IEEE 1124 : 2003
Withdrawn
A Withdrawn Standard is one, which is removed from sale, and its unique number can no longer be used. The Standard can be withdrawn and not replaced, or it can be withdrawn and replaced by a Standard with a different number.
GUIDE FOR ANALYSIS AND DEFINITION OF DC SIDE HARMONIC PERFORMANCE OF HVDC TRANSMISSION SYSTEMS
17-10-2023
05-09-2003
1. Overview
1.1 Scope
1.2 Purpose
2. References
3. Explanation of terms
3.1 DC harmonics
3.2 Ideal converter
3.3 Harmonic order
3.4 Characteristic/noncharacteristic harmonics
3.5 Triplen harmonics
3.6 Equivalent disturbing current (I[eq])
3.7 Harmonic performance
3.8 DC harmonic filtering system
3.9 Induced noise/interference
3.10 Inductive coordination
3.11 Ground resistivity
3.12 System imbalances
3.13 Bipolar mode of operation
3.14 Monopolar mode of operation
3.15 Sequence components
3.16 C message weighting
3.17 Circuit noise (noise-metallic)
3.18 Longitudinal noise
3.19 Noise-to-ground
3.20 Power influence (PI)
3.21 Longitudinal balance
4. General methodology
4.1 Pre-specification studies
4.2 Power system studies
4.3 Communication and coordination studies
4.4 Commissioning studies
4.5 In-service studies
5. DC harmonics
5.1 Introduction
5.2 Behavior of an ideal converter
5.3 Modeling of converter for dc harmonic analysis
5.4 Calculation of harmonic driving voltages
5.5 Calculation of harmonic currents
5.6 Harmonic current flow
6. Induced noise analysis
6.1 Basic theory
6.2 Equivalent disturbing current
6.3 Calculation of mutual impedance
6.4 Calculation of frequency dependency (H[n])
6.5 Application of the equivalent disturbing current
method
7. Mitigation
7.1 Introduction
7.2 Mitigation methods
7.3 Mitigation examples
8. DC filter performance specification
8.1 Description of the dc system
8.2 Basic data to be considered for harmonic calculation
8.3 Methods for harmonic calculation
8.4 Performance requirements
8.5 Bid information
8.6 DC-side harmonic field measurement
9. HVDC filter performance measurements
9.1 Test probes
9.2 Direct measurement of current
9.3 Measurement of driving voltages
10. Review of specification and performance of dc filters for
the recent HVDC projects
10.1 Filter performance specification
10.2 Performance values actually agreed
10.3 Performance values actually measured with the system
in operation
10.4 Mitigation methods used to solve interference
problems
Annex A (informative) Bibliography
This guide is expected to provide definitions, methodology for analysis of dc system harmonics and its effects, and cd filter performance requirements.
| DevelopmentNote |
Supersedes IEEE DRAFT 1124. (09/2003)
|
| DocumentType |
Standard
|
| PublisherName |
Institute of Electrical & Electronics Engineers
|
| Status |
Withdrawn
|
| Supersedes |
| IEC TR 62001-2:2016 | High-voltage direct current (HVDC) systems - Guidance to the specification and design evaluation of AC filters - Part 2: Performance |
| PD IEC/TR 62001-2:2016 | High-voltage direct current (HVDC) systems. Guidance to the specification and design evaluation of AC filters Performance |
| DD IEC/PAS 62001:2004 | Guide to the specification and design evaluation of a.c. filters for HVDC systems |
| IEC TR 62001-3:2016 | High-voltage direct current (HVDC) systems - Guidance to the specification and design evaluation of AC filters - Part 3: Modelling |
| IEC PAS 62001:2004 | Guide to the specification and design evaluation of a.c. filters for HVDC systems |
| IEEE 1137-1991 | IEEE Guide for the Implementation of Inductive Coordination Mitigation Techniques and Application |
| IEEE 776-1992 | IEEE Recommended Practice for Inductive Coordination of Electric Supply and Communication Lines |
| IEEE 367-2012 | IEEE Recommended Practice for Determining the Electric Power Station Ground Potential Rise and Induced Voltage from a Power Fault |
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