IEEE 1100 2006

$100.21

IEEE Recommended Practice for Powering and Grounding Electronic Equipment

Published By	Publication Date	Number of Pages
IEEE	2006	603

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Description

Revision Standard – Active. The IEEE Emerald Book(TM) presents a collection of consensus best practices for thepowering and grounding of electronic equipment used in commercial and industrial applications.The main objective is to provide consensus recommended practices in an area where conflictinginformation and conflicting design philosophies have dominated. The recommended practicesdescribed are intended to enhance equipment performance while maintaining a safe installation. Adescription of the nature and origin of power disturbances is provided, followed by theory on thevarious parameters that impact power quality. Information on quantifying and resolving power andgrounding related concerns using measurement and diagnostic instrumentation and standardizedinvestigative procedures are included. Recommended power protection equipment and wiring andgrounding system design practices are presented. Information on telecommunications systempower protection as well as grounding, industrial system grounding, and noise control is included.Finally a selection of case studies are presented to support the recommended practices presentedthroughout the book.

PDF Catalog

PDF Pages	PDF Title
1	IEEE Std 1100-2005
3	IEEE Recommended Practice for Powering and Grounding Electronic Equipment
4	Abstract/Keywords
5	Acknowledgments
7	Introduction
8	Participants
11	Contents
15	Chapter 1 Overview 1.1 Scope 1.2 Purpose 1.3 Background
16	1.4 Text organization
18	1.5 Bibliography
19	Chapter 2 Definitions 2.1 Introduction 2.2 Alphabetical listing of terms
27	2.3 Words avoided
28	2.4 Acronyms and abbreviations
32	2.5 Normative references
33	2.6 Bibliography
35	Chapter 3 General needs guidelines 3.1 Introduction
37	3.2 Power quality considerations
47	3.3 Grounding considerations
52	3.4 Protection of susceptible equipment
54	3.5 Information technology equipment (ITE)
60	3.6 Shielded, filtered, enclosed EMI/EMC areas
61	3.7 Safety systems
62	3.8 Coordination with other codes, standards, and agencies
64	3.9 Normative references
65	3.10 Bibliography
67	Chapter 4 Fundamentals 4.1 Introduction
68	4.2 Electric power supplier’s distribution system voltage disturbances
70	4.3 Voltage disturbances—subtractive
77	4.4 Voltage surges and interference—Additive
95	4.5 Steady-state voltage/current wave shape distortion
112	4.6 High- and low-frequency regimes defined
117	4.7 Impedance considerations
135	4.8 Grounding subsystems
164	4.9 Shielding concepts
168	4.10 Surge protective devices
172	4.11 Normative references 4.12 Bibliography
177	Chapter 5 Instrumentation 5.1 Introduction 5.2 Range of available instrumentation 5.3 Voltage and current measurements
183	5.4 Descriptions of site survey tools
190	5.5 Measurement considerations
193	5.6 Normative references 5.7 Bibliography
195	Chapter 6 Site surveys and site power analyses 6.1 Introduction 6.2 Objectives and approaches
196	6.3 Coordinating involved parties
197	6.4 Conducting a site survey
215	6.5 Harmonic current and voltage measurements
216	6.6 Applying data to select cost-effective solutions
217	6.7 Long-term power monitoring 6.8 Conclusions
218	6.9 Normative references
219	6.10 Bibliography
221	Chapter 7 Specification and selection of equipment and materials 7.1 Introduction 7.2 Commonly used power correction devices
250	7.3 Equipment specifications
257	7.4 Procurement specifications
260	7.5 Verification testing
262	7.6 Equipment maintenance
264	7.7 Bibliography
267	Chapter 8 Recommended design/installation practices 8.1 Introduction
268	8.2 Equipment room wiring and grounding
269	8.3 Electrical power system selection considerations
276	8.4 Equipment selection and installation considerations
293	8.5 Grounding considerations
314	8.6 Lightning/surge protection considerations
318	8.7 380 Hz to 480 Hz systems
321	8.8 Normative references
322	8.9 Bibliography
325	Chapter 9 Telecommunications, information technology, and distributed computing 9.1 Introduction
328	9.2 Vulnerability concerns vs. immunity
330	9.3 Environmental exposure 9.4 Industry guidelines 9.5 General compliance
332	9.6 Principles for establishing recommended practices
334	9.7 General considerations
335	9.8 Powering
384	9.9 Grounding and bonding
435	9.10 Evaluations and audits
437	9.11 Normative references
438	9.12 Bibliography
440	Annex 9A (normative) General
450	Annex 9B (normative) Nomenclature
453	Annex 9C (informative) List of telecommunications-related industry guidelines
483	Annex 9D (informative) Trends and changing responsibilities
489	Annex 9E (informative) Background on telecommunications
494	Annex 9F (normative) Industry-described telecommunications surge environment
510	Annex 9G (informative) Impact of technology convergence on ac and dc powering
512	Annex 9H (informative) Factors in selecting large-scale ac and dc power
518	Annex 9I (informative) Highlights of ANSI T1.311 requirements for dc power systems
520	Annex 9J (informative) Understanding telecommunications circuit protection
528	Annex 9K (normative) Fundamental concepts on surge protection
533	Annex 9L (informative) Additional information on surge protection
543	Chapter 10 Industrial systems 10.1 Introduction 10.2 Basic noise control theory
550	10.3 Method of analysis
551	10.4 Recommended practices
573	10.5 Distance, long power cable runs 10.6 Bibliography
575	Chapter 11 Case histories 11.1 Introduction 11.2 Typical utility-sourced power quality problems
577	11.3 Premises switching generated surges
578	11.4 Electronic loads
580	11.5 Premises-wiring-related problems
586	11.6 Transient voltage surge suppression network design—primary and secondary network design
587	11.7 Typical radiated EMI problems
588	11.8 Flicker 11.9 Typical electrical inspection problems
589	11.10 Typical life-safety system problems
590	11.11 Typical misapplication of equipment problems 11.12 Normative references 11.13 Bibliography
591	Index A–C
592	C–D
593	D–E
594	E–G
595	G–I
596	I–L
597	L–O
598	O–P
599	P–R
600	R–S
601	S–T
602	T–U
603	V–W