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Delivery: <= 3 days. True-PDF full-copy in English will be manually translated and delivered via email. GB/T 36640-2018: Solid-state relay Status: Valid
Basic dataStandard ID: GB/T 36640-2018 (GB/T36640-2018)Description (Translated English): Solid-state relay Sector / Industry: National Standard (Recommended) Classification of Chinese Standard: L25 Classification of International Standard: 29.120.70 Word Count Estimation: 34,358 Date of Issue: 2018-09-17 Date of Implementation: 2019-04-01 Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration GB/T 36640-2018: Solid-state relay---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.Solid-state relay ICS 29.120.70 L25 National Standards of People's Republic of China Solid state relay (IEC 62314.2006, IDT) Published on.2018-09-17 Implementation of.2019-04-01 State market supervision and administration China National Standardization Administration issued ContentForeword I 1 Scope 1 2 Normative references 2 3 Terms and Definitions 3 4 Solid state relay characteristics 6 5 signs and documents 8 6 standard condition 9 7 Structural requirements 9 8 Performance requirements 11 9 Identification test 14 Appendix A (Normative) Insulation fit 16 Appendix B (Normative) Glow Wire Test 27 Appendix C (Normative) Quick Connect End 29ForewordThis standard was drafted in accordance with the rules given in GB/T 1.1-2009. This standard uses the translation method equivalent to IEC 62314.2006 "Solid Relay". The documents of our country that have a consistent correspondence with the international documents referenced in this standard are as follows. GB/T 2423.1-2008 Environmental testing of electric and electronic products - Part 2. Test methods Test A. Low temperature (IEC 60068-2-1..2007, IDT) --- GB/T 2423.2-2008 Environmental testing of electrical and electronic products - Part 2. Test methods Test B. High temperature (IEC 60068-2-2.2007, IDT) --- GB/T 2423.3-2016 Environmental testing Part 2. Test methods Test Cab. constant damp heat test (IEC 60068- 2-78.2012, IDT) --- GB/T 2423.22-2012 Environmental testing - Part 2. Test methods Test N. Temperature change (IEC 60068-2-14. 2009, IDT) --- GB/T 5169.10-2017 Electrical and electronic products - Fire hazard testing - Part 10. Glowing wire/hot wire basic test method Glow wire device and general test method (IEC 60695-2-10.2013, IDT) --- GB/T 5169.16-2017 Electrical and electronic products - Fire hazard test - Part 16. Test flame 50W Straight flame test method (IEC 60695-11-10.2013, IDT) --- GB/T 16935.1-2008 Insulation of equipment in low-voltage systems - Part 1. Principles, requirements and tests (IEC 60664-1.2007, IDT) --- GB/T 16935.3-2016 Insulation of equipment in low-voltage systems - Part 3. s. Pollution protection (IEC 60664-3.2010, IDT) ---GB/T 17196-2017 Safety requirements for flat quick-connect terminals for connecting copper wires to connecting devices (IEC 61210. 2010, MOD) This standard has made the following editorial changes. --- Edited changes to the definition of the term "electrical relay". Please note that some of the contents of this document may involve patents. The issuing organization of this document is not responsible for identifying these patents. This standard was proposed by the Ministry of Industry and Information Technology of the People's Republic of China. This standard is under the jurisdiction of the National Technical Committee for Standardization of Electrical Relays (SAC/TC217). This standard was drafted. Beijing Ketong Electronic Relay General Factory Co., Ltd., China Electronics Technology Standardization Research Institute. The main drafters of this standard. Wu Weigang, Li Wenbing, Wang Wei. Solid state relay1 ScopeThis standard applies to solid state relays. Solid state relays are special types of electrical relays with or without a single step function As an electrical control, the state of its output circuit is changed, from the off state to the on state, and vice versa. The standard applicable to this standard Body relay, its output is AC, the current is not more than 160A, and the rated voltage is not more than 750V. Note. Solid state relays with DC output circuits are under consideration. The solid state relays covered by this standard are intended to be assembled for use in other products or equipment. Therefore, it is considered that the solid state relay can be independently Components used. This standard specifies the basic requirements for the safety and function of solid state relays. Solid state relays assembled in products or equipment shall comply with the applicable product and/or equipment standards that meet their requirements for use. under The column is an example of its application. ---General industrial equipment; ---Electrical facilities; ---Motor; ---Electric appliances; ---Office communication; ---Building automation and environmental control; ---Automation and production process control; ---Electrical installation engineering; ---Medical Engineering; ---telecommunications; ---Traffic Engineering; ---Transportation engineering; --- Lighting control. Solid relays are components rather than stand-alone devices that do not directly perform the functions of a device. Therefore, this standard does not include Electromagnetic compatibility (EMC) requirements. Note. This content complies with the requirements of the European EMC Directive. If the increased requirements are specified due to the application of solid relays, such as electromagnetic compatibility, overcurrent protection, etc., the corresponding IEC standard shall be The solid state relay is evaluated. Solid-state switching devices of monolithic integrated structures that fall within the scope of IEC Section 47E Technical Committee are not included in this standard. IEC 60947 "Low-voltage switchgear and control equipment" developed by IEC Section 17B Technical Committee is not included in this standard. Semiconductor control devices and contactors. The qualification test is used to verify whether the solid state relay meets the requirements of this standard. The purpose of this standard is to specify the following. ---Characteristics of solid relays; --- Solid relays should meet the following requirements. a) work and operating status; b) dielectric insulation properties; c) the degree of protection provided by its outer casing, where applicable; --- Verification inspections that have met the requirements and the test methods used; ---Required with the solid relay or the information given in the manufacturer's documentation.2 Normative referencesThe following documents are indispensable for the application of this document. For dated references, only dated versions apply to this article. Pieces. For undated references, the latest edition (including all amendments) applies to this document. GB/T 2423.28-2005 Environmental testing of electrical and electronic products - Part 2. Test methods Test T. Soldering (IEC 60068- 2-20. 1979, IDT) GB/T 2900.63-2003 Electrotechnical terminology basic relay (IEC 60050-444.2002, IDT) GB/T 19405.1-2003 Surface Mounting Techniques Part 1. Standard Methods for Surface Mount Components (SMDS) (IEC 61760-1.1998, IDT) IEC 60038.1983 IEC standard voltages (IEC standardvoltages) Amendment No. 1 (1994) Amendment No. 2 (1997) IEC 60050-195.1998 International Electrotechnical Vocabulary (IEV) Part 195. Earth and electric shock protection [Internationalelectro- Technicalvocabulary(IEV)-Part 195.Earthingandprotectionagainstelectricshock] IEC 60068-2-1.1990 Environmental test Part 2. Test methods Test A. Low temperature (Environmental testing- Part 2.Tests-TestA.Cold) IEC 60068-2-2.1974 Environmental testing - Part 2. Test methods Test B. High temperature (Environmental testing - Part 2. Tests-TestB. Dryheat) IEC 60068-2-14.1984 Environmental test Part 2. Test methods Test N. Temperature change (Environmentaltes- ting-Part 2.Tests-TestN.Changeoftemperature) Amendment No. 1 (1986) IEC 60068-2-78.2001 Environmental testing - Part 2-78. Test method test Cab. constant damp heat test (Environ- mentaltesting-Part 2-78. Tests-TestCab. Dampheatsteadystate) IEC 60112.2003 Determination of the electrical tracking index and comparison of the electrical tracking index of solid insulating materials (Methodforthede- Terminationoftheproofandthecomparativetrackingindicesofsolidinsulatingmaterials) IEC 60529 enclosure protection rating (IP code) [Degreesofprotectionprovidedbyenclosures(IPCode)] IEC 60664-1 Insulation of equipment in low-voltage systems - Part 1. Principles, requirements and tests (Insulationcoordination forequipmentwithinlow-voltagesystems-Part 1.Principles, requirementsandtests) IEC 60664-3.2003 Insulation of equipment in low-voltage systems - Part 3. Protection against contamination by coatings, tanks and moulding (Insulationcoordinationforequipmentwithinlow-voltagesystems-Part 3.Useofcoating,pottingor Mouldingforprotectionagainstpolution) IEC 60695-2-10.2000 Fire hazard testing - Part 2-10. s. Glow wire device and general test method (Firehazardtesting-Part 2-10. Glowing/hot-wirebasedtestmethods- Glow-wireapparatusandcommontestprocedure) IEC 60695-10-2.2003 Fire hazard test Part 10-2. Abnormal heating ball pressure test (Firehazard testing-Part 10-2. Abnormalheat-Balpressuretest) IEC 60695-11-10.2003 Electrical and electronic products - Fire hazard testing - Part 11-10. Flame test 50 W Straight flame test method (Firehazardtesting-Part 11-10. Testflames-50Whorizontalandverticalflametest Methods) IEC 60999-1.1999 - Safety requirements for threaded and non-threaded fasteners - Part 1 . 0.2mm2~ General requirements and special requirements for 35mm2 (inclusive) electrical conductor fasteners [Connectingdevices-Electricalcopperconduc- tors-Safetyrequirementsforscrew-typeandscrewless-typeclampingunits-Part 1.Generalrequire- Mensandparticularrequirementsforclampingunitsforconductorsfrom0.2mm2upto35mm2(in- Cluded)] IEC 61210.1993 Safety requirements for flat quick-connect terminals for connecting copper wires to connecting devices (Connectingdevices -Flatquick-connectterminationsforelectricalcopperconductors-Safetyrequirements)3 Terms and definitionsThe following terms and definitions as defined in GB/T 2900.63-2003 apply to this document. 3.1 Terms and definitions related to relays 3.1.1 An electrical relay that produces a predetermined response without mechanical motion from electronic, magnetic, optical, or other components. [GB/T 2900.63-2003, definition 444-01-05] 3.1.2 Electrical relay electricalrelay When the component is controlled such that its input current reaches a specified condition, one or more of its output circuits will produce a predetermined transition element. Device. 3.1.3 Rated operating voltage ratedoperationalvoltage Ue The voltage value used by the solid state relay is determined by the corresponding test and load category. 3.1.4 Rated insulation voltage ratedinsulationvoltage Ui The voltage value associated with the dielectric withstand voltage test and creepage distance. 3.1.5 Rated impulse withstand voltage ratedimpulsewithstandvoltage Uimp Solid state relays can withstand failures, peak voltages with specified waveforms and polarities under specified test conditions, and electrical The gap value is related. 3.1.6 Rated operating current ratedoperationalcurrent Ie Unless otherwise specified, at 40 ° C ambient temperature, when the solid state relay is in the on state, its rated working voltage, rated frequency (see 4.3), load category (see 4.4) and normal operating current related to overload characteristics. 3.1.7 Rated continuous current rateduninterruptedcurrent Iu The value of the current that a solid state relay can withstand during continuous load loading is specified by the manufacturer. 3.1.8 Rated frequency ratedfrequency The frequency of the power supply designed by the solid state relay and adapted to its other characteristics. Note. A value or a range of values can be specified for the rated frequency of the same solid state relay, or the same solid state relay can be used under both AC and DC. Work at rated. 3.1.9 Overload current working curve overloadcurrendprofile A plot of the current versus time given for the controlled overload current. 3.1.10 Working power operatingcapability The total power represented, including. ---Switch and carry its on-state current; and --- Establish and keep in the off state (blocking). The highest rated voltage is applied under the specified load and load category overload conditions, overload current operating curve and duty cycle. 3.1.11 Rated condition short-circuit current ratedconditionalshort-circuitcurrent The expected current value specified by the manufacturer. The solid state relay is protected by a short circuit protection device specified by the manufacturer. In the corresponding product standard Under the specified test conditions, the solid state relay can withstand the current value during the operating time of the protection device. 3.1.12 Leakage current Il The rms value of the maximum current allowed by the manufacturer's specified solid state relay in the off state. 3.1.13 On-state voltage drop ON-statevoltagedrop Ud The solid state relay specified by the manufacturer outputs the voltage peak-to-peak value between the output terminals in the on state. 3.2 Terms and definitions for insulation coordination (see Appendix A) 3.2.1 Clearance clearance The shortest distance between the two conductive members in the air. [IEC 60664-1, Definition 1.3.2] 3.2.2 Creepage distance creepagedistance The shortest distance between the two conductive members along the surface of the insulating material. [IEC 60664-1, Definition 1.3.3] 3.2.3 Functional insulation functionalinsulation Only the insulation required for the specific function of the device is applied between the conductive parts. [IEC 60664-1, Definition 1.3.17.1] 3.2.4 Solid insulation solidinsulation Insert a solid insulating material between the two conductive members. [IEC 60664-1, Definition 1.3.4] 3.2.5 Basic insulation basicsulation Insulation is provided on the conductive member to provide basic protection against electric shock. Note. Basic insulation does not necessarily include insulation specifically for functional purposes. [IEC 60664-1, definition 1.3.17.2] 3.2.6 Additional insulation supplementaryinsulation In addition to the basic insulation, an additional independent insulation is provided to provide protection against electric shock in the event of a basic insulation failure. [IEC 60664-1, Definition 1.3.17.3] 3.2.7 Double insulated doubleinsulation Insulation consisting of both basic and additional insulation. [IEC 60664-1, definition 1.3.17.4] 3.2.8 Reinforced reinforced insulation An independent insulation structure is provided on the conductive member to provide protection against electric shock equal to double insulation under the conditions specified by the relevant standards. Protection level. Note. A separate insulation structure does not mean that the insulation structure must be a homogeneous monomer. The insulating structure can be composed of multiple layers, and these Levels cannot be tested separately as basic insulation or additional insulation. [IEC 60664-1, definition 1.3.17.5] 3.2.9 Overvoltage overvoltage The peak value is greater than any peak voltage of the corresponding steady state voltage peak under normal operating conditions. [IEC 60664-1, definition 1.3.7] 3.2.10 Overvoltage category overvoltagecategory Transient overvoltage conditions expressed as numbers. Note. For overvoltage categories I, II, III and IV, see 2.2.2.1 of IEC 60664-1. [IEC 60664-1, Definition 1.3.10] 3.2.11 Pollution polution Any foreign matter (solid, liquid or gas) that would reduce the dielectric resistance or surface resistivity of the dielectric of the insulator. [IEC 60664-1, Definition 1.3.11] 3.2.12 Micro-environment In particular, the direct environment of the insulator that affects the size of the creepage distance. [IEC 60664-1, definition 1.3.12.2] 3.2.13 Macroscopic environment macro-evironment The environment in which the equipment is installed or used in a room or other location. [IEC 60664-1, Definition 1.3.12.1] 3.2.14 Pollution degree polutiondegree The estimated degree of contamination of the microenvironment characterized by numbers. Note. For pollution levels 1, 2, 3 and 4, see 2.5.1 of IEC 60664-1. [IEC 60664-1, Definition 1.3.13] 3.2.15 Type 1 protection type1protection Protection against contamination by coating, potting or molding, which can withstand Class 1 contamination. Note 1. Requirements and tests are given in IEC 60664-3.2003. Note 2. Level 1 pollution is as specified in A.2.3.4 Solid state relay characteristics4.1 Overview of Features The characteristics of a solid state relay are expressed in the following terms (where applicable). --- Solid relay type (see 4.2); --- Rating and limit values of the load circuit (see 4.3); ---load category (see 4.4); --- Rating and limit values of the control circuit (see 4.5). 4.2 Solid Relay Type The type of solid state relay is expressed as follows. ---The number of groups of load circuit groups; --- Type of load circuit group. 4.3 Rating and limit values of the load circuit The rating and limit values for the following parameters shall be determined for the solid state relay, but all corresponding values shall not necessarily be determined by tests. ---Rated voltage. ● rated working voltage (Ue); ● On-state voltage drop (Ud); ● rated insulation voltage (Ui); In any case, the maximum rated operating voltage must not exceed its rated insulation voltage. Note. If the rated insulation voltage is not specified for the solid state relay, the maximum rated operating voltage is considered to be its rated insulation voltage. ● Rated impulse withstand voltage (Uimp). The rated impulse withstand voltage of a solid state relay shall be equal to or higher than the transient overvoltage gauge generated in the circuit to which it is connected. Value. ---Rated current. ● rated operating current (Ie); ● rated continuous current (Iu); ● Leakage current (Il). The above requirements shall be given by the manufacturer. ---Rated frequency. ---rated load and overload characteristics. ● Overload current working curve. The overload current is a multiple of the rated operating current (Ie) (see Table 4), indicating the operating current under operating overload conditions. The maximum value. Care should be taken that the time does not exceed its 10 power frequency cycles but may exceed the values specified in Table 4 and is overloaded Overload current not considered in the current curve. ● Working power. The operating power is expressed by the following characteristics. Rated operating voltage; Rated operating current; Overload current operating curve; Load category. The above requirements are given in Chapter 8. --- rated condition short circuit current. 4.4 Load category The standard load categories are specified in Table 1. Any other type of load should be based on the agreement between the manufacturer and the user, but The information given in the manufacturer's catalog or in the tender can be used in place of this agreement. Each load category (see Table 1) consists of current, voltage, power factor values and other data in Tables 4 and 5 and uses this standard. The test conditions specified in the test were characterized. A solid state relay indicating only one load category rating, if the load category rating has been tested and verified, as long as the For column requirements, the ratings for other load categories can be given without trial. --- The tested rated operating current and voltage should not be less than the rated value given without testing; --- The tested load rating and duty cycle requirements shall be equal to or stricter than the rating given without testing; --- The tested load rating of the overload current ......Tips & Frequently Asked Questions:Question 1: How long will the true-PDF of GB/T 36640-2018_English be delivered?Answer: Upon your order, we will start to translate GB/T 36640-2018_English as soon as possible, and keep you informed of the progress. The lead time is typically 1 ~ 3 working days. The lengthier the document the longer the lead time.Question 2: Can I share the purchased PDF of GB/T 36640-2018_English with my colleagues?Answer: Yes. 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