GB/T 2900.19-2022 English PDF

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GB/T 2900.19-2022: Electrotechnical terminology - High-voltage test technique and insulation co-ordination
Status: Valid

GB/T 2900.19: Historical versions

Standard ID	USD	BUY PDF	Lead-Days	Standard Title (Description)	Status
GB/T 2900.19-2022	1159	Add to Cart	8 days	Electrotechnical terminology - High-voltage test technique and insulation co-ordination	Valid
GB/T 2900.19-1994	1079	Add to Cart	5 days	Electrotechnical terminology. High-voltage test technique and insulation co-ordination	Obsolete
GB 2900.19-1982	959	Add to Cart	6 days	Electrotechnical terminology--High voltage test technique and insulation co-ordination	Obsolete

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Basic data

Standard ID: GB/T 2900.19-2022 (GB/T2900.19-2022)
Description (Translated English): Electrotechnical terminology - High-voltage test technique and insulation co-ordination
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: K04
Classification of International Standard: 01.040.29; 29.020
Word Count Estimation: 55,549
Date of Issue: 2022-10-12
Date of Implementation: 2023-05-01
Older Standard (superseded by this standard): GB/T 2900.19-1994
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration

GB/T 2900.19-2022: Electrotechnical terminology - High-voltage test technique and insulation co-ordination

---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.
Electrotechnical terminology - High-voltage test technique and insulation co-ordination ICS 01.040.29;29.020 CCSK04 National Standards of People's Republic of China Replace GB/T 2900.19-1994 Electrotechnical Terminology High Voltage Test Technique and Insulation Coordination insulation co-ordination Released on 2022-10-12 2023-05-01 implementation State Administration for Market Regulation Released by the National Standardization Management Committee

table of contents

Preface I Introduction III 1 Scope 1 2 Normative references 1 3 Terms and Definitions 1 3.1 General terms 1 3.2 High voltage test technology 4 3.3 Overvoltage and insulation coordination 20 3.4 High voltage test equipment and measurement system 25 Reference 35 index 36 Figure 1 Lightning impulse full-wave voltage8 Figure 2 Lightning impulse voltage with wave front truncated10 Figure 3 Lightning impulse with tail truncated11 Figure 4 Linear rising front truncation shock12 Fig. 5 The expected waveform certain shock volts/second characteristics12 Figure 6 Operating shock full wave 13 Figure 7 Exponential surge current 15 Figure 8 Estimation of insulation failure risk 25

foreword

This document is in accordance with the provisions of GB/T 1.1-2020 "Guidelines for Standardization Work Part 1.Structure and Drafting Rules for Standardization Documents" drafting. This document is Part 19 of GB/T 2900 "Electrotechnical Terminology". GB/T 2900 has released more than 100 parts. This document replaces GB/T 2900.19-1994 "Electrotechnical Terminology, High Voltage Test Technique and Insulation Coordination", and is consistent with GB/T 2900.19- Compared with.1994, except for structural adjustment and editorial changes, the main technical changes are as follows. --- Increased DC equipment rated voltage (see 3.1.7), nominal DC voltage (see 3.1.9), maximum DC voltage (see 3.1.10), non-break Negative discharge (see 3.1.12.6), corona (see 3.1.14), leakage current (see 3.1.15), dielectric dissipation factor (see 3.1.16), insulation Insulation resistance (see 3.1.17), altitude correction factor (see 3.1.21.4), standard withstand voltage test (see 3.2.1), test voltage prediction period characteristics (see 3.2.2.1), the actual characteristics of the test voltage (see 3.2.2.2), the withstand voltage of the test product (see 3.2.2.3), the true Terms and definitions such as guaranteed destructive discharge voltage (see 3.2.2.4), coordination withstand voltage (see 3.3.21); --- Modified the high-voltage technology (see 3.1.1, 2.1 of the.1994 edition), power transmission and transformation equipment (see 3.1.3, 2.3 of the.1994 edition), three-phase The nominal voltage of the system (see 3.1.4, 2.4 of the.1994 edition), the maximum voltage of the three-phase system (see 3.1.5, the.1994 edition 2.5), equipment rated voltage (see 3.1.6, 2.6 of the.1994 edition), maximum equipment voltage (see 3.1.8, 2.7 of the.1994 edition), function Voltage (see 3.1.11, 2.10 of the.1994 edition), destructive discharge (see 3.1, 12.1, 4.4 of the.1994 edition), flashover (see 3.1.12.2, 4.1 of the.1994 edition), spark discharge (see 3.1.12.3, 4.2 of the.1994 edition), breakdown (see 3.1.12.4,.1994 edition 4.3), withstand voltage (set and statistical) (see 3.3.20, 3.38 of the.1994 edition), measurement system (see 3.4.2,.1994 edition 5.2) and other terms and definitions; --- Deleted the standard impulse current (see 4.36 of the.1994 edition), partial discharge (see 4.53 of the.1994 edition), and series power frequency test Transformers (see 5.1.2 of the.1994 edition), power frequency resonance test transformers (see 5.1.3 of the.1994 edition), digital camera systems (see 5.2.8 of the.1994 edition), (screen) memory oscilloscope (see 5.3.5 of the.1994 edition) and other terms and definitions. Please note that some contents of this document may refer to patents. The issuing agency of this document assumes no responsibility for identifying patents. This document is proposed by China Electrical Equipment Industry Association. This document is under the jurisdiction of the National High Voltage Test Technology and Insulation Coordination Standardization Technical Committee (SAC/TC163). This document is drafted by. Xi'an High Voltage Apparatus Research Institute Co., Ltd., China Electric Power Research Institute Co., Ltd., East China Electric Power Test Inspection and Research Institute Co., Ltd., China Southern Power Grid Science Research Institute Co., Ltd., China Southern Power Grid Co., Ltd. EHV Transmission Company Repair Test Center, Nanjing Nanrui Jibao Electric Co., Ltd., Liaoning High Voltage Electrical Appliance Product Quality Inspection Co., Ltd., Ningbo Vocational and Technical College, State Grid Shaanxi Provincial Electric Power Co., Ltd. Electric Power Research Institute, State Grid Ningxia Electric Power Co., Ltd. Electric Power Research Institute, Siyuan Electric Co., Ltd. Company, State Grid Sichuan Electric Power Company Electric Power Research Institute, State Grid Hebei Electric Power Co., Ltd. Electric Power Research Institute, State Grid Hubei Electric Power Power Co., Ltd. Marketing Service Center (Metering Center), State Grid Tibet Electric Power Co., Ltd. Electric Power Research Institute, Wuhan University, State Grid Henan Province Electric Power Research Institute of Electric Power Company, Xinjiang TBEA Automatic Control Equipment Co., Ltd., State Grid Zhejiang Electric Power Co., Ltd. Electric Power Scientific Research Institute, State Grid Economic and Technological Research Institute Co., Ltd., China National Accreditation Center for Conformity Assessment, Xi'an Jiaotong University, Inner Mongolia Electric Power (Group) Co., Ltd. Responsible companies Inner Mongolia Electric Power Research Institute Branch, Beijing Huatian Electromechanical Research Institute Co., Ltd., State Grid Anhui Electric Power Co., Ltd. Academy of Sciences, State Grid Sichuan Electric Power Company Aba Power Supply Company, China Electrotechnical Society Electrotechnical Ceramics Professional Committee, Shanghai Jiaotong University Science, China Yangtze Power Co., Ltd., Sichuan Mianzhu Southwest Electrical Equipment Co., Ltd., Shanghai Jiulong Electric Power (Group) Co., Ltd. Transformer repair and test branch of the company, Jiangsu Shenghua Electric Co., Ltd., Hangzhou Kelin Electric Co., Ltd., Jiangsu Provincial Institute of Metrology, National Electric Power Research Institute of Liaoning Electric Power Co., Ltd., Shandong Taikai Complete Electric Appliance Co., Ltd., Electric Power Science of Guangdong Power Grid Co., Ltd. Research Institute, Beijing Jiaotong University, Chint Electric Co., Ltd., China Southern Power Grid Electric Power Technology Co., Ltd., North China Electric Power University, State Grid Electric Power Science Research Institute of Chongqing Electric Power Company, Changzhou Borui Electric Power Automation Equipment Co., Ltd., Gansu Electrical Appliance Science Research Institute, Shijiazhuang Branch Lin Electric Equipment Co., Ltd., Jiangsu Rugao High Voltage Electric Appliance Co., Ltd., State Grid Shanghai Electric Power Company Jinshan Power Supply Company. The main drafters of this document. Li Qiang, Lei Min, Su Chunqiang, He Huiwen, Liu Chen, Si Wenrong, Wang Chunjie, Yue Changxi, Zhao Xiaobin, Zhang Changhong, Yu Jicheng, Zhang Xiang, Yang Zuo, Shen Jianwei, Pu Lu, Wu Xutao, Wang Ting, Chang Jiasen, Liu Fan, Zheng Xiongwei, Zhong Lei, Wang Sike, Zhang Xiaoyong, Wang Dafei, Guo Yue, Huang Daochun, Zhao Shujie, Xu Tiejun, Jin Yongtao, Li Xuan, Chen Di, Wang Feng, Shi Weidong, Wei Peng, Ding Yujian, Wang Jiansheng, Che Chuanqiang, Ai Xiaoyu, Liu Jing, Wang Sen, Wang Daxing, Liu Chen, Liu Hongliang, Wang Hui, Wang Jun, Chen Shaoyi, Li Zhongliang, Huang Tianshun, Xie Dong, Pan Baoxiang, Hu Liangrong, Ju Zeli, Jin Xin, Xie Shijun, Zheng Weixia, Li Xingwang, Zhao Zheng, Gao Chao, Guan Weimin, Sun Jixing, Pei Jun, Lu Qifu, Zhang Yang, Zhou Songsong, Ma Guoming, Jin Miao, Li Yong, Du Daozhong, Miao Jun, Duan Hongmin, Yao Ning, Ran Wang, Fan Xingcai, Sun Jingjing. The release status of previous versions of this document and the documents it replaces are as follows. ---First published in 1982 as GB/T 2900.19-1982, first revised in.1994; --- This is the second revision.

Introduction

GB/T 2900 "Electrotechnical Terminology" is divided into several parts. The purpose of formulating electrotechnical terminology standards is to recognize Provides precise, concise and correct definitions of the concepts and names the terms that express the concepts. The formulation of electrotechnical terminology standards is "standard-oriented Standardized", which aims to help standard writers formulate standards, and help standard users understand and implement standards, and for normative (and Translators of texts of a more general technical nature are also helpful. The purpose of developing electrotechnical terms is not to cover all kinds of electrical technical standards All terms used, but to develop general terms of electrical technology. This document is Part 19 of GB/T 2900.This document sets standards, technical documents, professional manuals, teaching materials and books, etc. It is formulated based on the electrical terminology of high-voltage test technology and insulation coordination in the data, which can be used for scientific research, design, production, teaching and publishing of related majors. Version and other relevant departments to use. Electrotechnical Terminology High Voltage Test Technique and Insulation Coordination

1 Scope

This document defines the relevant terms used in the field of high voltage test technology and insulation coordination. This document is applicable to the high voltage test involved in the three-phase AC system with the nominal voltage above 1kV and the DC system above 1.5kV. The field of science and technology related to experimental technology and insulation coordination.

2 Normative references

This document has no normative references.

3 Terms and Definitions

The following terms and definitions apply to this document. 3.1 General terms 3.1.1 High-voltage technologyhigh-voltagetechniques Technologies related to high voltage, strong electric field, insulation, overvoltage, insulation coordination and high voltage test under high voltage. 3.1.2 In the power system, the general term for high-voltage equipment for power generation, power transmission and distribution. 3.1.3 The general term for the power equipment and equipment used in the power system for transmission, distribution of electric energy and corresponding control, measurement and protection of the power system. 3.1.4 Un A suitable and approximate voltage value used to express or identify the phase-to-phase voltage (effective value) of a three-phase system. 3.1.5 Us Under normal operating conditions, the effective value of the highest operating voltage between phases that appears at any point in a three-phase system at any time. 3.1.6 The phase-to-phase voltage (effective value) marked on the equipment and related to certain operating characteristics of the system. Note. For equipment not applicable to the use of this definition, it shall be specified in relevant professional standards. ......

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