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GB/T 32130-2015: DC PLC filter capacitors for HVDC transmission systems
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GB/T 32130-2015	English	509	Add to Cart	4 days [Need to translate]	DC PLC filter capacitors for HVDC transmission systems

GB/T 32130-2015: DC PLC filter capacitors for HVDC transmission systems

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DC PLC filter capacitors for HVDC transmission systems ICS 31.060.70 K42 National Standards of People's Republic of China HVDC DC PLC filter capacitor Issued on. 2015-10-09 2016-05-01 implementation Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China Standardization Administration of China released

Table of Contents

Introduction Ⅲ Introduction Ⅳ 1 Scope 1 2 Normative references 1 3 Terms and definitions, abbreviations 1 3.1 Terms and definitions 3.2 Abbreviations 4 4 4 Conditions of Use 4.1 normal conditions of use 4 4.2 Non-normal conditions of use 5 5 Quality requirements and testing 5 5.1 Test requirements 5 5.2 Test Category 6 5.3 Visual inspection (routine test) 7 5.4 Capacitance measurement (routine test) 7 5.5 capacitor loss tangent (tanδ) Measurement (routine test) 7 5.6 terminals voltage test (routine test) 8 5.7 terminal and housing AC voltage test (routine test) 8 5.8 Internal Pressure resistance measurement (routine test) 9 5.9 Tightness test (routine test) 9 5.10 Thermal stability test (type test) 9 5.11 between terminal and housing AC voltage test (wet) (type test) 10 5.12 between terminals and housing lightning impulse voltage test (type test) 10 5.13 short circuit discharge test (type test) 11 5.14 capacitance with temperature curve measurement (type test) 11 5.15 polarity inversion test (type test) 11 5.16 capacitor loss tangent (tanδ) versus temperature measurement (type test) 11 5.17 casing and conducting rod stress test (type test) 12 5.18 Visual inspection (acceptance test) 12 5.19 between terminal and shell insulation resistance measurement (acceptance test) 12 5.20 capacitance measurement (acceptance test) 12 5.21 between terminal and housing AC voltage test (acceptance test) 12 6 design and structural requirements 12 6.1 capacitor bank 12 6.2 capacitor gantry 12 6.3 capacitor unit 13 6.4 audible noise 13 6.5 Mechanical Design 13 13 6.6 Insulator 6.7 terminal 13 6.8 creepage distance 13 6.9 Radio Interference (RIV) Design 13 6.10 Welding 13 6.11 Surface Treatment 14 7 14 insulation level 14 8 Overload 9 Safety requirements 14 9.1 discharge safety device 14 demands 9.2 housing secure connection requirements 14 9.3 Environmental security requirements 14 9.4 Additional security requirements 14 10 flag capacitor unit 14 10.1 Nameplate 14 10.2 15 Warning Signs Flag capacitor banks 11 15 11.1 specification or nameplate 15 11.2 15 Warning Signs 12 for installation and operation are 15 12.1 Overview 15 12.2 Selection of Rated Voltage 15 12.3 stable 15 16 12.4 Special conditions Appendix A (informative) HVDC systems commonly filter DC PLC wiring diagram Example 17 DC PLC filter capacitor Annex B (informative) HVDC converter station installation schematic arrangement 18 The formula in Appendix C (informative) capacitor discharge time of 19

Foreword

This standard was drafted in accordance with GB/T 1.1-2009 given rules. The standard proposed by China Electrical Equipment Industrial Association. This standard by the National Standardization Technical Committee on Power capacitor (SAC/TC45) centralized. This standard is drafted by. Xi'an Electric Power Capacitor Co., Ltd., Xi'an High Voltage Apparatus Research Institute Co., Ltd. Participated in the drafting of this standard. Shanghai Siyuan Electric Power Capacitor Co., Ltd., New Northeast Electric Group Power Capacitor Co., Guilin Power Capacitor Co., Ltd., Nissin Electric (Wuxi) Co., Ltd., ABB Xi'an Power Capacitor Co., Ltd., Shenzhen City and electricity Technology Co., Ltd., Shanghai Jin Yong Electric Group Co., Ltd., Wuxi SUN.KING Capacitor Co., Zhejiang Electric Power Company Electric Power Research Research Institute, Academy of Sciences Southern Power Grid Co., Ltd., Cooper Shanghai Power Capacitor Co., Ltd. The main drafters of this standard. Guo Yinxing, Wang Yu Jing, HE tide, Lin Yue Wang, sworn room, Chong Hu, Ge Jinping, Yanhong Yue, GUO Qing-wen, Lu Tao, Zhao Fuqing, Liu Dai Hung, Zhou Chunhong, Yanhuan Ling Zhang Jianping, Liling Fei, Wang Linghai.

Introduction

Each HVDC project are based on the specific requirements of their access to system design, manufacture and test, including its rated DC power Important parameters rate, rated DC voltage, performance requirements are in accordance with the specific requirements of the selected access system optimization. HVDC systems straight Flow PLC filter capacitor far as the exchange of standardized equipment, serialization and standardization. Standardization conducive equipment design, manufacturing, test Experience, lower equipment costs, reduce project cost, promote the development of HVDC. Currently no PLC filter for DC DC transmission system Standard wave capacitor enacted, the manufacturers according to their respective technical requirements for the design, manufacture and test, and therefore to develop a unified similar products The standard is necessary. Foreign supplier of such products earlier, but not specifically for the HVDC system PLC DC filter capacitor and the development of standards. The HVDC system developed by DC PLC standard filter capacitor to fully reflect the study of HVDC equipment Results. With ultrasound, construction of UHV DC Project DC field, our in extra and ultra high voltage direct current DC field of engineering research, design, construction, operation Bank and other aspects have accumulated experience, so we have full power to establish their own intellectual property HVDC system DC PLC filter Wave standard capacitor. HVDC DC PLC filter capacitor

1 Scope

This standard specifies the HVDC systems Terms and definitions PLC DC filter capacitor, conditions of use, design and construction, to Basic requirements and test, quality and other aspects. This standard applies to high-voltage direct current (HVDC) transmission system HVDC Converter Station side, installed in the indoor or outdoor DC PLC filter circuit Container for filtering 30kHz ~ 500kHzPLC noise signal in the frequency range to prevent the carrier PLC converter valve noise generated in the frequency domain Along the sound of a communication system noise interference. HVDC systems commonly filter DC PLC wiring diagram in Appendix A, install cloth Set Figure in Appendix B. Note. Does not include porcelain (or multiple sets) PLC DC filter capacitor structure. DC porcelain (or multiple sets) structure PLC filter capacitor performance standards See IEC 60358-2.

2 Normative references

The following documents for the application of this document is essential. For dated references, only the dated version suitable for use herein Member. For undated references, the latest edition (including any amendments) applies to this document. GB/T 11024.1-2010 nominal voltage above 1000V ac power systems parallel capacitor - Part 1. General (IEC 60871-1.2005, MOD) GB/T 16927.1-2011 high voltage test techniques - Part 1. General definitions and test requirements (IEC 60060-1.2010, MOD) GB/T 20993-2012 HVDC surge capacitor and a DC filter capacitor neutral bus 3 Terms and definitions, abbreviations 3.1 Terms and Definitions GB/T 11024.1-2010 and GB/T 20993-2012 define the following terms and definitions apply to this document. To Party It is repeated below lists the GB/T 11024.1-2010 and GB/T 20993-2012 some terms and definitions. 3.1.1 Capacitor element (element) capacitorelement (element) A dielectric and two electrodes separated by its members posed. [GB/T 11024.1-2010, Definition 3.1] 3.1.2 Capacitor capacitor unit (unit) capacitorunit (unit) By one or more capacitor elements assembled in the same housing and a lead terminal of the assembly. [GB/T 11024.1-2010, the definition 3.2] 3.1.3 Series segment seriessection All units are connected in parallel with a capacitor. ...