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GB 15934-2008 (GB/T 15934-2024 Newer Version) PDF English


GB 15934-2008 (GB15934-2008) PDF English
Standard IDContents [version]USDSTEP2[PDF] delivered inName of Chinese StandardStatus
GB/T 15934-2024EnglishRFQ ASK 3 days (Electrical Accessory Cordsets and Interconnect Cordsets) Valid
GB 15934-2008English85 Add to Cart 0-9 seconds. Auto-delivery. [GB/T 15934-2008] Electrical accessories -- Cord sets and interconnection cord sets Valid
GB 15934-1996English239 Add to Cart 3 days Cord sets Obsolete
GB/T 15934.1-1995EnglishRFQ ASK 3 days Terminology for nondestructive testing--Leak testing Obsolete
Newer version: GB/T 15934-2024     Standards related to (historical): GB/T 15934-2024

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GB 15934-2008: PDF in English

GB 15934-2008 [GB/T 15934-2008] Electrical accessories. Cord sets and mutually cord sets ICS 29.120.10 K30 National Standards of People's Republic of China GB 15934-2008/IEC 60799.1998 Replacing GB 15934-1996 Electrical Accessories Wire Assembly and Interconnect Wire Assembly (IEC 60799.1998Ed.2.0, IDT) Published on.2008-06-19 2009-06-01 Implementation General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China China National Standardization Administration released Directory Preface I IEC Foreword II 1 Range 1 2 Normative references 1 3 Terms and Definitions 1 4 General requirements 2 5 Request 2 6 Electrical continuity and polarity 4 7 EMC requirements 4 Appendix A (Informative) Routine Tests for Safety and Protection of Wire Components and Interconnect Wire Components for Factory Wiring Correct polarity) 5 GB 15934-2008/IEC 60799.1998 Foreword The entire technical content of this standard is mandatory. This standard is equivalent to using IEC 60799.1998 "Electrical Accessories Wire Assembly and Interconnect Wire Assembly" (Second Edition). This standard is a revision of GB 15934-1996. The main differences between this standard and GB 15934-1996 are as follows. a) The standard name changed from "Wire Assembly" to "Electrical Accessories Wire Assembly and Interconnect Wire Assembly". Interconnection wires were added to the standard. Component requirements. b) Added "Interconnect Wire Components" to the scope of application of the standard (see Chapter 1). c) This standard adds Chapter 2 "Normative References", which has one more chapter in structure than GB 15934-1996. d) Added definitions of interconnected wire assemblies, type tests, and routine tests (see 3.2, 3.3, 3.4). e) Increased requirements for type testing and routine testing (see Chapter 4). f) Increased requirements for plug connectors in interconnected wire assemblies (see 5.1). g) Increased connector and plug connector requirements for interconnected wire assemblies (see 5.2.1). h) Add Chapter 7, "EMC Requirements." i) Appendix A of this standard is "The factory routine test for the safety of wire assemblies and interconnecting wire assemblies for wiring (protection against electric shock and correct polarity “Sexual”), Appendix A of GB 15934-1996 is “The Correspondence between the Standards Used in this Standard and the Standards Used in IEC 799”. This standard replaces and abolishes GB 15934-1996 "Wire Assembly" from the date of implementation. Appendix A of this standard is an informative annex. This standard was proposed by the China Electrical Appliance Industry Association. This standard is under the jurisdiction of the National Electrical Accessories Standardization Technical Committee. This standard was drafted by. China Electric Apparatus Research Institute, Guangdong Entry-Exit Inspection and Quarantine Bureau, Ningbo Weier Electric Co., Ltd., Hangzhou Hongshi Electric Co., Ltd. The main drafters of this standard. Luo Huaiping, Li Min, Li Jianguo, Feng Yonglin, Lu Chongheng. The previous versions of the standards replaced by this standard are. --- GB 15934-1996. GB 15934-2008/IEC 60799.1998 IEC Introduction 1) IEC (International Electrotechnical Commission) is a worldwide standard consisting of all national electrotechnical committees (IEC National Committees) Qualification organization. The purpose of the IEC is to promote the international cooperation between countries in the field of electrical and electronics related to standardization issues. In light of the above objectives and taking into account the needs of other activities, IEC has published international standards. The commissioning of the standard commissioned the technical committee The staff will finish. Any IEC National Committee interested in this technical issue can participate in the development work. Associated with IEC International, government and non-governmental organizations can also participate in this work. The IEC and the International Organization for Standardization (ISO ) were reached by both parties The agreement is based on close cooperation. 2) IEC 's formal resolution or agreement on technical issues is a technical committee attended by all national committees interested in this issue. Will be formulated, and as far as possible represent the international consensus on the issues involved. 3) These resolutions or agreements are published in the form of standards, technical reports or guidelines, and are used internationally in the form of recommendations, and in this sense It was accepted by various national committees. 4) In order to promote international unity, IEC National Committee members use IEC standards as much as possible as a standard for various countries and regions. quasi. Differences between IEC standards and corresponding national or regional standards should be clear in national or regional standards Listed. 5) The IEC provides an approval-free program, but it does not represent responsibility for any equipment that claims to meet a certain standard. 6) Some of the content of this International Standard may involve the issue of patent rights, which should attract attention. The IEC organization is not responsible for identifying any Or all such patent rights issues. The international standard IEC 60799 is defined by the 23G subcommittee (apparatus coupler) in the IEC 23 Technical Committee (Electrical Accessories). The second edition of this standard replaces the first edition published in 1984 and constitutes a technical revision. This standard is based on the following documents. FDIS vote report 23G/181/FDIS 23G/186/RVD All the information on the adoption of this standard can be found in the voting report shown above. Appendix A is only an informative appendix. GB 15934-2008/IEC 60799.1998 Electrical Accessories Wire Assembly and Interconnect Wire Assembly 1 range This standard specifies the requirements for wire assemblies and interconnect wire assemblies used in household and similar applications. This standard does not apply to industrial wire assemblies (that is, with plugs and connectors that meet the requirements of GB/T 11918, GB/T 11919). Industrial wire assemblies) do not apply to wire extension assemblies. Note. According to the definition of this standard, the power cord with removable plugs and connectors is not a "wire assembly". But considering that they are similar to "wire assembly" and The use is similar, so it is recommended that this kind of power cord with a removable plug and connector should use the requirements of this standard as much as possible. 2 Normative references The clauses in the following documents have been adopted as references to this standard. All dated references, all subsequent The amendments (not including errata content) or revisions do not apply to this standard, however, encourage the parties to reach an agreement according to this standard Can you use the latest version of these files? For undated references, the latest version is applicable to this standard. GB 1002 single phase plugs and sockets for household and similar use types, basic parameters and dimensions GB 1003 Household and similar three-phase plug and socket types, basic parameters and dimensions GB 2099.1 Plugs and socket-outlets for household and similar purposes Part 1. General requirements (GB 2099.1-1996, eqv IEC 60884-1. 1994) GB 5013 (all parts) Rubber insulated cable (IEC 60245, IDT) with rated voltage of 450/750V and below GB 5023 (all parts) PVC insulated cables of rated voltages up to and including 450/750V (IEC 60227, IDT) GB 17465.1-1998 Appliance couplers for household and similar use - Part 1. General requirements (eqv IEC 60320-1. 1994) GB 17465.2-1998 Appliance couplers for household and similar use - Part 2. Interconnects for household and similar equipment (eqv IEC 60320-2-2.1990) IEC 60050(151). 1978 International Electrotechnical Terminology Chapter 151. Electromagnetic Devices IEC 60536.1976 Classification of protection against electric shock for electric and electronic equipment 3 Terms and Definitions The following terms and definitions apply to this standard. 3.1 Consists of a soft cable or cord with a non-rewirable plug and a non-releasable connector for electrical appliances Components to which the appliance or device is connected to the power supply. 3.2 A device consisting of a wire with a non-rewirable plug connector and a non-rewirable connector for an electrical appliance An assembly in which the appliance or device is connected to the power supply of another appliance or device. NOTE 1 The definitions of "non-rewirable plugs" and "non-rewirable connectors" are found in GB 2099.1 and GB 17465.1-1998, respectively. Note 2. The difference between wire assembly, interconnect wire assembly and wire extension assembly is that the latter has a mobile outlet instead of a connector, and the wire extension assembly does not Can be directly used to connect appliances or equipment and power supply. Note 3. Non-rewirable plugs that are attached to a length of wire are sometimes referred to as "incomplete wire assemblies." For the requirements of such products, see GB 2099.1. GB 15934-2008/IEC 60799.1998 3.3 Test one or more products of a given design to demonstrate that the product design meets the requirements of the standard. [IEV151-04-15] 3.4 During product manufacturing and/or after manufacturing, each individual product is tested to determine if the product meets the given criteria. Claim. [IEV151-04-16] 4 General requirements The design and construction of the wire assembly and interconnect wire assembly should ensure that the wire assembly and interconnected wire assembly perform reliably during normal use. And there is no danger to the user and the surrounding environment. Through all the tests specified to check whether it meets the requirements of this standard. The test is as follows. --- Perform a type test on a representative sample of each wire assembly and interconnect wire assembly; --- Where applicable, conduct routine tests on each wire assembly and interconnect wire assembly manufactured in accordance with this standard. Note. Routine tests are specified in Appendix A. 5 requirements 5.1 Requirements for Components The plug of the wire assembly should meet the requirements of GB 2099.1. The connector of the wire assembly should meet the requirements of GB 17465.1. Plug connectors for interconnecting wire assemblies shall comply with the requirements of GB 17465.2. Wires of wire assemblies or interconnected wire assemblies shall meet the requirements of GB 5023 or GB 5013. Check whether the plugs, connectors, plug connectors, and wires meet the requirements by the tests specified in the corresponding standards. One part is During the test, the impact on the other component in the assembly is negligible. The end of the stranded conductor is exposed to contact pressure and cannot be consolidated by soldering unless the design of the clamping connection is avoided The risk of poor contact due to cold flow of the flux. 5.2 Requirements for the entire assembly 5.2.1 Rated voltage The rated voltage of connectors and wires shall not be less than the rated voltage of the corresponding plug. Similarly, for interconnected wire assemblies, the amount of connectors The constant voltage should not be less than the rated voltage of the corresponding plug connector. 5.2.2 Rated current The rated current of the plug should not be less than the rated current of the corresponding connector. 5.2.3 Classification of Equipment The classification of the electric shock protection capability of plugs and connectors shall be the same as the classification of the electric shock protection capability of the equipment to be connected, and the equipment shall be protected against electric shock. The classification criteria are given in IEC 60536.1976. However, wire assemblies fitted with connectors for Class II equipment may be fitted with GB 1002 compliant plugs or breaks for Class I equipment. Plug with other three plug systems. 5.2.4 Flags Plugs, connectors, and plug connectors shall be marked with their markings in accordance with the requirements of the corresponding standard. In addition, the plugs or plug connectors and connectors that are not delivered with the appliance and are not manufactured by the same manufacturer GB 15934-2008/IEC 60799.1998 Parts and interconnecting wire assemblies shall also mark the name, trademark or identification of the manufacturer or responsible distributor of the entire wire assembly or interconnected wire assembly. Sign. Such signs should not only be marked on the packaging. Note. For example, the name, trademark or identification of the manufacturer or responsible distributor may be marked on the sheath of the wire assembly. Plugs, connectors, wire assemblies, or interconnect wire assemblies used to connect Class II devices should not be marked with Class II structural symbols (both sides). 5.2.5 Types of wires The wire type of the wire assembly or interconnect wire assembly should not be less than that determined by the connector of the wire assembly or interconnecting wire assembly Type, its cross-sectional area should not be less than the value specified in the following table. Note. The lower gauge wire (eg, 60227 IEC 42) is lighter than the higher gauge wire (eg, 60227 IEC 53) Table 1 Wire types for wire assemblies and interconnect wire assemblies Connector Rated current / Device type usage conditions Soft cable or cord The lightest type Minimum cross-sectional area / Mm2 0.2 2.5 Cold condition Cold condition 60227IEC 41 60227IEC 52 0.75 a 2.5 Cold condition Cold condition 60227IEC 52 60227IEC 52 0.75 0.75 10 I Cold conditions 60227IEC 53 Or 60245 IEC 53 0.75 0.75 10 I hot or hot conditions 60245IEC 53 Or 60245IEC 51 0.75 0.75 10 II cold conditions 60227IEC 53 Or 60245 IEC 53 0.75 0.75 16 I Cold Condition 60227IEC 53 Or 60245 IEC 53 16 I Hot conditions 60245IEC 53 Or 60245IEC 51 16 II cold conditions 60227IEC 53 Or 60245 IEC 53 a See 5.2.6. b If the length of the wire does not exceed 2m, its nominal cross-sectional area is allowed to be 0.5mm2. c If the length of the wire exceeds 2m, the nominal cross-sectional area shall be. --10A wire assembly and interconnect wire assembly is 1mm2; The -16A wire assembly and interconnect wire assembly is 1.5mm2. Whether it meets the requirements of 5.2.1 to 5.2.5, through observation and inspection. 5.2.6 The length of the wire If the cross-sectional area of the wire is equal to or less than 0.5 mm2, the cord length of the cord assembly or interconnecting cord assembly should not be greater than 2 m. Note. The cross-sectional area of the 60623IEC 41 flat copper cable is less than 0.5mm2. Measure the length of the wire between the point where the wire or wire guard enters the plug or plug connector and the connector. If you do not know GB 15934-2008/IEC 60799.1998 For the correct end point, the length of the flexible wire is measured at an outer diameter greater than 1 mm outside the wire. For flat conductors, this increased outside diameter along the soft Long axis measurement of the line. Whether it meets the requirements, check by observation and measurement. 6 Electrical continuity and polarity Wire assemblies and interconnecting wire assemblies used in polar systems shall have corresponding plug pins and connectors for each pole Electrical continuity between the bushings. Whether it meets the requirements, check by measurement. 7 EMC requirements Note. This requirement does not include the requirements for electrical accessories containing electronic components because related requirements have not yet been established. 7.1 Immunity 7.1.1 Wire assemblies and interconnect wire assemblies without electronic components These wire assemblies and interconnect wire assemblies are insensitive to normal electromagnetic interference and therefore no immunity test is required. 7.2 Launch 7.2.1 Wire assemblies and interconnect wire assemblies without electronic components These wire assemblies and interconnect wire assemblies do not generate electromagnetic interference and therefore do not require a launch test. NOTE. These wire assemblies and interconnecting wire assemblies may only produce electromagnetic interference during non-repetitive operations where the accessories are inserted and removed. These electromagnetic dry The frequency, level, and emission results of the disturbance are all considered to be part of the normal electromagnetic environment. GB 15934-2008/IEC 60799.1998 Appendix A (Informative Appendix) Factory-wired wire assemblies and interconnect wire assembly safety routine tests (protection against electric shock and correct polarity) A. 1 General requirements Where applicable, all factory-wired wire assemblies and interconnect wire assemblies should be subjected to the following tests. Electrical accessory type test clause Two-pole wire assembly and interconnect wire assembly A. 2 Three-pole wire assembly and interconnect wire assembly A. 2, A. 3, A. 4 The test equipment or production system shall ensure that the non-conforming sample is not suitable for use or is isolated from the qualified product so that the non-conforming sample cannot be delivered Sales. Note. "Not suitable for use" means. The appliance accessory cannot meet the intended use. However, the repaired product (through a reliable system operation) is repaired and retested. The test is acceptable. Through the program or production system should be able to identify the accessories can be sold out of the factory have carried out all relevant tests. The manufacturer shall keep a record of the tests performed. The records include the following. ---Product number; --- Test date; --- Production site (if there is more than one production site); --- The number of trials; --- Number of failures and measures taken, such as destruction/rework. The test equipment should be inspected at least every 24h before and after each use and during continuous use. During the inspection, When accessing a faulty product or applying an analog fault, the device should be able to display the fault condition. Only when the inspection satisfies the requirements, the products produced before the inspection can be sold. Test equipment should be certified (measured) at least once a year. All inspections and necessary commissioning records should be kept. A. 2 Polarized system; phase line (L) and neutral line (N) - correct connection For systems with a polarity, the test should be conducted with a safety extra-low voltage (SELV). Safety Extra Low Voltage (SELV) applied to wire group The L-pole and N-pole plug or socket of one end of the component or interconnecting wire assembly is connected to the L-pole and N-pole plug or socket of the other end, It took no less than 2s. Note. With the automatic timing test equipment, the test time of 2s can be reduced to not less than 1s. Other suitable tests can be performed. The polarity should be correct. A. 3 Grounding (E) Continuity Tests should be conducted using SELV. Safety Extra Low Voltage (SELV) applied to wire assemblies or interconnect wire assemblies Corresponding E-pole plugs or accessory plugs between the two ends, which lasted no less than 2s. Note. With the automatic timing test equipment, the test time of 2s can be reduced to not less than 1s. Other suitable tests can be performed. Ground continuity should be maintained. GB 15934-2008/IEC 60799.1998 A. 4 Short-circuit/error connection and reduction of creepage distance and clearance between L-pole or N-pole and E-pole Tests shall be conducted between L- and N-pole conductors and E-pole conductors. --- At the end of the power supply, if the plug is applied with a voltage of.2000V ±.200V, 50Hz or 60Hz alternating current, it will take no less than 2s. Note. With the automatic timing test equipment, the test time of 2s can be reduced to not less than 1s. --- pulsed voltage test with 1.2/50μs waveform and 4kV peak voltage, with no less than 1s in each time interval Pulses, the test voltage is applied to the end of the power supply, such as a plug or plug connector. For this test, the L-pole and N-pole conductors can be connected together. Flashover should not occur. GB 15934-2008/IEC 60799.1998 ......
Source: Above contents are excerpted from the PDF -- translated/reviewed by: www.chinesestandard.net / Wayne Zheng et al.