title	IEEE Guide to Select Terminations for Shielded Alternating-Current Power Cable Rated 5 kV – 46 kV
Published Code	IEEE
Publication Date	2010
Pages Count	26

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IEEE 1637 2010

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