IEEE 1662 2009

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IEEE Guide for the Design and Application of Power Electronics in Electrical Power Systems on Ships

Published By	Publication Date	Number of Pages
IEEE	2009	72

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Description

New IEEE Standard – Active. This document summarizes current electrical engineering methods and practices for applying power electronics in Electrical Power Systems on Ships. It describes analytical methods, preferred parameters and performance characteristics from a common frame of reference for reliable integrated marine electrical power systems

PDF Catalog

PDF Pages	PDF Title
1	IEEE Std 1662-2008 Front Cover
3	Title Page
4	Abstract/Keywords
6	Introduction Notice to users Laws and regulations Copyrights Updating of IEEE documents
7	Errata Interpretations Patents Participants
10	Contents
13	Important Notice 1. Overview 1.1 Scope
14	1.2 Purpose 1.3 Limitations 1.4 Equipment covered by this guide 1.5 Guide for users
15	2. Normative references
16	3. Definitions, acronyms, and abbreviations 3.1 Definitions
17	3.2 Acronyms and abbreviations 4. Power electronics equipment applications 4.1 Types of system-level functions
19	4.2 Typical applications
26	5. General requirements
27	5.1 System voltages
28	5.2 Power rating
29	5.3 Impact of system grounding on power electronics
30	5.4 Duty cycle 5.5 Efficiency 5.6 No-load losses 5.7 Overload 5.8 Stress limits and derating factors
31	5.9 Power quality requirements 5.10 Protection requirements
32	5.11 Surge voltage withstanding capability 6. Design requirements 6.1 Size and weight
33	6.2 Reliability and maintainability requirements 6.3 Dynamics requirements
34	6.4 Power electronics equipment local controllers
35	6.5 Software
36	6.6 Isolating means 6.7 Fuses 6.8 Solid-state power electronics switches and circuit breakers
37	6.9 Heat dissipation requirements 6.10 Environmental design requirements
39	6.11 Electromagnetic effects 6.12 Data communication standards and capability 6.13 Control circuits and communications wiring
40	6.14 Enclosures
41	6.15 Design for safety
42	6.16 Fire-fighting measures 6.17 Regenerated power 6.18 Nameplate
43	6.19 Clearance and creepages
44	6.20 Power cable terminations 6.21 Network and control cable terminations 6.22 Quality assurance 7. Recommendations for system studies and analysis
45	7.1 Examples of required technical information, data, and models
46	7.2 Power system behavior and performance 7.3 System-driven requirements
48	7.4 Power quality and quality of service
49	8. Power electronics equipment analysis and design 8.1 Introduction 8.2 Converter functions and power topologies
51	8.3 Converter system-level design
52	8.4 Equipment-level analysis and recommended models
54	9. Testing, certification, and inspection 9.1 General 9.2 Special testing for medium-voltage power electronics
55	9.3 Special additional testing for vessels in some marine sectors
57	Annex A (informative) Bibliography
61	Annex B (informative) Power semiconductors stress limits
64	Annex C (informative) Grounding of marine systems
66	Annex D (informative) Models for design and analysis

Additional information

Standard Title	IEEE Guide for the Design and Application of Power Electronics in Electrical Power Systems on Ships
Published Code	IEEE
Publication Date	2009
Pages Count	72

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IEEE 1662 2009

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