IEEE 1030 1988

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IEEE Guide for Specification of High-Voltage Direct-Current Systems: Part 1 – Steady State Performance

Published By	Publication Date	Number of Pages
IEEE	1988	57

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Description

New IEEE Standard – Inactive – Withdrawn. Withdrawn Standard. Withdrawn Date: Dec 03, 1992. This guide provides general guidance on the steady-state performance requirements of high-voltage dirrect-current (HVDC) systems. It concerns the steady-state performance of two terminal HVDC systems utilizing 12-pulse converter units consisting of three-phase bridge (double way) connections.

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PDF Pages	PDF Title
10	1 Scope and References 1.1 Scope Twelve-Pulse Converter Unit
14	1.2 References 2 Outline of Steady-State HVDC System Performance Specification
15	3 Types of HVDC Systems 3.1 General 3.2 HVDC Back-to-Back Ties Examples of Back-to-Back HVDC Systems
16	Monopolar Ground Return HVDC System Monopolar Ground Return System Two Twelve-Pulse Units in Series
17	Monopolar Metallic Return HVDC System Bipolar HVDC System Two Twelve-Pulse Units in Parallel Monopolar Metallic Return System
18	Bipolar System
19	Metallic Return Operation of the Unfaulted Pole in a Bipolar System
20	Bipolar Metallic Neutral System Bipolar Metallic Neutral System
21	Two Twelve-Pulse Groups Per Pole Converter Transformer Arrangements Direct-Current Switching of Line Conductors
22	Direct-Current Switching of Converter Poles Direct-Current Switching – Overhead Line to Cable
23	DC Switching Considerations Direct-Current Switching-Two Bipolar Converters and Lines
24	4 Environment Direct-Current Switching – Intermediate Table 1 Location
27	5 Rated Power Voltage and Current 5.1 Rated Power 5.2 Rated Direct Voltage 5.3 Rated Direct Current 6 Overload and Equipment Capability 6.1 Overload
28	6.2 Equipment Capability
29	7 Minimum Power Transfer and No-Load Standby State 7.1 General 7.2 Minimum Current Reduced Direct-Voltage Operation
30	No-Load Standby State 8 AC System 8.1 General 8.2 AC Voltage
31	8.3 Frequency System Impedance at Fundamental Frequency System Impedance at Harmonic Frequencies Positive and Zero-Sequence Surge Impedance Other Sources of Harmonics Subsynchronous Torsional Interaction (SSTI)
32	9 Reactive Power 9.1 General
33	Converter Reactive Power Consumption Reactive Power Balance With the AC System Variations of Reactive Power Q with Active Power P of a HVDC Converter
34	9.4 Reactive Power Supply Maximum Size of Switchable Reactive Power Sources DC Line Electrode Line and Ground Electrode 10.1 General 10.2 Overhead Line(s)
35	10.3 Insulated Cable Line(s) 10.4 Electrode Line 10.5 Ground Electrode 11 Reliability 11.1 General 11.2 Outage
36	11.3 Period Hours (PH) 11.4 Base Power Level (PB) 1 1.5 Energy Unavailability (EU)
37	11.6 Energy Availability EA 11.7 Maximum Permitted Number of Forced Outages 11.8 Statistical Probability of Outages 12 Control and Metering 12.1 Control Objectives 12.2 Control Structure
38	Control Hierarchy
39	(b) Inverter Controls the Current
40	12.3 Control Order Settings
41	12.4 Current Limits 12.5 Reactive Power Consumption 12.6 Control Circuit Redundancy 12.7 Metering 13 Telecommunications 13.1 Types of Telecommunication Links 13.2 Telephone and Telemetry 13.3 Power-Line Carrier (PLC)
42	13.4 Microwave 13.5 Radio Link 13.6 Optical Telecommunication 13.7 Classification of Data To Be Transmitted 13.8 Fast Response Telecommunication 13.9 Reliability 14 Auxiliary Power Supplies 14.1 General
43	14.2 Reliability and Load Classification 14.3 AC Auxiliary Supplies 14.4 Batteries and Uninterruptible Power Supplies
44	14.5 Emergency Supply 15 Audible Noise 15.1 General 15.2 Public Nuisance
45	15.3 Noise in Working Areas 16 Harmonic Interference – AC 16.1 AC Side Harmonic Generation
46	16.2 Filtering Example of AC Filter Connections for a Bipole HVDC System Circuit Diagrams for Different Filter Types
47	16.3 Interference Disturbance Criteria
48	16.4 Levels for Interference 16.5 Filter Performance 17 Harmonic Interference– C 17.1 DC – Side Interference
49	17.2 DC Filter Performance
50	17.3 Specification Requirements Performance Parameters for Voice Communications Circuits
52	18 Power-Line Carrier Interference 18.1 General 18.2 Performance Specification
53	19.2 RI Performance Specification Considerations 20 Losses 20.1 General
54	20.2 Main Contributing Sources 21 Provision for Extensions to the HVDC System 21.1 General
55	21.2 Specification for Extensions (a) Series Extension (b) Parallel Extension
56	22 Bibliography Monopolar to Bipolar Extension (d) Multiterminal Bridge Extension

Additional information

Standard Title	IEEE Guide for Specification of High-Voltage Direct-Current Systems: Part 1 – Steady State Performance
Published Code	IEEE
Publication Date	1988
Pages Count	57

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IEEE 1030 1988

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