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DD IEC PAS 62543 : DRAFT 2008

Superseded

Superseded

A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.

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DC TRANSMISSION USING VOLTAGE SOURCED CONVERTERS

Superseded date

30-06-2011

Published date

23-11-2012

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FOREWORD
1. SCOPE
    1.1 Introduction
    1.2 LIST OF LETTER SYMBOLS
    1.3 GENERAL TERMS AND DEFINITIONS RELATED TO CONVERTER
         CIRCUITS AND POLE TOPOLOGIES FOR VSC CIRCUITS
    1.4 VSC Unit Equipment
    1.5 VSC Substation Equipment
    1.6 References
2. VSC TRANSMISSION APPLICATIONS
    2.1 Introduction
    2.2 Examples of Possible VSC transmission Applications
    2.3 The Voltage Sourced Converter as a Black Box
    2.4 The Principles of Active and Reactive Power Control
    2.5 Operating Principles of a VSC transmission Scheme
    2.6 Losses
    2.7 Summary of the Basic Characteristics of VSC
         transmission
    2.8 REFERENCES
3. BASIC OPERATING PRINCIPLES OF VSC TRANSMISSION
    3.1 Introduction
    3.2 Basic Operational Principle of Two-Level Converters
    3.3 Two-Level VSC - Three-Phase Configuration
    3.4 Active and Reactive Power VSC
    3.5 VSC Control and Harmonics
    3.6 References
4. VSC TRANSMISSION TOPOLOGIES
    4.1 Introduction
    4.2 Converter Phase Unit Topologies
    4.3 Combination of Converter Phase Units
    4.4 Concluding Discussion
    4.5 References
5. VSC TRANSMISSION VALVES
    5.1 Introduction
    5.2 Semiconductors for VSC Transmission
    5.3 VSC Valve Design Considerations
    5.4 Thermal Design
    5.5 Mechanical Structure of the Valve [5-1]
    5.6 Valve Hall or Valve Enclosures
    5.7 References
6. OTHER MAIN EQUIPMENT FOR VSC TRANSMISSION SCHEMES
    6.1 Introduction
    6.2 Power Components of a VSC transmission Scheme
    6.3 VSC Substation Circuit-breaker
    6.4 AC System Side Harmonic Filters
    6.5 Radiofrequency Interference Filters
    6.6 Interface Transformers and Phase Reactors
    6.7 Converter Side Harmonic Filters and HF Blocking
         Filter
    6.8 VSC DC Capacitor
    6.9 DC Filter
    6.10 Neutral Point Grounding Branch
    6.11 DC Reactor
    6.12 Common Mode Blocking Reactor
    6.13 DC Cable and Overhead Transmission Lines
    6.14 Special Aspects for Back-to-Back DC Transmission
         Systems
    6.15 References
7. VSC CONTROL
    7.1 Introduction
    7.2 Modes of Control
    7.3 Information Requirements for Controls
    7.4 Performance of Controls
    7.5 Levels of Controls
    7.6 Coordination of Controls
    7.7 References
8. FAULT PERFORMANCE AND PROTECTION REQUIREMENTS
    8.1 Protection System Philosophy
    8.2 Type of Protection and Fault Clearing Actions
    8.3 VSC Substation Protection
    8.4 Internal Faults in the VSC Substation
    8.5 External Faults and Switching Transients on the
         AC Side
    8.6 Faults on the DC Transmission Line or Cable
    8.7 References
9. HARMONIC PERFORMANCE
    9.1 Introduction
    9.2 Wave Distortion
    9.3 Fundamental and Harmonics
    9.4 Harmonic Voltages on Power Systems Due to VSC Operation
    9.5 Design Considerations for Harmonic Filters (AC side)
    9.6 DC Side Filtering
    9.7 References
10. ENVIRONMENTAL IMPACT
    10.1 Introduction
    10.2 Audible Noise
    10.3 Visual Impact
    10.4 Electric and Magnetic Fields (EMF)
    10.5 Electromagnetic Compatibility (EMC)
    10.6 References
11. APPLICATION STUDIES
    11.1 Introduction
    11.2 Feasibility Studies
    11.3 Specification Studies
    11.4 Implementation Studies
    11.5 Modelling of the VSC Scheme
    11.6 References
12. TESTING AND COMMISSIONING
    12.1 Introduction
    12.2 The Testing and Commissioning Process
    12.3 Factory Tests
    12.4 Site Tests (Commissioning)
    12.5 References
13. LIFE-CYCLE COST
    13.1 Introduction
    13.2 Determination of the Profitability of an Investment
    13.3 Life-cycle Costing
    13.4 Benefits of Controllability
    13.5 References
14. COMPARISON OF LINE COMMUTATED CONVERTER AND VSC
    14.1 Introduction
    14.2 Differences Resulting from the Commutation Principle
    14.3 Differences Resulting from the Source Type
    14.4 Summary
    14.5 References
15. VSC TRANSMISSION OUTLOOK
    15.1 Introduction
    15.2 Future Trends
    15.3 References
16. CONCLUSION
APPENDIX A: LIST OF VSC TRANSMISSION SCHEMES
APPENDIX B: FUNCTIONAL SPECIFICATION FOR A VSC TRANSMISSION
            SYSTEM
1. Introduction
2. Utility and Manufacturer Information Requirements
    2.1 General Requirements
    2.2 Power System Characteristics
    2.3a DC Line/Cable (In case of Turnkey, supplied by the
         converter manufacturer)
    2.3b DC Line/Cable (Not supplied by the converter
         manufacturer)
    2.4 Steady-State Performance
    2.5 Dynamic Performance, Control and Monitoring Facilities
    2.6 Maintenance and Spares
    2.7 Site and Environmental
    2.8 Factory and Commissioning Tests
    2.9 Other Considerations
3. Equipment Design Standards
APPENDIX C: OVERVIEW OF LINE COMMUTATED CONVERTER BASED, HVDC
1. Introduction
2. System Configuration
    2.1 Converters
    2.2 Converter Transformers
    2.3 Harmonic Filters
    2.4 Shunt Capacitors
    2.5 DC Reactors
    2.6 DC Connections
3. HVDC System Control and Operating Characteristics
4. List of LCC HVDC Schemes
5. References

Specifies the VSC transmission technology, with a particular view to the issues to be considered when it is applied at voltages above 100 kVdc, and power in excess of 100 MW. It provides information about the equipment included in a VSC transmission scheme, as well as the characteristics and performance that can be expected.

Committee
PEL/22
DocumentType
Draft
PublisherName
British Standards Institution
Status
Superseded
SupersededBy

Standards Relationship
IEC PAS 62543:2008 Identical

IEEE 519-2014 REDLINE IEEE Recommended Practice and Requirements for Harmonic Control in Electric Power Systems
EN 50160 : 2010 AMD 1 2015 VOLTAGE CHARACTERISTICS OF ELECTRICITY SUPPLIED BY PUBLIC ELECTRICITY NETWORKS
IEC 60056:1987 High-voltage alternating-current circuit-breakers
IEC TR 61000-2-1:1990 Electromagnetic compatibility (EMC) - Part 2: Environment - Section 1: Description of the environment - Electromagnetic environment for low-frequency conducted disturbances and signalling in public power supply systems
IEC 60633:1998+AMD1:2009+AMD2:2015 CSV Terminology for high-voltage direct current (HVDC) transmission
IEC 61000-4-7:2002+AMD1:2008 CSV Electromagnetic compatibility (EMC) - Part 4-7: Testing and measurement techniques - General guide on harmonics and interharmonics measurements and instrumentation, for power supply systems and equipment connected thereto
IEC TR 61000-3-6:2008 Electromagnetic compatibility (EMC) - Part 3-6: Limits - Assessment of emission limits for the connection of distorting installations to MV, HV and EHV power systems

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