• EN 60146-2 : 2000

    Current The latest, up-to-date edition.

    SEMICONDUCTOR CONVERTERS - PART 2: SELF-COMMUTATED SEMICONDUCTOR CONVERTERS INCLUDING DIRECT D.C. CONVERTERS

    Available format(s): 

    Language(s): 

    Published date:  04-02-2000

    Publisher:  European Committee for Standards - Electrical

    Pure ENs are not available for sale, please purchase a suitable national adoption

    Sorry this product is not available in your region.

    Add To Cart

    Table of Contents - (Show below) - (Hide below)

    Foreword
    1 Scope
    2 Normative References
    3 Definitions
       3.1 Functions of converters
       3.2 Types of converters
       3.3 Converter circuit components
       3.4 Important properties of converters and
            electronic valve devices
       3.5 Disturbances and electromagnetic compatibility
       3.6 Characteristics related to input and output
       3.7 Definitions of rated values
       3.8 Definitions related to cooling
       3.9 Definitions related to temperature
       3.10 Definitions related to tests
    4 Additional Subscripts and Letter Symbols
    5 Service Conditions
       5.1 Code of identification for cooling methods
       5.2 Environmental conditions
            5.2.1 Ambient air circulation
            5.2.2 Normal service conditions
            5.2.3 Unusual environmental service
                   conditions and design considerations
       5.3 Electrical service conditions
            5.3.1 Electrical environment specification
            5.3.2 Unknown site conditions
       5.4 Character of the load
       5.5 Immunity requirements
            5.5.1 AC supply
            5.5.2 DC supply
            5.5.3 Load conditions, load unbalance
            5.5.4 Electrical unusual service conditions
                   and performance requirements
    6 Rated Values and Additional Characteristics
       6.1 General
       6.2 Rated values to be specified by the supplier
            6.2.1 Rated input values
            6.2.2 Rated output values
       6.3 Additional characteristics
       6.4 Marking
    7 Tests
       7.1 General
            7.1.1 Classification of tests
            7.1.2 Performance of tests
       7.2 Test schedule for converter equipment and
            converter assemblies
       7.3 Test specifications
            7.3.1 Visual inspection
            7.3.2 Checking of auxiliary devices
            7.3.3 Insulation test
            7.3.4 Checking of the protective devices
            7.3.5 Light load and functional test
            7.3.6 Rated output test
            7.3.7 Overcurrent test
            7.3.8 Temperature-rise test
            7.3.9 Power loss determination
            7.3.10 Measurement of total harmonic
                   distortion (THD) or total harmonic
                   factor (THF)
            7.3.11 Measurement of power factor
            7.3.12 Measurement of output voltage
            7.3.13 Confirmation of output voltage
                   adjustable range
            7.3.14 Output voltage unbalance test
            7.3.15 Confirmation of output frequency
                   adjustable range
            7.3.16 Output frequency tolerances band test
            7.3.17 Checking of the automatic control
            7.3.18 Short-circuit test
            7.3.19 Measurement of audible noise
            7.3.20 Immunity test
            7.3.21 Emission test
            7.3.22 Measurement of ripple voltage and
                   current
            7.3.23 Additional tests
       7.4 Tolerances
    Annex A (informative) Example for testing high power
                          converters
       A.1 Introduction
       A.2 Basic concepts
       A.3 Test procedures
            A.3.1 Rated output test
            A.3.2 Overcurrent test
            A.3.3 Temperature-rise test
                   A.3.3.1 GTO and diode
                   A.3.3.2 Snubber circuits
                   A.3.3.3 DC capacitors
            A.3.4 Power loss determination

    Abstract - (Show below) - (Hide below)

    Applies to all types of semiconductor inverters of the self-commutated type and semiconductor convertors which contain at least one part of a self-commutated type, including direct a.c. convertors and d.c. convertors for all applications.

    General Product Information - (Show below) - (Hide below)

    Committee TC 22X
    Development Note Supersedes UNE 20846-2 (05/2005)
    Document Type Standard
    Publisher European Committee for Standards - Electrical
    Status Current
    Supersedes

    Standards Referenced By This Book - (Show below) - (Hide below)

    BS EN 62747:2014 TERMINOLOGY FOR VOLTAGE-SOURCED CONVERTERS (VSC) FOR HIGH-VOLTAGE DIRECT CURRENT (HVDC) SYSTEMS
    UNE-EN 50533:2012 Railway applications - Three-phase train line voltage characteristics.
    BS EN 62501 : 2009 VOLTAGE SOURCED CONVERTER (VSC) VALVES FOR HIGH-VOLTAGE DIRECT CURRENT (HVDC) POWER TRANSMISSION - ELECTRICAL TESTING
    09/30214359 DC : 0 BS EN 50533 - RAILWAY APPLICATIONS - THREE-PHASE TRAIN LINE VOLTAGE CHARACTERISTICS
    BS EN 62040-5-3:2017 (published 2017-02) Uninterruptible power systems (UPS) DC output UPS. Performance and test requirements
    BS EN 61800-4 : 2003 ADJUSTABLE SPEED ELECTRICAL POWER DRIVE SYSTEMS - PART 4: GENERAL REQUIREMENTS - RATING SPECIFICATIONS FOR A.C. POWER DRIVE SYSTEMS ABOVE 1000 V A.C. AND NOT EXCEEDING 35 KV
    PREN 50533 : DRAFT 2009 RAILWAY APPLICATIONS - THREE-PHASE TRAIN LINE VOLTAGE CHARACTERISTICS
    BS EN 50533 : 2011 RAILWAY APPLICATIONS - THREE-PHASE TRAIN LINE VOLTAGE CHARACTERISTICS
    EN 62040-3 : 2011 UNINTERRUPTIBLE POWER SYSTEMS (UPS) - PART 3: METHOD OF SPECIFYING THE PERFORMANCE AND TEST REQUIREMENTS (IEC 62040-3:2011)
    I.S. EN 50533:2011 RAILWAY APPLICATIONS - THREE-PHASE TRAIN LINE VOLTAGE CHARACTERISTICS
    CEI EN 62040-5-3 : 1ED 2017 UNINTERRUPTIBLE POWER SYSTEMS (UPS) - PART 5-3: DC OUTPUT UPS - PERFORMANCE AND TEST REQUIREMENTS
    I.S. EN 62040-5-3:2017 UNINTERRUPTIBLE POWER SYSTEMS (UPS) - PART 5-3: DC OUTPUT UPS - PERFORMANCE AND TEST REQUIREMENTS
    I.S. EN IEC 62909-1:2018 BI-DIRECTIONAL GRID-CONNECTED POWER CONVERTERS - PART 1: GENERAL REQUIREMENTS
    BS EN 62040-3:2011 Uninterruptible power systems (UPS) Method of specifying the performance and test requirements
    CEI EN 61800-4 : 2003 ADJUSTABLE SPEED ELECTRICAL POWER DRIVE SYSTEMS - PART 4: GENERAL REQUIREMENTS - RATING SPECIFICATIONS FOR A/C/ POWER DRIVE SYSTEMS ABOVE 1000 V A.C. AND NOT EXCEEDING 35 KV
    CEI EN 50533 : 2012 RAILWAY APPLICATIONS - THREE-PHASE TRAIN LINE VOLTAGE CHARACTERISTICS
    EN IEC 62909-1 : 2018 BI-DIRECTIONAL GRID-CONNECTED POWER CONVERTERS - PART 1: GENERAL REQUIREMENTS (IEC 62909-1:2017)
    CEI EN 62040-3 : 2015 UNINTERRUPTIBLE POWER SYSTEMS (UPS) - PART 3: METHOD OF SPECIFYING THE PERFORMANCE AND TEST REQUIREMENTS
    I.S. EN 61800-4:2003 ADJUSTABLE SPEED ELECTRICAL POWER DRIVE SYSTEMS - PART 4: GENERAL REQUIREMENTS - RATING SPECIFICATIONS FOR A.C. POWER DRIVE SYSTEMS ABOVE 1000 V A.C. AND NOT EXCEEDING 35 KV
    I.S. EN 62040-3:2011 UNINTERRUPTIBLE POWER SYSTEMS (UPS) - PART 3: METHOD OF SPECIFYING THE PERFORMANCE AND TEST REQUIREMENTS
    EN 62040-5-3 : 2017 UNINTERRUPTIBLE POWER SYSTEMS (UPS) - PART 5-3: DC OUTPUT UPS - PERFORMANCE AND TEST REQUIREMENTS (IEC 62040-5-3:2016)
    EN 62747:2014/AC:2015 TERMINOLOGY FOR VOLTAGE-SOURCED CONVERTERS (VSC) FOR HIGH-VOLTAGE DIRECT CURRENT (HVDC) SYSTEMS (IEC 62747:2014)
    EN 61800-4 : 2003 Adjustable speed electrical power drive systems - Part 4: General requirements - Rating specifications for a.c. power drive systems above 1 000 V a.c. and not exceeding 35 kV
    EN 50533 : 2011 AMD 1 2016 RAILWAY APPLICATIONS - THREE-PHASE TRAIN LINE VOLTAGE CHARACTERISTICS

    Standards Referencing This Book - (Show below) - (Hide below)

    IEC 61000-2-4:2002 Electromagnetic compatibility (EMC) - Part 2-4: Environment - Compatibility levels in industrial plants for low-frequency conducted disturbances
    EN 60146-1-1 : 2010 SEMICONDUCTOR CONVERTERS - GENERAL REQUIREMENTS AND LINE COMMUTATED CONVERTERS - PART 1-1: SPECIFICATION OF BASIC REQUIREMENTS
    ENV 61000-2-2 : 1993 ELECTROMAGNETIC COMPATIBILITY (EMC) - ENVIRONMENT - COMPATIBILITY LEVELS FOR LOW-FREQUENCY CONDUCTED DISTURBANCES AND SIGNALLING IN PUBLIC LOW-VOLTAGE POWER SUPPLY SYSTEMS
    EN 61000-2-4:2002/AC:2014 ELECTROMAGNETIC COMPATIBILITY (EMC) - PART 2-4: ENVIRONMENT - COMPATIBILITY LEVELS IN INDUSTRIAL PLANTS FOR LOW-FREQUENCY CONDUCTED DISTURBANCES
    HD 625.1 : 200S1 INSULATION COORDINATION FOR EQUIPMENT WITHIN LOW-VOLTAGE SYSTEMS - PRINCIPLES, REQUIREMENTS AND TESTS
    IEC 60050-551:1998 International Electrotechnical Vocabulary (IEV) - Part 551: Power electronics
    IEC 60050-101:1998 International Electrotechnical Vocabulary (IEV) - Part 101: Mathematics
    IEC 60146-1-1:2009 Semiconductor converters - General requirements and line commutated converters - Part 1-1: Specification of basic requirements
    IEC 60747-1:2006+AMD1:2010 CSV Semiconductor devices - Part 1: General
    IEC 61000-2-2:2002+AMD1:2017 CSV Electromagnetic compatibility (EMC) - Part 2-2: Environment - Compatibility levels for low-frequency conducted disturbances and signalling in public low-voltage power supply systems
    EN 61010-1 : 2010 SAFETY REQUIREMENTS FOR ELECTRICAL EQUIPMENT FOR MEASUREMENT, CONTROL AND LABORATORY USE - PART 1: GENERAL REQUIREMENTS (IEC 61010-1:2010)
    IEC 61010-1:2010+AMD1:2016 CSV Safety requirements for electrical equipment for measurement, control, and laboratory use - Part 1: General requirements
    IEC 60664-1:2007 Insulation coordination for equipment within low-voltage systems - Part 1: Principles, requirements and tests
    • Access your standards online with a subscription

      Features

      • Simple online access to standards, technical information and regulations
      • Critical updates of standards and customisable alerts and notifications
      • Multi - user online standards collection: secure, flexibile and cost effective