IEEE 575-2014

Current

Current The latest, up-to-date edition.

IEEE Guide for Bonding Shields and Sheaths of Single-Conductor Power Cables Rated 5 kV through 500 kV

Available format(s): Hardcopy, PDF

Language(s): English

Published date: 18-09-2014

Publisher: Institute of Electrical & Electronics Engineers

Table of Contents - (Show below) - (Hide below)

1 Overview
2 Normative references
3 Definitions
4 Background
5 Shield optimization
6 Special bonding techniques
7 Sheath voltage limiters
8 Effect on parallel communication and control
  cables
Annex A (informative) - Bibliography
Annex B (informative) - Discussion of early
        practices and problems
Annex C (informative) - Current practice for
        shield/sheath standing voltages
Annex D (informative) - Calculation of induced
        voltages
Annex E (informative) - Transient voltages and
        voltage withstand requirements of
        protective jackets
Annex F (informative) - Current and voltage
        distribution on cable shields/sheaths with
        multiple cables per phase

Abstract - (Show below) - (Hide below)

The most common shield/sheath-bonding systems now in use on medium through extra high-voltage (5 kV to 500 kV) single-conductor shielded power cables and the methods of calculating the corresponding shield/sheath voltages and currents, when the cables are operated as part of a three-phase system, with the neutral grounded directly or through an impedance, are described in this guide.

General Product Information - (Show below) - (Hide below)

Committee	Insulated Conductors
Document Type	Standard
ISBN
Pages
Published
Publisher	Institute of Electrical & Electronics Engineers
Status	Current
Supersedes	IEEE 575-1988

Standards Referenced By This Book - (Show below) - (Hide below)

IEEE DRAFT C62.22 : D8 2005	GUIDE FOR THE APPLICATION OF METAL-OXIDE SURGE ARRESTERS FOR ALTERNATING-CURRENT SYSTEMS
IEEE 1242-1999	IEEE Guide for Specifying and Selecting Power, Control, and Special-Purpose Cable for Petroleum and Chemical Plants
IEEE 525-2007	IEEE Guide for the Design and Installation of Cable Systems in Substations
CSA C22.2 No. 241 : 0	IEEE STANDARD FOR CABLE JOINTS FOR USE WITH EXTRUDED DIELECTRIC CABLE RATED 5000-138000 V AND CABLE JOINTS FOR USE WITH LAMINATED DIELECTRIC CABLE RATED 2500-500000 V
IEEE DRAFT 525 : D15 2006	DESIGN AND INSTALLATION OF CABLE SYSTEMS IN SUBSTATIONS
IEEE DRAFT 404 : D13 2006	EXTRUDED AND LAMINATED DIELECTRIC SHIELDED CABLE JOINTS RATED 2500 V - 500 000 V
IEEE 1816-2013	IEEE Guide for Preparation Techniques of Extruded Dielectric, Shielded Cables Rated 2.5 kV through 46 kV and the Installation of Mating Accessories
IEEE 3001.5-2013	IEEE Recommended Practice for the Application of Power Distribution Apparatus in Industrial and Commercial Power Systems
IEEE 45.8-2016	IEEE Recommended Practice for Electrical Installations on Shipboard--Cable Systems
IEEE 532-2007 REDLINE	IEEE Guide for Selecting and Testing Jackets for Power, Instrumentation, and Control Cables
CSA C22.3 No. 7 : 2015	UNDERGROUND SYSTEMS
IEEE 141 : 1993	IEEE Recommended Practice for Electric Power Distribution for Industrial Plants
IEEE 241 : 1990	ELECTRIC POWER SYSTEMS IN COMMERCIAL BUILDINGS
IEEE 404-2012	IEEE Standard for Extruded and Laminated Dielectric Shielded Cable Joints Rated 2.5 kV to 500 kV
IEEE 525-2016 REDLINE	IEEE Guide for the Design and Installation of Cable Systems in Substations
IEEE 404-2022	IEEE Standard for Extruded and Laminated Dielectric Shielded Cable Joints Rated 2.5 kV to 500 kV

Standards Referencing This Book - (Show below) - (Hide below)

IEC 60287-1-3:2002	Electric cables - Calculation of the current rating - Part 1-3: Current rating equations (100 % load factor) and calculation of losses - Current sharing between parallel single-core cables and calculation of circulating current losses
ICEA P 32 382 : 2007(R2018)	SHORT CIRCUIT CHARACTERISTICS OF INSULATED CABLES
IEEE C2-2017	NATIONAL ELECTRICAL SAFETY CODE (NESC)(R)

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