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GB/T 4473-2018 English PDF

GB/T 4473: Evolution and historical versions

Standard IDContents [version]USDSTEP2[PDF] delivered inStandard Title (Description)StatusPDF
GB/T 4473-2018EnglishRFQ ASK 3 days [Need to translate] Synthetic testing of high-voltage alternating current circuit-breakers Valid GB/T 4473-2018
GB/T 4473-2008EnglishRFQ ASK 13 days [Need to translate] Synthetic testing of high-voltage alternating current circuit-breakers Obsolete GB/T 4473-2008
GB/T 4473-1996EnglishRFQ ASK 6 days [Need to translate] Synthetic testing of high-voltage alternating current circuit-breakers Obsolete GB/T 4473-1996
GB 4473-1984English839 Add to Cart 6 days [Need to translate] Synthetic test for AC high-voltage circuit-breakers Obsolete GB 4473-1984

PDF similar to GB/T 4473-2018


Standard similar to GB/T 4473-2018

GB/T 11022   GB/T 3906   GB/T 30092   GB/T 1984   GB/T 1985   

Basic data

Standard ID GB/T 4473-2018 (GB/T4473-2018)
Description (Translated English) Synthetic testing of high-voltage alternating current circuit-breakers
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard K43
Classification of International Standard 29.120.40
Word Count Estimation 110,135
Date of Issue 2018-12-28
Date of Implementation 2019-07-01
Older Standard (superseded by this standard) GB/T 4473-2008
Regulation (derived from) National Standard Announcement No. 17 of 2018
Issuing agency(ies) State Administration for Market Regulation, China National Standardization Administration

GB/T 4473-2018: Synthetic testing of high-voltage alternating current circuit-breakers

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Synthetic testing of high--voltage alternating current circuit--breakers ICS 29.120.40 K43 National Standards of People's Republic of China Replace GB/T 4473-2008 Synthetic test of high voltage AC circuit breaker (IEC 62271-101..2017, High-voltageswitchgearandcontrolgear- Part 101. Synthetictesting, MOD) Published on.2018-12-28 2019-07-01 implementation State market supervision and administration China National Standardization Administration issued

Content

Foreword III 1 Scope 1 2 Normative references 1 3 Terms and Definitions 1 4 Synthetic test techniques and methods for short-circuit breaking tests 3 4.1 Basic principles and general requirements for synthetic breaking test methods 3 4.2 Synthetic test circuit for breaking test and related specific requirements 4 4.3 Three-phase synthesis test method 6 5 Test techniques and methods for short circuit closure test 7 5.1 Basic principles and general requirements for synthetic closure test methods 7 5.2 Synthetic test circuits for closure tests and related special requirements 8 6 type test 9 6.1 Overview 9 6.106 Basic short circuit test mode 13 6.108 Single phase and out of phase ground fault test 17 6.109 Near-zone fault test 17 6.110 Out of step closure and breaking test 17 6.111 Capacitive current opening and closing test 19 Appendix A (informative) Current distortion 29 Appendix B (informative) Current introduction method 43 Appendix C (informative) Voltage introduction method 46 Appendix D (informative) Transformer circuit or Skeats circuit 49 Appendix E (Normative Appendix) Information and records provided for the synthesis test 51 Appendix F (informative) Test procedure Specific procedures for opening resistor circuit breakers 52 Appendix G (informative) Synthetic method for capacitive current opening and closing test 59 Appendix H (informative) Step by step arc method 68 Appendix I (Normative) Correction of TRV and di/dt in test mode T100a 70 Appendix J (informative) Three-phase synthetic test circuit 85 Appendix K (normative appendix) Tolerance of test parameters in type test 91 Appendix L (informative) Example of test circuit for metal-enclosed and floor-mounted tank circuit breakers 93 Appendix M (informative) Combination of current introduction and voltage introduction methods 102 Reference 105

Foreword

This standard was drafted in accordance with the rules given in GB/T 1.1-2009. This standard replaces GB/T 4473-2008 "Synthesis Test of High Voltage AC Circuit Breakers". Compared with GB/T 4473-2008, the main technology The changes are as follows. --- Added the term "medium asymmetry"; --- Removed the term "small breaking time" and "reburning test"; --- Modified the test method T100a related content, including the test method T100a final current half-wave parameters in Appendix I, di/dt Reduction and TRV correction value; --- Added the revised procedure for the failure of the medium arc breaking in the 6.102.10.3.101 symmetrical current breaking test; --- Modified 6.119 near-zone fault test; --- Modified the example of the recovery voltage of Figure 2, the typical synthetic closure circuit of the single-phase test of Figure 5, and the typical synthesis of the out-of-step test of Figure 6. Combined circuit --- Added a typical synthetic closing circuit for the three-phase test of Figure 7; --- Removed the original three-phase direct test (left) and three-phase synthetic test (right) arcing in the test mode T100s (kpp=1.5) Comparison of time setting values, three-phase direct test (left) and three-phase synthesis test (right) in test mode T100a (kpp=1.5) Comparison of arcing time setting values; --- Increased the recovery voltage requirement of the synthetic capacitive current opening and closing test in Figure 8, and the three-phase straight in the test mode T100a (kpp=1.5) in Figure 9. Comparison of the arcing time setting values of the test (left) and the three-phase synthesis test (right), and the test mode T100a (kpp=1.3) in Fig. 10 Comparison of three-phase direct test (left) and three-phase synthesis test (right) arcing time setting values; --- Revised the specific procedure of the test strip with a tripping resistor breaker in Appendix F; --- Modified Appendix H step by step arc method; --- Modified Appendix J three-phase synthetic test circuit. This standard uses the redrafting method to modify the use of IEC 62271-101.2017 "High-voltage switchgear and control equipment part 101. Into the test. The technical differences between this standard and IEC 62271-101.2017 and their reasons are as follows. ---About the normative reference documents, this standard has made technical adjustments to adapt to China's technical conditions, adjustments The situation is reflected in Chapter 2, “Regulatory Citations”, and the specific adjustments are as follows. ● Replaced IEC 62271-100.2008 with GB/T 1984-2014 modified to international standards. --- The voltage level has been modified according to the provisions of GB/T 1984-2014, such as 245kV to 252kV; --- According to the provisions of GB/T 1984-2014, the relevant contents of voltage class 1200kV and kpp=1.2 are deleted; --- Removed the test procedure for Appendix K using a three-phase current loop and a voltage loop; --- Removed the decomposition of the test mode in the test series considering the TRV of each breaking pole in Appendix L. This standard has made the following editorial changes. --- In line with the existing standard system, change the standard name to "Synthetic Test of High Voltage AC Circuit Breaker". This standard was proposed by the China Electrical Equipment Industry Association. This standard is under the jurisdiction of the National High Voltage Switchgear Standardization Technical Committee (SAC/TC65). This standard was drafted. Xi'an High Voltage Electric Apparatus Research Institute Co., Ltd., China Electric Power Research Institute, Liaoning High Voltage Electrical Appliances Measurement Co., Ltd., Xi'an Xidian High Voltage Switch Co., Ltd., Xi'an Xidian Switch Electric Co., Ltd., New Northeast Electric Group High Voltage Switchgear Co., Ltd., Pinggao Group Co., Ltd., Shanghai Electric Transmission and Distribution Test Center Co., Ltd., State Grid Shanghai Electric Power Company Institute of Science, State Grid Zhejiang Electric Power Company Shaoxing Power Supply Company, State Grid Anhui Electric Power Company Electric Power Research Institute, State Grid Power Science Research Institute, ABB (China) Co., Ltd., Beijing Beikai Electric Co., Ltd., Xi'an Xidian Electric Research Institute Co., Ltd., Shandong Taikai High Voltage Switch Co., Ltd., Zhejiang Switch Factory Co., Ltd., Beijing Keyui Distribution Automation Co., Ltd., Shanghai Tianling Switch Factory Limited Company, Tianshui Great Wall Switch Factory Co., Ltd., Yunnan Yunkai Electric Co., Ltd., Ningbo Tianan (Group) Co., Ltd., Changzhou Tai Pingyang Power Equipment (Group) Co., Ltd. The main drafters of this standard. Yao Si Li, Li Gang, Tian Enwen, Wang Peiren, Yan Xiangfeng, Zhang Jinbo, Gao Xiangxiang, Du Fu, Liu Pu, Liu Ping, Zhang Shi, Feng Wujun, Yang Haifang, Zhao Jingbo, He Pingjun, Shi Jun, Zheng Yuhong, Zhang Wei, Wang Xiangke, Lu Jing, Qiu Weifeng, Zhu Yichen, Gao Kai, Li Dian, Chen Xiaoyu, Li Binbin, Yang Wei, Zheng Zhanfeng, Wang Wenyong, Zhang Wenbo, Ma Zhanfeng, Xiao Fengliang, Zhou Qingqing, Li Qingyu, Tan Yan, Zhao Gang, Zhao Yongfu, Lin Fuming, Yuan Chunping. The previous versions of the standards replaced by this standard are. ---GB/T 4473-1984, GB/T 4473-1996, GB/T 4473-2008. Synthetic test of high voltage AC circuit breaker

1 Scope

This standard applies to high voltage AC circuit breakers within the scope of GB/T 1984-2014. 6.102~ in GB/T 1984-2014 Within the scope of the test method specified in 6.111, it gives general rules for the ability to test the closing and breaking capacity of high-voltage AC circuit breakers by synthetic methods. The methods and techniques described in this standard are common. The purpose of this standard is to determine the criteria for the synthesis test and to make the results of the test. Appropriate assessment. This criterion will determine the validity of the test method without adding constraints to the update of the test loop.

2 Normative references

The following documents are indispensable for the application of this document. For dated references, only the dated version applies to this article. Pieces. For undated references, the latest edition (including all amendments) applies to this document. GB/T 1984-2014 High voltage AC circuit breaker (IEC 62271-100.2008, MOD) IEC 62271-100.2008/AMD1.2012 High-voltage switchgear and control equipment - Part 100. Sub-Amendment (Highvoltageswitchgearandcontrolgear-Part 100.Alternating-currentcircuitbreaker Amendment1..2012) IEC 62271-100.2008/AMD2.2017 High-voltage switchgear and controlgear - Part 100. Sub-Amendment (Highvoltageswitchgearandcontrolgear-Part 100.Alternating-currentcircuitbreaker Amendment2..2017)

3 Terms and definitions

The following terms and definitions as defined in GB/T 1984-2014 apply to this document. 3.1 Direct test directtest The applied voltage, current, and transient and power frequency recovery voltages are all tested by a single power supply loop, which can be a power system. Either a dedicated generator used in a short-circuit test station or a combination of the two. 3.2 Synthetic test synthetictest All current or most of the current is obtained from one power supply (current loop), while the applied voltage and/or recovery voltage (transient and power frequency) Tests obtained in whole or in part from another independent power source (voltage loop). 3.3 Test circuit breaker testcircuit-breaker The circuit breaker that was tested. 3.4 Auxiliary circuit breaker auxiliarycircuit-breaker(s) A circuit breaker used to make the circuit breaker under test have a relationship with various circuits as needed and become part of the synthetic test circuit. 3.5 Current loop Part of the synthesis test loop, most or all of the power frequency current is provided by it.