IEEE 1662-2023

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IEEE Recommended Practice for the Design and Application of Power Electronics in Electrical Power Systems (Approved Draft)

Published By	Publication Date	Number of Pages
IEEE	2023

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Description

Revision Standard – Active. Recommendations and requirements for the design and applications of power electronics in land-based (onshore) and marine (offshore) electrical power systems are provided in this standard. A wide range of power electronics equipment with aggregated power ratings at and above 100 kW with voltages equal to or less than 52 kV (ac) or (dc) is covered. Existing engineering practices, analytical methods, and performance characteristics are described. Applicable international and local standards are referenced with appropriate guidance to provide users of the standard with correct criteria for design, testing, and maintenance necessary for reliable operation of integrated power systems.

PDF Catalog

PDF Pages	PDF Title
1	IEEE Std 1662™-2023 Front cover
2	Title page
4	Important Notices and Disclaimers Concerning IEEE Standards Documents
8	Participants
10	Introduction
11	Contents
13	1. Overview 1.1 Scope 1.2 Purpose 1.3 Word usage
14	1.4 Limitations 1.5 Equipment covered by this standard 1.6 Guide for users
15	2. Normative references
17	3. Definitions, acronyms, and abbreviations 3.1 Definitions
18	3.2 Acronyms and abbreviations
19	4. Power electronics (PE) equipment applications 4.1 Types of system-level functions
20	4.2 Recommended PEBB architecture for PE applications
21	4.3 Land-based (onshore) and marine (offshore) power systems differences
22	5. General requirements 5.1 Introduction 5.2 Power rating
24	5.3 Current requirements
25	5.4 PE grounding
26	5.5 Efficiency
27	5.6 Stress limits and derating factors 5.7 Power quality requirements 5.8 Protection requirements
28	5.9 Surge withstand performance 5.10 Interoperability requirements
29	5.11 Cyber security requirements 6. Design requirements 6.1 General
30	6.2 Nameplate 6.3 Dynamics requirements 6.4 Reliability and maintainability requirements
31	6.5 Environmental design requirements
32	6.6 Electromagnetic effects
33	6.7 Enclosures 6.8 Size and weight
34	6.9 Design for safety
35	6.10 PE local controllers
36	6.11 Software
37	6.12 Quality assurance 6.13 System design requirements for testing 6.14 Solid-state PE switches and circuit breakers 6.15 Marine applications specific design parameters
38	7. Recommendations for system studies and analysis 7.1 General
39	7.2 Examples of required technical information, data, and models
40	7.3 System-driven requirements
41	8. Testing, inspection, and maintenance 8.1 Testing 8.2 Burn-in testing
42	8.3 Full and partial conformance testing and verification 8.4 EMI testing 8.5 Vibration testing 8.6 Temperature testing
43	8.7 Harmonics testing 8.8 Interoperability conformance testing 8.9 Additional special testing 8.10 Performance of tests
44	8.11 Marine PE testing
45	9. Inspections, periodic surveillance tests, and maintenance
46	Annex A (informative) Bibliography
50	Annex B (informative) PE analysis and design models B.1 Introduction B.2 Converter functions and power topologies
52	B.3 Converter system-level design
53	B.4 Equipment-level analysis and recommended models
55	B.5 Model classifications
57	B.6 Model review
59	B.7 Case analysis
62	Annex C (informative) Stress limits of power semiconductors
65	Annex D (informative) Power quality and quality of service D.1 Power quality D.2 Quality of service (QOS)
67	Annex E (informative) Grounding of marine systems
70	Back cover

Additional information

Standard Title	IEEE Recommended Practice for the Design and Application of Power Electronics in Electrical Power Systems (Approved Draft)
Published Code	IEEE
Publication Date	2023

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IEEE 1662-2023

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