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Position: Chinese Standard in English/GB 7251.1-2013
GB 7251.1-2013   Low-voltage switchgear and controlgear assemblies-Part 1:General rules (English Version)
Standard No.: GB 7251.1-2013 Status:superseded remind me the status change

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Language:English File Format:PDF
Word Count: 52000 words Price(USD):140.0 remind me the price change

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Implemented on:2007-12-1 Delivery: via email in 1 business day
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Standard No.: GB 7251.1-2013
English Name: Low-voltage switchgear and controlgear assemblies-Part 1:General rules
Chinese Name: 低压成套开关设备和控制设备 第1部分:总则
Chinese Classification: K31    Low-voltage distribution electrical equipment
Professional Classification: GB    National Standard
Issued by: AQSIQ,SAC
Issued on: 2013-12-31
Implemented on: 2007-12-1
Status: superseded
Superseded by:GB/T 7251.1-2013 Low-voltage switchgear and controlgear assemblies―Part 1:General rules
强制性推荐性标准
Superseding:GB 7251.1-2005 Low-voltage switchgear and controlgear assemblies Part 1:Type-tested and partially type-tested assemblies
Language: English
File Format: PDF
Word Count: 52000 words
Price(USD): 140.0
Delivery: via email in 1 business day
1 Scope This part of GB 7251 lays down the definitions and states of the service conditions, construction requirements, technical characteristics and verification requirements for low voltage switchgear and controlgear assemblies (hereinafter referred to as “ASSEMBLY”) (see 3.1.1). This standard cannot be used alone to specify an ASSEMBLY or used for a purpose of determining conformity. ASSEMBLIES shall comply with the relevant part of the GB 7251 series; Parts 2 onwards. This part applies to low-voltage switchgear and controlgear assemblies (ASSEMBLIES) only when required by the relevant ASSEMBLY standard as follows: - ASSEMBLIES for which the rated voltage does not exceed 1000V in case of a.c. or 1500V in case of d.c.; - stationary or movable ASSEMBLIES with or without enclosure; - ASSEMBLIES intended for use in connection with the generation, transmission, distribution and conversion of electric energy, and for the control of electric energy consuming equipment; - ASSEMBLIES designed for use under special service conditions, for example in ships and in rail vehicles provided that the other relevant specific requirements are complied with; Note 1: supplementary requirements for ASSEMBLIES in ships are covered by GB/T 7061. - ASSEMBLIES designed for electrical equipment of machines provided that the other relevant specific requirements are complied with. Note 2: supplementary requirements for ASSEMBLIES forming part of a machine are covered by the GB 5226 series. This part applies to all ASSEMBLIES whether they are designed, manufactured and verified on a one-off basis or fully standardized and manufactured in quantity. The manufacture and/or assembly may be carried out other than by the original manufacturer (see 3.10.1). This standard does not apply to individual devices and self-contained components, such as motor starters, fuse switches, electronic equipment, etc. which will comply with the relevant product standards. 2 Normative References The following referenced documents are indispensable for the application of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. GB/T 2423.17-2008 Environmental Testing for Electric and Electronic Products - Part 2: Test Method - Test Ka: Salt Mist (IEC 60068-2-11:1981, IDT) GB/T 2423.2-2008 Environmental Testing for Electric and Electronic Products - Part 2: Test Methods - Test B: Dry Heat (IEC 60068-2-2:2007, IDT) GB/T 2423.4-2008 Environmental Testing for Electric and Electronic Products - Part 2: Test method - Test Db: Damp Heat, Cyclic (12h+12h Cycle) (IEC 60068-2-30:2005, IDT) GB/T 4025-2010 Basic and Safety Principles for Man-machine Interface (MMI), Marking and Identification - Coding Principles for Indicators and Actuators (IEC 60073:2002, IDT) GB/T 4205-2010 Basic and Safety Principles for Man-machine Interface (MMI), Marking and Identification - Actuating Principles (IEC 60447:2004, IDT) GB 4208-2008 Degrees of Protection Provided by Enclosure (IP Code) (IEC 60529:2001, IDT) GB/T 5013.3-2008 Rubber Insulated Cables of Rated Voltages up to and Including 450/750V - Part 3: Heat Resistant Silicone Insulated Cables (IEC 60245-3:1994, IDT) GB/T 5169.10-2006 Fire Hazard Testing for Electric and Electronic Products - Part 10: Glow/Hot-wire Based Test Methods - Glow-wire Apparatus and Common Test Procedure (IEC 60695-2-10:2000, IDT) GB/T 5169.11-2006 Fire Hazard Testing for Electric and Electronic Products - Part 11: Glow/Hot-wire Based Test Methods - Glow-wire Flammability Test Method for End-products (IEC 60695-2-11:2000, IDT) GB/T 5169.5-2008 Fire Hazard Testing for Electric and Electronic Products - Part 5: Test Flames-Needle Test Method - Apparatus Confirmatory Arrangement and Guidance (IEC 60695-11-5:2004, IDT) GB/T 9341-2008 Plastics - Determination of Flexural Properties (ISO 178:2001, IDT) GB/T 16895.10-2010 Low-voltage Electrical Installations - Part 4-44: Protection for Safety - Protection against Voltage Disturbances and Electromagnetic Disturbances (IEC 60364-4-44:2007, IDT) GB 16895.21-2011 Low-voltage Electrical Installations - Part 4-41: Protection for Safety - Protection Against Electric Shock (IEC 60364-4-41:2005, IDT) GB/T 16935.1-2008 Insulation Coordination for Equipment within Low-voltage Systems - Part 1: Principles, Requirements and Tests (IEC 60664-1:2007, IDT) GB/T 17626.11-2008 Electromagnetic Compatibility - Testing and Measurement Techniques - Voltage Dips, Short Interruptions and Voltage Variations Immunity Tests (IEC 61000-4-11:2004, IDT) GB/T 17626.13-2006 Electromagnetic Compatibility - Testing and Measurement Techniques - Harmonics and Interharmonics Including Mains Signaling at A.C. Power Port, Low Frequency Immunity Test (IEC 61000-4-13:2002 ), IDT) GB/T 17626.4-2008 Electromagnetic Compatibility - Testing and Measurement Techniques - Electrical Fast Transient/Burst Immunity Test (IEC 61000-4-4:2004, IDT) GB/T 17626.5-2008 Electromagetic Compatibility - Testing and Measurement Techniques - Surge (Impact) Immunity Test (IEC 61000-4-5:2005, IDT) GB/T 20138-2006 Degrees of Protection Provided by Enclosures for Electrical Equipment Against External Mechanical Impacts (IK Code) (IEC 62262:2002, IDT) GB/T 24276-2009 A Method of Temperature-rise Assessment by Extrapolation for Partially Type-tested Assemblies (PTTA) of Low-voltage Switchgear and Controlgear (IEC/TR 60890:1987+IEC/TR 60890:1987/Amd 1:1995, IDT) IEC 60085:2007 Electrical Insulation - Thermal Evaluation and Designation IEC 60216 (All Parts) Electrical Insulating Materials - Properties of Thermal Endurance (All Parts) IEC 60227-3:1993 Polyvinyl Chloride Insulated Cables of Rated Voltages up to and Including 450/750 V - Part 3: Non-sheathed Cables for Fixed Wiring IEC 60245-4:1994 Rubber Insulated Cables - Rated Voltages up to and Including 450/750 V - Part 4: Cords and Flexible Cables IEC 60364 Low-voltage Electrical Installations (All Parts) IEC 60364-5-52:2009 Low-voltage Electrical Installations - Part 5-52: Selection and Erection of Electrical Equipment - Wiring Systems IEC 60364-5-53:2001 Electrical Installations of Buildings - Part 5-53: Selection and Erection of Electrical Equipment – Isolation, Switching and Control IEC 60364-5-54:2011 Low-voltage Electrical Installations - Part 5-54: Selection and Erection of Electrical Equipment - Earthing Arrangements and Protective Conductors IEC 60439 (All Parts) Low-voltage Switchgear and Controlgear Assemblies (All Parts) IEC 60445:2010 Basic and Safety Principles for Man-machine Interface, Marking and Identification - Identification of Equipment Terminals, Conductor Terminations and Conductors IEC 60865-1:1993 Short-circuit Currents - Calculation of Effects - Part 1: Definitions and Calculation Methods IEC 60947-1:2007 Low-voltage Switchgear and Controlgear - Part 1: General Rules IEC 61000-4-2:2008 Electromagnetic Compatibility (EMC) -Part 4-2: Testing and Measurement Techniques - Electrostatic Discharge Immunity Test IEC 61000-4-3:2006 Electromagnetic Compatibility (EMC) - Part 4-3: Testing and measurement Techniques - Radiated, Radio Frequency, Electromagnetic Field Immunity Test ) IEC 61000-4-6:2008 Electromagnetic Compatibility (EMC) - Part 4-6: Testing and Measurement Techniques - Immunity to Conducted Disturbances, Induced by Radio-Frequency Fields IEC 61000-4-8:2009 Electromagnetic Compatibility (EMC) - Part 4-8: Testing and Measurement Techniques - Power Frequency Magnetic Field Immunity Test IEC 61000-6-4:2006 Electromagnetic Compatibility (EMC) - Part 6-4: Generic Standards - Emission Standard for Industrial Environments ) IEC 61082-1 Preparation of Documents Used in Electro-technology - Part 1: Rules IEC 61180 (All Parts) High-voltage Test Techniques for Low-voltage Equipment (All Parts) IEC 61201:2007 Extra-low Voltage (ELV) - Limit Values IEC 61439 (All Parts) Low-voltage Switchgear and Controlgear Assemblies (All Parts) IEC 62208 Empty Enclosures for Low-voltage Switchgear and Controlgear Assemblies - General Requirements IEC 81346-1 Industrial Systems, Installations and Equipment and Industrial Products - Structuring Principles and Reference Designations - Part 1: Basic Rules IEC 81346-2 Industrial Systems, Installations and Equipment and Industrial Products - Structuring Principles and Reference Designations - Part 2: Classification of Objects and Codes for Classes IEC/CISPR 11:2009 Industrial, Scientific and Medical Equipment - Radio-frequency Disturbance Characteristics - Limits and Methods of Measurement ) IEC/CISPR 22 Information Technology Equipment - Radio Disturbance Characteristics - Limits and Methods of Measurement ISO 179 (All Parts) Plastics - Determination of Charpy Impact Strength (All Parts) ISO 2409:2007 Paints and Varnishes - Cross-cut Test ISO 4628-3:2003 Paints and Varnishes - Evaluation of Degradation of Coatings - Designation of Quantity and Size of Defects, and of Intensity of Uniform Changes in Appearance - Part 3: Assessment of Degree of Rusting ISO 4892-2:2006 Plastics - Methods of Exposure to Laboratory Light Sources - Part 2: Xenonarc Lamps 3 Terms and Definitions For the purposes of this document, the following terms and definitions apply. 3.1 General Terms 3.1.1 Low-voltage switchgear and controlgear assembly (ASSEMBLY) Combination of one or more low-voltage switching devices together with associated control, measuring, signaling, protective, regulating equipment, with all the internal electrical and mechanical interconnections and structural parts 3.1.2 ASSEMBLY system Full range of mechanical and electrical components (enclosures, busbars, functional units, etc.), as defined by the original manufacturer, which can be assembled in accordance with the original manufacturer’s instructions in order to produce various ASSEMBLIES. 3.1.3 Main circuit (of an ASSEMBLY) All the conductive parts of an ASSEMBLY included in a circuit which is intended to transmit electrical energy [IEC 60050-441:1984, 441-13-02] 3.1.4 Auxiliary circuit (of an ASSEMBLY) All the conductive parts of an ASSEMBLY included in a circuit (other than the main circuit) intended to control, measure, signal, regulate and process data, etc.
Foreword i Introduction v 1 Scope 2 Normative References 3 Terms and Definitions 3.1 General Terms 3.2 Constructional Units of ASSEMBLIES 3.3 External Design of ASSEMBLIES 3.4 Structural Parts of ASSEMBLIES 3.5 Conditions of Installation of ASSEMBLIES 3.6 Insulation Characteristics 3.7 Protection against Electric Shock 3.8 Characteristics 3.9 Verification 3.10 Manufacturer/User 4 Symbols and Abbreviations 5 Interface Characteristics 5.1 General 5.2 Voltage Ratings 5.3 Current Ratings 5.4 Rated Diversity Factor (RDF) 5.5 Rated Frequency (fn) 5.6 Other Characteristics 6 Information 6.1 ASSEMBLY Designation Marking 6.2 Documentation 6.3 Device and/or Component Identification 7 Service Conditions 7.1 Normal Service Conditions 7.2 Special Service Conditions 7.3 Conditions during Transport, Storage and Installation 8 Constructional Requirements 8.1 Strength of Materials and Parts 8.2 Degree of Protection Provided by an ASSEMBLY Enclosure 8.3 Clearances and Creepage Distances 8.4 Protection against Electric Shock 8.5 Incorporation of Switching Devices and Components 8.6 Internal Electrical Circuits and Connections 8.7 Cooling 8.8 Terminals for External Conductors 9 Performance Requirements 9.1 Dielectric Properties 9.2 Temperature Rise Limits 9.3 Short-circuit Protection and Short-circuit Withstand Strength 9.4 Electromagnetic Compatibility (EMC) 10 Design Verification 10.1 General 10.2 Strength of Materials and Parts 10.3 Degree of Protection of ASSEMBLIES 10.4 Clearances and Creepage Distances 10.5 Protection against Electric Shock and Integrity of Protective Circuits 10.6 Incorporation of Switching Devices and Components 10.7 Internal Electrical Circuits and Connections 10.8 Terminals for External Conductors 10.9 Dielectric Properties 10.10 Verification of Temperature Rise 10.11 Short-circuit Withstand Strength 10.12 Electromagnetic Compatibility (EMC) 10.13 Mechanical Operation 11 Routine Verification 11.1 General 11.2 Degree of Protection of Enclosures 11.3 Clearances and Creepage Distances 11.4 Protection against Electric Shock and Integrity of Protective Circuits 11.5 Incorporation of Built-in Components 11.6 Internal Electrical Circuits and Connections 11.7 Terminals for External Conductors 11.8 Mechanical Operation 11.9 Dielectric Properties 11.10 Wiring, Operational Performance and Function Appendix A (Normative) Minimum and Maximum Cross-section of Copper Conductors Suitable for Connection to Terminals for External Conductors (See 8.8) Appendix B (Normative) Method of Calculating the Cross-sectional Area of Protective Conductors with regard to Thermal Stresses due to Currents of Short Duration Appendix C (Informative) User Information Template Appendix D (Informative) Design Verification Appendix E (Informative) Rated Diversity Factor E.1 General E.2 Rated Diversity Factor of An ASSEMBLY E.3 Rated Diversity Factor of A Group of Outgoing Circuits E.4 Rated Diversity Factor and Intermittent Duty Appendix F (Normative) Measurement of Clearances and Creepage Distances F.1 Basic Principles F.2 Use of Ribs Appendix G (Normative) Correlation between the Nominal Voltage of the Supply System and the Rated Impulse Withstand Voltage of the Equipment Appendix H (Informative) Operating Current and Power Loss of Copper Conductors Appendix I (Void) Appendix J (Normative) Electromagnetic Compatibility (EMC) J.1 General J.2 Terms and Definitions Appendix K (Normative) Protection by Electrical Separation K.1 General K.2 Electrical Separation K.3 Class II Equipment or Equivalent Insulation Appendix L (Informative) Clearances and Creepage Distances for North American Region Appendix M (Informative) North American Temperature Rise Limits Appendix N (normative) Operating Current and Power Loss of Bare Copper Bars Appendix O (Informative) Guidance on Temperature Rise Verification O.1 General O.2 Temperature Rise Limits O.3 Test O.4 Calculation O.5 Design Rules Appendix P (Normative) Verification of the Short-circuit Withstand Strength of Busbar Structures by Comparison with a Tested Reference Design by Calculation P.1 General P.2 Terms and Definitions P.3 Method of Verification P.4 Conditions for Application Bibliography Figure E.1 Typical ASSEMBLY Figure E.2 Example 1: Table E.1 - Functional unit Loading for an ASSEMBLY with a Rated Diversity Factor of Figure E.3 Example 2: Table E.1 – Functional Unit Loading for an ASSEMBLY with a Rated Diversity Factor of Figure E.4 Example 3: Table E.1 – Functional Unit Loading for an ASSEMBLY with a Rated Diversity Factor of Figure E.5 Example 4: Table E.1 – Functional Unit Loading for an ASSEMBLY with a Rated Diversity Factor of Figure E.6 Example of Average Heating Effect Calculation Figure E.7 Example Graph for the Relation between the Equivalent RDF and the Parameters at Intermittent Duty at t1=0.5 s, I1=7I2 at Different Cycle Times Figure E.8 Example Graph for the Relation between the Equivalent RDF and the Parameters at Intermittent Duty at I1=I2 (No Starting Overcurrent) Figure F.1 Measurement of Ribs Figure J.1 Examples of Ports Figure O.1 Temperature Rise Verification Methods Figure P.1 Tested Busbar Structure (TS) Figure P.2 Non Tested Busbar Structure (NTS) Figure P.3 Angular Busbar Configuration with Supports at the Corners Table 1 Minimum Clearances in Air a (8.3.2) Table 2 Minimum Creepage Distances (8.3.3) Table 3 Cross-sectional Area of A Copper Protective Conductor (8.4.3.2.2) Table 4 Conductor Selection and Installation Requirements (8.6.4) Table 5 Minimum Cross-sectional Area of Copper Protective Conductors (PE, PEN) (8.8) Table 6 Temperature-rise Limits (9.2) Table 7 Values for the Factor na (9.3.3) Table 8 Power-frequency Withstand Voltage for Main Circuits (10.9.2) Table 9 Power-frequency Withstand Voltage for Auxiliary and Control Circuits (10.9.2) Table 10 Impulse Withstand Test Voltages (10.9.3) Table 11 Copper Test Conductors for Rated Currents up to 400A Inclusive (10.10.2.3.2) Table 12 Copper Test Conductors for Rated Currents from 400A to 4000A (10.10.2.3.2) Table 13 Short-circuit Verification by Comparison with a Reference Design: Check List (10.5.3.3, 10.11.3 and 10.11.4) Table 14 Relationship between Prospective Fault Current and Diameter of Copper Wire Table A.1 Cross-section of Copper Conductors Suitable for Connection to Terminals for External Conductors Table B.1 Values of k for Insulated Protective Conductors not incorporated in Cables, or Bare Protective Conductors in contact with Cable Covering Table C.1 Template Table D.1 List of Design Verifications to be Performed Table E.1 Examples of Loading for an ASSEMBLY with a Rated Diversity Factor of Table E.2 Example of Loading of a Group of Circuits (Section B – Figure E.1) with a Rated Diversity Factor of Table E.3 Example of Loading of a Group of Circuits (Sub-distribution Board – Figure E.1) with a Rated Diversity Factor of Table F.1 Minimum Width of Grooves Table G.1 Correspondence between the Nominal Voltage of the Supply System and the Equipment Rated Impulse Withstand Voltage Table H.1 Operating Current and Power Loss of Single-core Copper Cables with a Permissible Conductor Temperature of 70℃ Table H.2 Reduction Factor k1 for Cables with a Permissible Conductor Temperature of 70℃ Table J.1 Tests for EMC Immunity for Environment A Table J.2 Tests for EMC Immunity for Environment B Table J.3 Acceptance Criteria when Electromagnetic Disturbances are Present Table K.1 Maximum Disconnecting Times for TN Systems Table L.1 Minimum Clearances in Air Table L.2 Minimum Creepage Distances Table M.1 North American Temperature Rise Limits Table N.1 Operating Current and Power Loss of Bare Copper Bars with Rectangular Cross-section, Run Horizontally and Arranged with Their Largest Face Vertical, Frequency 50 Hz~60 Hz Table N.2 Factor k4 for Different Temperatures of the Air inside the ASSEMBLY and/or for the Conductors
Referred in GB 7251.1-2013:
*GB/T 2423.17-2008 Envrionmental testing for electric and electronic products - Part 2: Test method - Test Ka: Salt mist
*GB/T 2423.2-2008 Environmental testing - Part 2: Test methods - Tests B: Dry heat
*GB/T 2423.4-2008 Environmental testing for electric and electronic products - Part 2: Test method - Test Db: Damp heat,cyclic ( 12h+12h cycle)
*GB/T 4025-2010 Basic and safety principles for man-machine interface,marking and identification—Coding principles for indicators and actuators
*GB/T 4205-2010 Basic and safety principles for man-machine interface(MMI),marking and identification—Actuating principles
*GB 4208-2008 Degrees of Protection Provided By Enclosure (IP Code)
*GB/T 5013.3-2008 Rubber insulated cables of rated voltages up to and including 450/750V - Part 3: Heat resistant silicone insulated cables
*GB/T 5169.10-2006 Fire hazard testing for electric and electronic products - Part 10: Glow/hot-wire based test methods - Glow-wire apparatus and common test procedure
*GB/T 5169.11-2006 Fire hazard testing for electric and electronic products - Part 11: Glowing/hot-wire based test methods - Glow-wire flammability test method for end-products
*GB/T 5169.5-2008 Fire hazard testing for electric and electronic products - Part 5: Test flames - Needle test method - Apparatus confirmatory arrangement and guidance
*GB/T 9341-2008 Plastics - Determination of flexural properties
*GB/T 16895.10-2010 Low-voltage electrical installations—Part 4-44: Protection for safety—Protection against voltage disturbances and electromagnetic disturbances
*GB 16895.21-2011 Low-voltage electrical installations—Part 4-41:Protection for safety—Protection against electric shock
*GB/T 16935.1-2008 Insulation coordination for equipment within low-voltage systems - Part 1: Principles requirements and tests
*GB/T 17626.11-2008 Electromagnetic compatibility--Testing and measurement techniques--Voltage dips,short interruptions and voltage variations immunity tests
*GB/T 17626.13-2006 Electromagnetic compatibility (EMC) - Testing and measurement techniques - Harmonics and interharmonics including mains signalling at a.c. power port low frequency immunity test
*GB/T 17626.4-2008 Electromagnetic compatibility - Testing and measurement techniques - Electrical fast transient/burst immunity test
*GB/T 17626.5-2008 Electromagnetic compatibility - Testing and measurement techniques - Surge immunity test
*GB/T 20138-2006 Degrees of protection provided by enclosures for electrical equipment against external mechanical impacts (IK code)
*GB/T 24276-2009 A method of temperature-rise assessment by extrapolation for partially type-tested assemblies(PTTA)of low-voltage switchgear and controlgear
GB 7251.1-2013 is referred in:
* GB/T 17410-2008 Organic heat transfer material heaters
* GB 50171-2012 Erection works of electrical installations Code for construction and acceptance of switchboard outfit,complete cubicle and secondary circuit
* GB 50171-2012 Erection works of electrical installations Code for construction and acceptance of switchboard outfit,complete cubicle and secondary circuit
* GB/T 17410-2008 Organic heat transfer material heaters
* GB 50171-2012 Erection works of electrical installations Code for construction and acceptance of switchboard outfit,complete cubicle and secondary circuit
* GB 50171-2012 Erection works of electrical installations Code for construction and acceptance of switchboard outfit,complete cubicle and secondary circuit
* GB 16895.21-2011 Low-voltage electrical installations—Part 4-41:Protection for safety—Protection against electric shock
* GB/T 18487.1-2015 Electric vehicle conductive charging system―Part 1:General requirements
* GB/T 7251.10-2014 Low-voltage switchgear and controlgear assemblies―Part 10:Guidance to specifying assemblies
* GB 7251.6-2015 Low-voltage switchgear and controlgear assemblies―Part 6:Busbar trunking systems(busways)
*GB 50303-2015
*JB/T 10216-2013 Cable Support System for Electric Control Distribution
*GB/T 15576-2008 Low-voltage reactive power compensation assemblies
*GB/Z 25842.1-2010 Low-voltage switchgear and controlgear - Overcurrent protective devices - Part 1: Application of short-circuit ratings
*GB/T 7251.7-2015 Low-voltage switchgear and controlgear assemblies―Part 7:Assemblies for specific applications such as marinas,camping sites,market squares,electric vehicles charging stations
*GB/T 22764.4-2008 Cabinets for low-voltage switchgear—Part 4:Electrical safety requirements
*GB 27898.1-2011 Fixed water supply equipment used for fire-protection - Part 1: Gas pressure fixed water supply equipment used for fire-protection
Code of China
Standard
GB 7251.1-2013  Low-voltage switchgear and controlgear assemblies-Part 1:General rules (English Version)
Standard No.GB 7251.1-2013
Statussuperseded
LanguageEnglish
File FormatPDF
Word Count52000 words
Price(USD)140.0
Implemented on2007-12-1
Deliveryvia email in 1 business day
Detail of GB 7251.1-2013
Standard No.
GB 7251.1-2013
English Name
Low-voltage switchgear and controlgear assemblies-Part 1:General rules
Chinese Name
低压成套开关设备和控制设备 第1部分:总则
Chinese Classification
K31
Professional Classification
GB
ICS Classification
Issued by
AQSIQ,SAC
Issued on
2013-12-31
Implemented on
2007-12-1
Status
superseded
Superseded by
GB/T 7251.1-2013 Low-voltage switchgear and controlgear assemblies―Part 1:General rules
强制性推荐性标准
Superseded on
Abolished on
Superseding
GB 7251.1-2005 Low-voltage switchgear and controlgear assemblies Part 1:Type-tested and partially type-tested assemblies
Language
English
File Format
PDF
Word Count
52000 words
Price(USD)
140.0
Keywords
GB 7251.1-2013, GB/T 7251.1-2013, GBT 7251.1-2013, GB7251.1-2013, GB 7251.1, GB7251.1, GB/T7251.1-2013, GB/T 7251.1, GB/T7251.1, GBT7251.1-2013, GBT 7251.1, GBT7251.1
Introduction of GB 7251.1-2013
1 Scope This part of GB 7251 lays down the definitions and states of the service conditions, construction requirements, technical characteristics and verification requirements for low voltage switchgear and controlgear assemblies (hereinafter referred to as “ASSEMBLY”) (see 3.1.1). This standard cannot be used alone to specify an ASSEMBLY or used for a purpose of determining conformity. ASSEMBLIES shall comply with the relevant part of the GB 7251 series; Parts 2 onwards. This part applies to low-voltage switchgear and controlgear assemblies (ASSEMBLIES) only when required by the relevant ASSEMBLY standard as follows: - ASSEMBLIES for which the rated voltage does not exceed 1000V in case of a.c. or 1500V in case of d.c.; - stationary or movable ASSEMBLIES with or without enclosure; - ASSEMBLIES intended for use in connection with the generation, transmission, distribution and conversion of electric energy, and for the control of electric energy consuming equipment; - ASSEMBLIES designed for use under special service conditions, for example in ships and in rail vehicles provided that the other relevant specific requirements are complied with; Note 1: supplementary requirements for ASSEMBLIES in ships are covered by GB/T 7061. - ASSEMBLIES designed for electrical equipment of machines provided that the other relevant specific requirements are complied with. Note 2: supplementary requirements for ASSEMBLIES forming part of a machine are covered by the GB 5226 series. This part applies to all ASSEMBLIES whether they are designed, manufactured and verified on a one-off basis or fully standardized and manufactured in quantity. The manufacture and/or assembly may be carried out other than by the original manufacturer (see 3.10.1). This standard does not apply to individual devices and self-contained components, such as motor starters, fuse switches, electronic equipment, etc. which will comply with the relevant product standards. 2 Normative References The following referenced documents are indispensable for the application of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies. GB/T 2423.17-2008 Environmental Testing for Electric and Electronic Products - Part 2: Test Method - Test Ka: Salt Mist (IEC 60068-2-11:1981, IDT) GB/T 2423.2-2008 Environmental Testing for Electric and Electronic Products - Part 2: Test Methods - Test B: Dry Heat (IEC 60068-2-2:2007, IDT) GB/T 2423.4-2008 Environmental Testing for Electric and Electronic Products - Part 2: Test method - Test Db: Damp Heat, Cyclic (12h+12h Cycle) (IEC 60068-2-30:2005, IDT) GB/T 4025-2010 Basic and Safety Principles for Man-machine Interface (MMI), Marking and Identification - Coding Principles for Indicators and Actuators (IEC 60073:2002, IDT) GB/T 4205-2010 Basic and Safety Principles for Man-machine Interface (MMI), Marking and Identification - Actuating Principles (IEC 60447:2004, IDT) GB 4208-2008 Degrees of Protection Provided by Enclosure (IP Code) (IEC 60529:2001, IDT) GB/T 5013.3-2008 Rubber Insulated Cables of Rated Voltages up to and Including 450/750V - Part 3: Heat Resistant Silicone Insulated Cables (IEC 60245-3:1994, IDT) GB/T 5169.10-2006 Fire Hazard Testing for Electric and Electronic Products - Part 10: Glow/Hot-wire Based Test Methods - Glow-wire Apparatus and Common Test Procedure (IEC 60695-2-10:2000, IDT) GB/T 5169.11-2006 Fire Hazard Testing for Electric and Electronic Products - Part 11: Glow/Hot-wire Based Test Methods - Glow-wire Flammability Test Method for End-products (IEC 60695-2-11:2000, IDT) GB/T 5169.5-2008 Fire Hazard Testing for Electric and Electronic Products - Part 5: Test Flames-Needle Test Method - Apparatus Confirmatory Arrangement and Guidance (IEC 60695-11-5:2004, IDT) GB/T 9341-2008 Plastics - Determination of Flexural Properties (ISO 178:2001, IDT) GB/T 16895.10-2010 Low-voltage Electrical Installations - Part 4-44: Protection for Safety - Protection against Voltage Disturbances and Electromagnetic Disturbances (IEC 60364-4-44:2007, IDT) GB 16895.21-2011 Low-voltage Electrical Installations - Part 4-41: Protection for Safety - Protection Against Electric Shock (IEC 60364-4-41:2005, IDT) GB/T 16935.1-2008 Insulation Coordination for Equipment within Low-voltage Systems - Part 1: Principles, Requirements and Tests (IEC 60664-1:2007, IDT) GB/T 17626.11-2008 Electromagnetic Compatibility - Testing and Measurement Techniques - Voltage Dips, Short Interruptions and Voltage Variations Immunity Tests (IEC 61000-4-11:2004, IDT) GB/T 17626.13-2006 Electromagnetic Compatibility - Testing and Measurement Techniques - Harmonics and Interharmonics Including Mains Signaling at A.C. Power Port, Low Frequency Immunity Test (IEC 61000-4-13:2002 ), IDT) GB/T 17626.4-2008 Electromagnetic Compatibility - Testing and Measurement Techniques - Electrical Fast Transient/Burst Immunity Test (IEC 61000-4-4:2004, IDT) GB/T 17626.5-2008 Electromagetic Compatibility - Testing and Measurement Techniques - Surge (Impact) Immunity Test (IEC 61000-4-5:2005, IDT) GB/T 20138-2006 Degrees of Protection Provided by Enclosures for Electrical Equipment Against External Mechanical Impacts (IK Code) (IEC 62262:2002, IDT) GB/T 24276-2009 A Method of Temperature-rise Assessment by Extrapolation for Partially Type-tested Assemblies (PTTA) of Low-voltage Switchgear and Controlgear (IEC/TR 60890:1987+IEC/TR 60890:1987/Amd 1:1995, IDT) IEC 60085:2007 Electrical Insulation - Thermal Evaluation and Designation IEC 60216 (All Parts) Electrical Insulating Materials - Properties of Thermal Endurance (All Parts) IEC 60227-3:1993 Polyvinyl Chloride Insulated Cables of Rated Voltages up to and Including 450/750 V - Part 3: Non-sheathed Cables for Fixed Wiring IEC 60245-4:1994 Rubber Insulated Cables - Rated Voltages up to and Including 450/750 V - Part 4: Cords and Flexible Cables IEC 60364 Low-voltage Electrical Installations (All Parts) IEC 60364-5-52:2009 Low-voltage Electrical Installations - Part 5-52: Selection and Erection of Electrical Equipment - Wiring Systems IEC 60364-5-53:2001 Electrical Installations of Buildings - Part 5-53: Selection and Erection of Electrical Equipment – Isolation, Switching and Control IEC 60364-5-54:2011 Low-voltage Electrical Installations - Part 5-54: Selection and Erection of Electrical Equipment - Earthing Arrangements and Protective Conductors IEC 60439 (All Parts) Low-voltage Switchgear and Controlgear Assemblies (All Parts) IEC 60445:2010 Basic and Safety Principles for Man-machine Interface, Marking and Identification - Identification of Equipment Terminals, Conductor Terminations and Conductors IEC 60865-1:1993 Short-circuit Currents - Calculation of Effects - Part 1: Definitions and Calculation Methods IEC 60947-1:2007 Low-voltage Switchgear and Controlgear - Part 1: General Rules IEC 61000-4-2:2008 Electromagnetic Compatibility (EMC) -Part 4-2: Testing and Measurement Techniques - Electrostatic Discharge Immunity Test IEC 61000-4-3:2006 Electromagnetic Compatibility (EMC) - Part 4-3: Testing and measurement Techniques - Radiated, Radio Frequency, Electromagnetic Field Immunity Test ) IEC 61000-4-6:2008 Electromagnetic Compatibility (EMC) - Part 4-6: Testing and Measurement Techniques - Immunity to Conducted Disturbances, Induced by Radio-Frequency Fields IEC 61000-4-8:2009 Electromagnetic Compatibility (EMC) - Part 4-8: Testing and Measurement Techniques - Power Frequency Magnetic Field Immunity Test IEC 61000-6-4:2006 Electromagnetic Compatibility (EMC) - Part 6-4: Generic Standards - Emission Standard for Industrial Environments ) IEC 61082-1 Preparation of Documents Used in Electro-technology - Part 1: Rules IEC 61180 (All Parts) High-voltage Test Techniques for Low-voltage Equipment (All Parts) IEC 61201:2007 Extra-low Voltage (ELV) - Limit Values IEC 61439 (All Parts) Low-voltage Switchgear and Controlgear Assemblies (All Parts) IEC 62208 Empty Enclosures for Low-voltage Switchgear and Controlgear Assemblies - General Requirements IEC 81346-1 Industrial Systems, Installations and Equipment and Industrial Products - Structuring Principles and Reference Designations - Part 1: Basic Rules IEC 81346-2 Industrial Systems, Installations and Equipment and Industrial Products - Structuring Principles and Reference Designations - Part 2: Classification of Objects and Codes for Classes IEC/CISPR 11:2009 Industrial, Scientific and Medical Equipment - Radio-frequency Disturbance Characteristics - Limits and Methods of Measurement ) IEC/CISPR 22 Information Technology Equipment - Radio Disturbance Characteristics - Limits and Methods of Measurement ISO 179 (All Parts) Plastics - Determination of Charpy Impact Strength (All Parts) ISO 2409:2007 Paints and Varnishes - Cross-cut Test ISO 4628-3:2003 Paints and Varnishes - Evaluation of Degradation of Coatings - Designation of Quantity and Size of Defects, and of Intensity of Uniform Changes in Appearance - Part 3: Assessment of Degree of Rusting ISO 4892-2:2006 Plastics - Methods of Exposure to Laboratory Light Sources - Part 2: Xenonarc Lamps 3 Terms and Definitions For the purposes of this document, the following terms and definitions apply. 3.1 General Terms 3.1.1 Low-voltage switchgear and controlgear assembly (ASSEMBLY) Combination of one or more low-voltage switching devices together with associated control, measuring, signaling, protective, regulating equipment, with all the internal electrical and mechanical interconnections and structural parts 3.1.2 ASSEMBLY system Full range of mechanical and electrical components (enclosures, busbars, functional units, etc.), as defined by the original manufacturer, which can be assembled in accordance with the original manufacturer’s instructions in order to produce various ASSEMBLIES. 3.1.3 Main circuit (of an ASSEMBLY) All the conductive parts of an ASSEMBLY included in a circuit which is intended to transmit electrical energy [IEC 60050-441:1984, 441-13-02] 3.1.4 Auxiliary circuit (of an ASSEMBLY) All the conductive parts of an ASSEMBLY included in a circuit (other than the main circuit) intended to control, measure, signal, regulate and process data, etc.
Contents of GB 7251.1-2013
Foreword i Introduction v 1 Scope 2 Normative References 3 Terms and Definitions 3.1 General Terms 3.2 Constructional Units of ASSEMBLIES 3.3 External Design of ASSEMBLIES 3.4 Structural Parts of ASSEMBLIES 3.5 Conditions of Installation of ASSEMBLIES 3.6 Insulation Characteristics 3.7 Protection against Electric Shock 3.8 Characteristics 3.9 Verification 3.10 Manufacturer/User 4 Symbols and Abbreviations 5 Interface Characteristics 5.1 General 5.2 Voltage Ratings 5.3 Current Ratings 5.4 Rated Diversity Factor (RDF) 5.5 Rated Frequency (fn) 5.6 Other Characteristics 6 Information 6.1 ASSEMBLY Designation Marking 6.2 Documentation 6.3 Device and/or Component Identification 7 Service Conditions 7.1 Normal Service Conditions 7.2 Special Service Conditions 7.3 Conditions during Transport, Storage and Installation 8 Constructional Requirements 8.1 Strength of Materials and Parts 8.2 Degree of Protection Provided by an ASSEMBLY Enclosure 8.3 Clearances and Creepage Distances 8.4 Protection against Electric Shock 8.5 Incorporation of Switching Devices and Components 8.6 Internal Electrical Circuits and Connections 8.7 Cooling 8.8 Terminals for External Conductors 9 Performance Requirements 9.1 Dielectric Properties 9.2 Temperature Rise Limits 9.3 Short-circuit Protection and Short-circuit Withstand Strength 9.4 Electromagnetic Compatibility (EMC) 10 Design Verification 10.1 General 10.2 Strength of Materials and Parts 10.3 Degree of Protection of ASSEMBLIES 10.4 Clearances and Creepage Distances 10.5 Protection against Electric Shock and Integrity of Protective Circuits 10.6 Incorporation of Switching Devices and Components 10.7 Internal Electrical Circuits and Connections 10.8 Terminals for External Conductors 10.9 Dielectric Properties 10.10 Verification of Temperature Rise 10.11 Short-circuit Withstand Strength 10.12 Electromagnetic Compatibility (EMC) 10.13 Mechanical Operation 11 Routine Verification 11.1 General 11.2 Degree of Protection of Enclosures 11.3 Clearances and Creepage Distances 11.4 Protection against Electric Shock and Integrity of Protective Circuits 11.5 Incorporation of Built-in Components 11.6 Internal Electrical Circuits and Connections 11.7 Terminals for External Conductors 11.8 Mechanical Operation 11.9 Dielectric Properties 11.10 Wiring, Operational Performance and Function Appendix A (Normative) Minimum and Maximum Cross-section of Copper Conductors Suitable for Connection to Terminals for External Conductors (See 8.8) Appendix B (Normative) Method of Calculating the Cross-sectional Area of Protective Conductors with regard to Thermal Stresses due to Currents of Short Duration Appendix C (Informative) User Information Template Appendix D (Informative) Design Verification Appendix E (Informative) Rated Diversity Factor E.1 General E.2 Rated Diversity Factor of An ASSEMBLY E.3 Rated Diversity Factor of A Group of Outgoing Circuits E.4 Rated Diversity Factor and Intermittent Duty Appendix F (Normative) Measurement of Clearances and Creepage Distances F.1 Basic Principles F.2 Use of Ribs Appendix G (Normative) Correlation between the Nominal Voltage of the Supply System and the Rated Impulse Withstand Voltage of the Equipment Appendix H (Informative) Operating Current and Power Loss of Copper Conductors Appendix I (Void) Appendix J (Normative) Electromagnetic Compatibility (EMC) J.1 General J.2 Terms and Definitions Appendix K (Normative) Protection by Electrical Separation K.1 General K.2 Electrical Separation K.3 Class II Equipment or Equivalent Insulation Appendix L (Informative) Clearances and Creepage Distances for North American Region Appendix M (Informative) North American Temperature Rise Limits Appendix N (normative) Operating Current and Power Loss of Bare Copper Bars Appendix O (Informative) Guidance on Temperature Rise Verification O.1 General O.2 Temperature Rise Limits O.3 Test O.4 Calculation O.5 Design Rules Appendix P (Normative) Verification of the Short-circuit Withstand Strength of Busbar Structures by Comparison with a Tested Reference Design by Calculation P.1 General P.2 Terms and Definitions P.3 Method of Verification P.4 Conditions for Application Bibliography Figure E.1 Typical ASSEMBLY Figure E.2 Example 1: Table E.1 - Functional unit Loading for an ASSEMBLY with a Rated Diversity Factor of Figure E.3 Example 2: Table E.1 – Functional Unit Loading for an ASSEMBLY with a Rated Diversity Factor of Figure E.4 Example 3: Table E.1 – Functional Unit Loading for an ASSEMBLY with a Rated Diversity Factor of Figure E.5 Example 4: Table E.1 – Functional Unit Loading for an ASSEMBLY with a Rated Diversity Factor of Figure E.6 Example of Average Heating Effect Calculation Figure E.7 Example Graph for the Relation between the Equivalent RDF and the Parameters at Intermittent Duty at t1=0.5 s, I1=7I2 at Different Cycle Times Figure E.8 Example Graph for the Relation between the Equivalent RDF and the Parameters at Intermittent Duty at I1=I2 (No Starting Overcurrent) Figure F.1 Measurement of Ribs Figure J.1 Examples of Ports Figure O.1 Temperature Rise Verification Methods Figure P.1 Tested Busbar Structure (TS) Figure P.2 Non Tested Busbar Structure (NTS) Figure P.3 Angular Busbar Configuration with Supports at the Corners Table 1 Minimum Clearances in Air a (8.3.2) Table 2 Minimum Creepage Distances (8.3.3) Table 3 Cross-sectional Area of A Copper Protective Conductor (8.4.3.2.2) Table 4 Conductor Selection and Installation Requirements (8.6.4) Table 5 Minimum Cross-sectional Area of Copper Protective Conductors (PE, PEN) (8.8) Table 6 Temperature-rise Limits (9.2) Table 7 Values for the Factor na (9.3.3) Table 8 Power-frequency Withstand Voltage for Main Circuits (10.9.2) Table 9 Power-frequency Withstand Voltage for Auxiliary and Control Circuits (10.9.2) Table 10 Impulse Withstand Test Voltages (10.9.3) Table 11 Copper Test Conductors for Rated Currents up to 400A Inclusive (10.10.2.3.2) Table 12 Copper Test Conductors for Rated Currents from 400A to 4000A (10.10.2.3.2) Table 13 Short-circuit Verification by Comparison with a Reference Design: Check List (10.5.3.3, 10.11.3 and 10.11.4) Table 14 Relationship between Prospective Fault Current and Diameter of Copper Wire Table A.1 Cross-section of Copper Conductors Suitable for Connection to Terminals for External Conductors Table B.1 Values of k for Insulated Protective Conductors not incorporated in Cables, or Bare Protective Conductors in contact with Cable Covering Table C.1 Template Table D.1 List of Design Verifications to be Performed Table E.1 Examples of Loading for an ASSEMBLY with a Rated Diversity Factor of Table E.2 Example of Loading of a Group of Circuits (Section B – Figure E.1) with a Rated Diversity Factor of Table E.3 Example of Loading of a Group of Circuits (Sub-distribution Board – Figure E.1) with a Rated Diversity Factor of Table F.1 Minimum Width of Grooves Table G.1 Correspondence between the Nominal Voltage of the Supply System and the Equipment Rated Impulse Withstand Voltage Table H.1 Operating Current and Power Loss of Single-core Copper Cables with a Permissible Conductor Temperature of 70℃ Table H.2 Reduction Factor k1 for Cables with a Permissible Conductor Temperature of 70℃ Table J.1 Tests for EMC Immunity for Environment A Table J.2 Tests for EMC Immunity for Environment B Table J.3 Acceptance Criteria when Electromagnetic Disturbances are Present Table K.1 Maximum Disconnecting Times for TN Systems Table L.1 Minimum Clearances in Air Table L.2 Minimum Creepage Distances Table M.1 North American Temperature Rise Limits Table N.1 Operating Current and Power Loss of Bare Copper Bars with Rectangular Cross-section, Run Horizontally and Arranged with Their Largest Face Vertical, Frequency 50 Hz~60 Hz Table N.2 Factor k4 for Different Temperatures of the Air inside the ASSEMBLY and/or for the Conductors
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Keywords:
GB 7251.1-2013, GB/T 7251.1-2013, GBT 7251.1-2013, GB7251.1-2013, GB 7251.1, GB7251.1, GB/T7251.1-2013, GB/T 7251.1, GB/T7251.1, GBT7251.1-2013, GBT 7251.1, GBT7251.1