29.200 整流器、转换器、稳压电源 标准查询与下载

T/WNEVIA 001-2024 电动汽车充电基础设施建设技术规范

本文件规定了电动汽车充电基础设施的布局选址、供配电、电能质量和计量、土建、充电、监控等系统的设计、施工、调试及验收要求。

Technical specifications for the construction of electric vehicle charging infrastructure

24/30439674 DC 双向电网连接电源转换器 第1部分：一般要求

BS EN IEC 62909-1 Bi-directional grid connected power converters - Part 1: General requirements

T/CIET 514-2024 基于IGBT的水电解制氢电源技术规范

本文件规定了基于IGBT的水电解制氢电源的术语和定义、缩略语、分类、使用条件、系统组成及设计原则、技术要求、检验方法、检验规则、标志、包装、运输和贮存。 本文件适用于直流输出电压在DC1500 V及以下，功率等级在1 MW及以上，以IGBT为换流器件的水电解制氢电源（以下简称电源）的设计、制造和检验。 本文件不仅适用于采用稳定电网供电的水电解制氢电源，也适用于采用具备随机性、间隙性、波动性特点的光伏、风电等新能源供电的水电解制氢电源。

Technical Specifications of Hydrogen Generation Power Supply Based on IGBT

T/GDDY 010-2024 车用燃料电池DC/DC变换器

标准主要针对燃料电池汽车用DC/DC变换器的关键参数和独特功能进行明确和规范。主要内容有： （1）对燃料电池电动汽车用DC/DC变换器关键技术参数做明确要求：如输入电流纹波系数、效率、过载工况等。 （2）对燃料电池电动汽车用DC/DC变换器必备功能做明确规定或指导：如低温冷启动、残压放电等。 （3）对燃料电池电动汽车用DC/DC变换器与燃料电池系统的配合与兼容性进行明确。 （4）对燃料电池电动汽车用DC/DC环境适应性的试验进行明确。 （5）对燃料电池电动汽车用DC/DC电磁兼容特性试验进行明确。

Fuel cell DC/DC converter for vehicle

T/QGCML 4151-2024 高性能矢量变频器通用装置

本文件规定了高性能矢量变频器通用装置（以下简称“变频器”）的术语和定义、产品命名和分类、技术要求、试验方法、检验规则、标志、包装、运输和贮存。 本文件适用于高性能矢量变频器的生产和检验。

High-performance vector inverter universal device

T/SERA 8-2024 7kW 电动汽车交流充电桩技术规程

本文件规定了7kW电动汽车交流充电桩的基础结构及要求、功能要求、技术要求、试验方法、检验规则、标志、包装、运输和贮存。 本文件适用于7kW电动汽车交流充电桩（以下简称“充电桩”）的生产、检验与验收

7kW electric vehicle AC charging pile technical regulations

T/SZCHA 001-2024 医院不间断电源系统建设和运维管理指南

医院UPS不间断电源是电力安全和电力品质的一道重要防线，随着医院规模的扩大以及智慧化程度的不断提升，医院UPS不间断电源规模增长迅速，在信息机房、急诊、手术室、介入手术室、早产儿监护室、重症监护室、心血管造影检查室、血透、检验等处广泛配置。UPS不间断电源在发挥其积极价值的同时，也带来消防安全风险、医疗安全风险、环境安全风险、负载设备寿命减损风险和UPS不间断电源设备自身寿命减损风险等五大类风险，严重影响医院安全生产目标的实现。本指南结合云平台、物联网和大数据等新技术将医院UPS不间断电源风险管理从定性推向数字化定量管理的新阶段

Hospital Uninterruptible Power Supplier System Construction and Maintenance Management - Principles and Guidelines

DB4403/T 433-2024 电动汽车超级充电设备分级评价规范

本文件适用于对电动汽车超级充电设备的分级评价活动。

Standards for grading and evaluation of electric vehicle super charging equipment

T/CAS 840-2024 电动汽车公共充电站运营管理服务导则

1　范围 本文件规定了电动汽车公共充电站的总体要求、环境和标识要求、服务要求、设备要求、结算服务、充电平台信息接入、安全管理的要求。 本文件适用于电动汽车公共充电站和分散充电设施运营管理与服务。 2　规范性引用文件 下列文件中的内容通过文中的规范性引用而构成本文件必不可少的条款。其中，注日期的引用文件，仅该日期对应的版本适用于本文件；不注日期的引用文件，其最新版本（包括所有的修改单）适用于本文件。 GB 2894 安全标志及其使用导则 GB 15630 消防安全标志设置要求 GB/T 18487.1  电动汽车传导充电系统 第1部分：通用要求 GB/T 18487.3  电动车辆传导充电系统 电动车辆交流/直流充电机（站） GB/T 29317  电动汽车充换电设施术语 GB/T 29781 电动汽车充电站通用要求 GB/T 37293 城市公共设施 电动汽车充换电设施运营管理服务规范 GB 50058 爆炸危险环境电力装置设计规范 NB/T 33019 电动汽车充换电设施运行管理规范

Guidelines for operation management and service of electric vehicle public charging station

T/CASME 1350-2024 车载充电机电性能测试规范

本文件规定了车载充电机电性能测试规范的测试要求、输入特性测试、输出特性测试、保护特性测试。

On-board charging electromechanical performance test specification

24/30430891 DC BS EN IEC 62590-2-1 铁路应用 固定安装 电子电源转换器 第2-1部分 直流牵引应用 二极管整流器

BS EN IEC 62590-2-1. Railway applications. Fixed installations. Electronic power converters - Part 2-1. DC Traction Applications. Diode rectifiers

T/LDEA 0088-2024 通信系统紧急电力供应设备

本标准规定了通信用应急电源（EPS）（以下简称EPS设备）的定义、分类、要求、试验方法、检验规则及标志、包装、运输、贮存。 本标准适用于输出容量为0.5kVA～10kVA，应用于微机站、直放站等场所的EPS设备。

Emergency power supply equipment for communication systems

GSO IEC 60335-2-29:2024 家用和类似用途电器 安全 第2-29部分：电池充电器的特殊要求

IEC 60335-2-29:2016 is available as IEC 60335-2-29:2016 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition. IEC 60335-2-29:2016 deals with the safety of electric battery chargers for household and similar use having an output not exceeding 120 V ripple-free direct current, their rated voltage being not more than 250 V. Battery chargers intended for charging batteries in a household end use application outside the scope of the IEC 60335 series of standards are within the scope of this standard. Requirements for battery chargers for use by children at least 8 years old without supervision are given in Annex AA. Battery chargers not intended for normal household use, but which nevertheless may be a source of danger to the public, such as battery chargers intended for use in garages, shops, light industry and on farms, are within the scope of this standard. As far as is practicable, this standard deals with the common hazards presented by appliances that are encountered by all persons in and around the home. However, in general, it does not take into account persons (including children) whose physical, sensory or mental capabilities; or lack of experience and knowledge prevents them from using the appliance safely without supervision or instruction; children playing with the appliance. This standard does not apply to built-in: - battery chargers, except those for installing in caravans and similar vehicles; - battery chargers that are part of an appliance, the battery of which is not accessible to the user; - battery chargers intended exclusively for industrial purposes; - battery chargers intended to be used in locations where special conditions prevail, such as the presence of a corrosive or explosive atmosphere (dust, vapour or gas); - battery chargers for emergency lighting or supply units for electronic equipment. This fifth edition cancels and replaces the fourth edition published in 2002 including its Amendment 1 (2004) and its Amendment 2 (2009). It constitutes a technical revision. The principal changes in this edition as compared with the fourth edition of IEC 60335-2-29 are as follows (minor changes are not listed): - Revised the drop test to refer to IEC 60068-2-31 (21.101); - Requirements for supply cords on battery chargers used at low temperatures (25.7); - Requirements for battery chargers having an output voltage exceeding SELV have been added (1, 3.2.2, 3.4.3, 10.101, 24.4, 25.5, 25.7, 25.8, 25.15. 26.5); - A classification for battery chargers used outdoors has been added (6.2, 29.2) and some notes in Clause 1, Subclauses 7.1 and 22.102, Figure 101 and Annex AA 11.8 have been converted to normative text. It was established on the basis of the fifth edition (2010) of that standard. The attention of National Committees is drawn to the fact that equipment manufacturers and testing organizations may need a transitional period following publication of a new, amended or revised IEC publication in which to make products in accordance with the new requirements and to equip themselves for conducting new or revised tests. It is the recommendation of the committee that the content of this standard be adopted for implementation nationally not earlier than 12 months or later than 36 months from the date of its publication. Key words: Battery, Battery Charger This publication is to be read in conjunction with IEC 60335-1:2010.

Household and similar electrical appliances - Safety - Part 2-29: Particular requirements for battery chargers

GSO IEC TR 63363-1:2024 基于电压源换流器 (VSC) 的高压直流 (HVDC) 传输的性能 第1部分：稳态条件

IEC TR 63363-1:2022(E) is to present the "state of the art" with respect to general guidance on the steady-state performance demands of VSC HVDC transmission systems. It concerns the steady-state performance of two-terminal VSC HVDC transmission systems utilizing converters with power flow capability in both directions. Different configurations of a VSC HVDC transmission system are covered in this document, including the symmetrical monopolar, asymmetrical monopolar, bipolar with earth return, bipolar with dedicated metallic return and rigid bipolar configurations. There are many variations between different VSC HVDC transmission systems. This document does not consider these in detail; consequently, it cannot be used directly as a specification for a particular project, but rather to provide the general basis for the system steady-state performance demands. Normally, the performance specifications are based on a complete system including two VSC HVDC converter stations. However, sometimes a VSC HVDC transmission system can also be separately specified and purchased from multiple vendors instead of single turnkey vendor. In such cases, due consideration can be given to the coordination of each part with the overall VSC HVDC system performance objectives and the interface of each with the system can be clearly defined. The major components of the VSC HVDC transmission system are presented in IEC 62747. Referring to IEC 62747, an HVDC substation/converter station is defined as that part of the VSC HVDC transmission system which consists of one or more VSC converter units installed in a single location together with buildings, reactors, filters, reactive power supply, control, monitoring, protective, measuring and auxiliary equipment. The AC substations are not covered in this document. This document provides guidance and supporting information on the procedure for system design and the technical issues involved in the system design of VSC HVDC transmission projects for both owners and contractors. This document can be used as the basis for drafting a procurement specification and as a guide during project implementation.

Performance of voltage sourced converter (VSC) based high-voltage direct current (HVDC) transmission - Part 1: Steady-state conditions

GSO IEC TS 62578:2024 电力电子系统和设备 有源馈电转换器 (AIC) 应用的运行条件和特性 包括低于 150 kHz 的发射值的设计建议

IEC TS 62578:2015 describes the operation conditions and typical characteristics of active infeed converters (AIC) of all technologies and topologies which can be connected between the electrical power supply network (lines) a.c. side and a constant current or voltage type d.c. side and which can convert electrical power (active and reactive) in both directions (generative or regenerative). The following is excluded from the scope: - Requirements for the design, development or further functionality of active infeed applications. - Probability of interactions or influences of the AIC with other equipment caused by parasitic elements in an installation or caused by poor electronic design as well as their mitigations. - "Overhead line" power supply networks because of lack of information (measurements) of their three phase impedances. This edition includes the following significant technical changes with respect to the previous edition: a) IEC TS 62578, in its revised version includes observed values out of practical applications for emission values below 150 kHz. b) Therefore the document has been extended compared to the first edition, several detailed analysis results are given in the extended Annexes. c) Design recommendations have been derived from the international working group by an assessment of the power supply impedances between 2 kHz and 9 kHz, a comprehensive analysis of the withstand capability of power capacitors against harmonic currents injected by AIC, immunity tests of equipment and considerations about shifted resonances in the power supply network with increased population of undamped filter capacitors.

Power electronics systems and equipment - Operation conditions and characteristics of active infeed converter (AIC) applications including design recommendations for their emission values below 150 kHz

GSO IEC 60700-1:2024 高压直流 (HVDC) 输电用晶闸管阀 第1部分：电气测试

IEC 60700-1:2015 is available as IEC 60700-1:2015 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition. IEC 60700-1:2015 applies to thyristor valves with metal oxide surge arresters directly connected between the valve terminals, for use in a line commutated converter for high voltage d.c. power transmission or as part of a back-to-back link. It is restricted to electrical type and production tests. The tests specified in this standard are based on air insulated valves. For other types of valves, the test requirements and acceptance criteria can be agreed. This edition includes the following significant technical changes with respect to the previous edition. a) Definitions of terms "redundant thyristor levels", "thyristor level", "valve section" have been changed for clarification. b) The notes were added to test requirements of dielectric d.c. voltage tests for valve support, MVU, valve, specifying that before repeating the test with opposite polarity, the tested object may be short-circuited and earthed for several hours. The same procedure may be followed at the end of the d.c. voltage test. c) Table 1 on thyristor level faults permitted during type tests was supplemented. d) The alternative MVU dielectric test method was added. e) It was specified that production tests may include routine tests as well as sample tests. f) It was added into test requirements for periodic firing and extinction tests that a scaling factor for tests shall be applied when testing with valve sections. The contents of the corrigendum of January 2017 have been included in this copy.

Thyristor valves for high voltage direct current (HVDC) power transmission - Part 1: Electrical testing

DB3305/T 304-2024 住宅小区充电设施施工 与验收技术规范

Technical specifications for construction and acceptance of charging facilities in residential areas

T/JSQX 0001-2024 电动汽车变充一体充电设备技术规范

本文件规定了电动汽车变充一体充电设备的分类、系统构成、使用条件、安全要求、功能要求、性能要求、电磁兼容、标志、包装、运输和贮存。 本文件适用于连接到交流电网(公共电网或用户内部电网)的变充一体充电设备，其交流额定电压限定在10 kV以内。

Technical specifications for integrated charging equipment for electric vehicles

T/GDDY 009-2024 305全工况AC/DC机壳开关电源

本文件规定了 305 全工况 AC/DC 机壳开关电源相关的术语和定义、外观尺寸、技术要求、试验方法、检验规则和标志、包装、运输、 贮存。

305 reliable under all conditions AC/DC enclosed switched-mode power supply

JB/T 14405-2023 绿色数据中心用飞轮储能装置

Flywheel energy storage device for green data center