27.160 太阳能工程 标准查询与下载

GSO IEC 60904-4:2024 光伏设备 第4部分：光伏参考设备 建立校准可追溯性的程序

IEC 60904-4:2019 is available as IEC 60904-4:2019 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition. IEC 60904-4:2019 sets the requirements for calibration procedures intended to establish the traceability of photovoltaic (PV) reference devices to SI units as required by IEC 60904-2. This document applies to PV reference devices that are used to measure the irradiance of natural or simulated sunlight for the purpose of quantifying the performance of PV devices. The use of a PV reference device is required in many standards concerning PV (e.g. IEC 60904-1 and IEC 60904-3). This document has been written with single-junction PV reference devices in mind, in particular crystalline silicon, but it is sufficiently general to include other single-junction technologies. This second edition cancels and replaces the first edition published in 2009. This edition includes the following significant technical changes with respect to the previous edition: modification of standard title; - inclusion of working reference in traceability chain; - update of WRR with respect to SI; - revision of all methods and their uncertainties in annex - harmonization of symbols and formulae with other IEC standards. The contents of the corrigendum of September 2020 have been included in this copy.

Photovoltaic devices - Part 4: Photovoltaic reference devices - Procedures for establishing calibration traceability

GSO IEC 61215-1:2024 地面光伏（PV）模块 设计资格和型式批准 第1部分：测试要求

IEC 61215-1:2021 is available as IEC 61215-1:2021 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition. IEC 61215-1:2021 lays down requirements for the design qualification of terrestrial photovoltaic modules suitable for long-term operation in open-air climates. The useful service life of modules so qualified will depend on their design, their environment and the conditions under which they are operated. Test results are not construed as a quantitative prediction of module lifetime. This document is intended to apply to all terrestrial flat plate module materials such as crystalline silicon module types as well as thin-film modules. It does not apply to systems that are not long-term applications, such as flexible modules installed in awnings or tenting. This second edition of IEC 61215-1 cancels and replaces the first edition of IEC 61215-1, published in 2016. This edition includes the following significant technical changes with respect to the previous edition: a. Addition of a test taken from IEC TS 62782. b. Addition of a test taken from IEC TS 62804-1. c. Addition of test methods required for flexible modules. This includes the addition of the bending test (MQT 22). d. Addition of definitions, references and instructions on how to perform the IEC 61215 design qualification and type approval on bifacial PV modules. e. Clarification of the requirements related to power output measurements. f. Addition of weights to junction box during 200 thermal cycles. g. Requirement that retesting be performed according to IEC TS 62915. h. Removal of the nominal module operating test (NMOT), and associated test of performance at NMOT, from the IEC 61215 series. The contents of the corrigendum of May 2021 have been included in this copy.

Terrestrial photovoltaic (PV) modules - Design qualification and type approval - Part 1: Test requirements

GSO IEC 60904-1:2024 光伏器件 第1部分：光伏电流 电压特性的测量

IEC 60904-1:2020 describes procedures for the measurement of current-voltage characteristics (I-V curves) of photovoltaic (PV) devices in natural or simulated sunlight. These procedures are applicable to a single PV solar cell, a sub-assembly of PV solar cells, or a PV module. This document is applicable to non-concentrating PV devices for use in terrestrial environments, with reference to (usually but not exclusively) the global reference spectral irradiance AM1.5 defined in IEC 60904-3. This third edition cancels and replaces the second edition published in 2006. The main changes with respect to the previous edition are as follows: - Updated scope to include all conditions. - Added terms and definitions. - Reorganised document to avoid unnecessary duplication. - Added data analysis clause. - Added informative annexes (area measurement, PV devices with capacitance, dark I-V curves and effect of spatial non-uniformity of irradiance).

Photovoltaic devices - Part 1: Measurement of photovoltaic current-voltage characteristics

GSO IEC TS 63106-1:2024 用于测试光伏电力转换设备的模拟器 建议 第1部分：交流电源模拟器

IEC TS 63106-1:2020 provide recommendations for Low Voltage (LV) AC power simulators used for testing utility interactive photovoltaic power conversion equipment (PCE). This document establish terminology, and create a framework for, and provide guidance regarding the electrical performance of AC power simulators used to test utility interactive photovoltaic (PV) power conversion equipment (PCE) for compliance with grid interconnection standards. It serves as a generalized guideline for the development of AC power simulators used within a test and evaluation system for PV PCEs.

Simulators used for testing of photovoltaic power conversion equipment - Recommendations - Part 1: AC power simulators

GSO IEC 60904-3:2024 光伏设备 第3部分：具有参考光谱辐照度数据的地面光伏 (PV) 太阳能设备的测量原理

IEC 60904-3:2019 is available as IEC 60904-3:2019 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition. IEC 60904-3:2019 describes basic measurement principles for determining the electrical output of PV devices. The principles given in this document are designed to relate the performance rating of PV devices to a common reference terrestrial solar spectral irradiance distribution. The reference terrestrial solar spectral irradiance distribution is given in this document in order to classify solar simulators according to the spectral performance requirements contained in IEC 60904-9. The principles contained in this standard cover testing in both natural and simulated sunlight. This new edition includes the following significant technical changes with respect to the previous edition: a) all spectral data were recalculated due to some minor calculation and rounding errors in the third edition; the global spectral irradiance returned to exactly the data of the second edition; b) the angular distribution of the irradiance was clarified.

Photovoltaic devices - Part 3: Measurement principles for terrestrial photovoltaic (PV) solar devices with reference spectral irradiance data

GSO IEC TR 63225:2024 光伏系统直流应用连接器的不兼容性

IEC TR 63225:2019 highlights the problem of incompatibility of connectors for DC-application in photovoltaic systems (DC connectors) produced by different manufacturers. It addresses four particular issues in that context: background information on incompatibility of DC connectors from different manufacturers; observations and challenges concerning the handling of DC connectors from different manufacturers; stakeholders concerned by the incompatibility of DC connectors; recommendations for long-term standardization and interim measures to address incompatibility of DC connectors

Incompatibility of connectors for DC-application in photovoltaic systems

GSO IEC TR 63279:2024 消除光伏组件风险 顺序和组合加速应力测试

IEC TR 63279:2020 reviews research into sequential and combined accelerated stress tests that have been devised to determine the potential for degradation modes in PV modules that occur in the field that single-factor and steady-state tests do not show. This document is intended to provide data and theory-based motivation and help visualize the next steps for improved accelerated stress tests that will derisk PV module materials and designs. Any incremental savings as a result of increased reliability and reduced risk translates into lower levelized cost of electricity for PV. Lower costs will result in faster adoption of PV and the associated benefits of renewable energy.

Derisking photovoltaic modules - Sequential and combined accelerated stress testing

GSO IEC 62862-5-2:2024 太阳能热发电厂 第5-2部分：系统和组件大尺寸线性菲涅尔集热器的一般要求和测试方法

IEC 62862-5-2:2022 specifies the requirements and the test methods for the characterization of a large-size linear Fresnel collector. This document covers the determination of optical and thermal performance of linear Fresnel collectors, and the tracking accuracy of the collector one-axis tracking system. This test method is for outdoor testing only. This document applies to linear Fresnel collectors according to Annex A equipped with the manufacturer-supplied sun tracking mechanism. This document applies to the whole collector field in-situ or as a minimum unit to be tested to an individual collector string (loop) connected to the main piping (flow, return flow) to and from a heat sink, covering the full temperature range of the field.

Solar thermal electric plants - Part 5-2: Systems and components - General requirements and test methods for large-size linear Fresnel collectors

GSO IEC 62759-1:2024 光伏 (PV) 模块 运输测试 第1部分：模块封装单元的运输和装运

IEC 62759-1:2022 describes methods for the simulation of transportation of complete package units of modules and combined subsequent environmental impacts. This second edition cancels and replaces the first edition published in 2015. This edition includes the following significant technical changes with respect to the previous edition: a. Cancellation of tests and references to relevant standards for CPV. b. Deletion of different classes for PV modules. c. Deletion of requirement for minimum 10 modules per shipping unit. d. Implementation of stabilization as intermediate measurement. e. Addition of pass/fail criteria. f. Change of requirements for retesting. g. Change of number of cycles in dynamic mechanical load test.

Photovoltaic (PV) modules - Transportation testing - Part 1: Transportation and shipping of module package units

GSO IEC TS 63106-2:2024 用于测试光伏电力转换设备的模拟器 建议 第2部分：直流电源模拟器

IEC TS 63106-2:2022 provides recommendations for Low Voltage (LV) DC power simulators used for testing photovoltaic (PV) power conversion equipment (PCE) to utility interconnection or PV performance standards. This document primarily addresses DC power simulators used for testing of grid-interactive PCE, also referred to as grid-connected power converters (GCPCs). It also addresses some uses of DC power simulators for testing stand-alone and multi-mode PCEs.

Simulators used for testing of photovoltaic power conversion equipment - Recommendations - Part 2: DC power simulators

GSO IEC TS 62257-100:2024 可再生能源离网系统 第100部分：IEC 62257 系列概述

IEC TS 62257-100:2022 introduces the entire series regarding off-grid renewable energy and hybrid products and systems most commonly used for rural applications and access to electricity. This document provides a guide for facilitating the reading and the use of the IEC 62257 series for setting up off-grid electrification in developing countries or in developed countries, the only difference being the level of service and the needed quantity of energy that the customer can afford. This document outlines the organization of documents within the updated IEC 62257-xxx series published in 2022 and later, including utilization of a new 3-digit part numbering scheme, grouped into topics and subtopics.

Renewable energy off-grid systems - Part 100: Overview of the IEC 62257 series

GSO IEC 62862-4-1:2024 太阳能热发电厂 第4-1部分：塔式太阳能发电厂设计的一般要求

IEC 62862-4-1:2022 specifies the general requirements for the design of solar power tower plants and covers the electric power system requirements, the solar resource assessment, the site selection, the overall planning, the layout of the heliostat field and the receiver tower, the layout of the power block, the collector system, the heat transfer, the thermal energy storage and steam generation system, the steam turbine system, the water treatment system, the information system, instrumentation and control, the electrical equipment and system, occupational safety and occupational health. This document is applicable to the design requirements of newly built, expanded or rebuilt solar power tower plants employing steam turbines with molten salt or water-steam as heat transfer fluid.

Solar thermal electric plants - Part 4-1: General requirements for the design of solar power tower plants

GSO IEC TS 62862-2-1:2024 太阳能热发电厂 第2-1部分：热能存储系统 直接和间接配置的主动、显热系统的特性

IEC TS 62862-2-1:2021 defines the requirements and the test methods for the characterization of thermal energy storage (TES) systems. This document contains the information necessary for determining the performance and functional characteristics of active direct and indirect thermal energy storage systems based on sensible heat in solar thermal power plants using parabolic-trough collector, Fresnel collector or tower central receiver technology with liquid storage media. This document includes characterization procedures for testing energy storage system charge and discharge, as well as reporting the results. Test performance requirements are given and the instrumentation necessary for them, as well as data acquisition and processing methods and methods for calculating the results and their uncertainties.

Solar thermal electric plants - Part 2-1: Thermal energy storage systems - Characterization of active, sensible systems for direct and indirect configurations

GSO IEC 61724-1:2024 光伏系统性能 第1部分：监控

IEC 61724-1:2021 is available as IEC 61724-1:2021 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition. IEC 61724-1:2021 outlines terminology, equipment, and methods for performance monitoring and analysis of photovoltaic (PV) systems. It also serves as a basis for other standards which rely upon the data collected. This document defines classes of photovoltaic (PV) performance monitoring systems and serves as guidance for monitoring system choices. This second edition cancels and replaces the first edition, published in 2017. This edition includes the following significant technical changes with respect to the previous edition: - Monitoring of bifacial systems is introduced. - Irradiance sensor requirements are updated. - Soiling measurement is updated based on new technology. - Class C monitoring systems are eliminated. - Various requirements, recommendations and explanatory notes are updated.

Photovoltaic system performance - Part 1: Monitoring

GSO IEC TS 63349-2:2024 光伏直驱电器控制器 第2部分：运行模式和图形显示

IEC TS 63349-2:2022 defines operation modes of photovoltaic direct-driven appliance (PVDDA) controllers and describes one example of a graphic display. The graphic display is an interface to PVDDA users, which uses easily understood graphics to show a real-time operation mode, such as what equipment is installed, controlled and monitored in the system, which equipment is generating power and how much it generates, and which equipment is consuming power and how much it consumes. This helps with user’s interest, knowledge, planning on renewable energy usage.

Photovoltaic direct-driven appliance controllers - Part 2: Operation modes and graphic display

GSO IEC TS 62788-6-3:2024 光伏组件所用材料的测量程序 第6-3部分：使用单悬臂梁 (SCB) 方法进行光伏组件层压板的附着力测试

IEC TS 62788-6-3:2022 describes the single cantilevered beam (SCB) test, useful for characterizing adhesion in photovoltaic (PV) modules. This document offers a generalized method for performing the test, with the expectation that best practices for utilizing this test method will be developed for specific applications. This document provides a method for measuring the adhesion energy of most interfaces within the photovoltaic (PV) module laminate. This method provides a measure of adhesive energy, via the critical energy release rate, and so is more useful for comparing adhesion of different specimen types; e.g. different materials, module or coupon samples, or materials before and after stress exposure.

Measurement procedures for materials used in photovoltaic modules - Part 6-3: Adhesion testing for PV module laminates using the single cantilevered beam (SCB) method

GSO IEC 62788-5-1:2024 光伏模块所用材料的测量程序 第5-1部分：边缘密封 边缘密封材料使用的建议测试方法

IEC 62788-5-1:2020 provides procedures for standardized test methods for evaluating the properties of materials designed to be used as edge seals. When modules are constructed with impermeable (or extremely low permeability) front- and backsheets designed to protect moisture-sensitive photovoltaic (PV) materials, there is still the possibility for moisture to get in from the sides. The test methods described in this document are intended to be used to standardize the way edge seals are evaluated. Only some of these tests are applied for IEC 61215 and IEC 61730, and that status depends on the specific design.

Measurement procedures for materials used in photovoltaic modules - Part 5-1: Edge seals - Suggested test methods for use with edge seal materials

GSO IEC TS 62804-1-1:2024 光伏 (PV) 模块 检测电势诱导退化的测试方法 第1-1部分：晶体硅 分层

IEC 62804-1-1:2020 defines procedures to test and evaluate for potential-induced degradation-delamination (PID-d) mode in the laminate of crystalline silicon PV modules-principally those with one or two glass faces. This document evaluates delamination attributable to current transfer between ground and the module cell circuit. Elements driving the delamination that this test is designed to actuate include reduced adhesion associated with damp heat exposure, sodium accumulation at interfaces, and cathodic gas evolution in the cell circuit, metallization, and other components within the PV module activated by the voltage potential. The change in power of crystalline silicon PV modules associated with the stress factors applied (the purview of IEC TS 62804-1) is not considered in the scope.

Photovoltaic (PV) modules - Test methods for the detection of potential-induced degradation - Part 1-1: Crystalline silicon - Delamination

GSO IEC TS 62804-2:2024 光伏 (PV) 模块 检测电势诱导退化的测试方法 第2部分：薄膜

IEC TS 62804-2:2022 defines apparatus and procedures to test and evaluate the durability of photovoltaic (PV) modules to power loss by the effects of high voltage stress in a damp heat environment, referred to as potential-induced degradation (PID). This document defines a test method that compares the coulomb transfer between the active cell circuit and ground through the module packaging under voltage stress during accelerated stress testing with the coulomb transfer during outdoor testing to determine an acceleration factor for the PID. This document tests for the degradation mechanisms involving mobile ions influencing the electric field over the semiconductor absorber layer or electronically interacting with the films such that module power is affected.

Photovoltaic (PV) modules - Test methods for the detection of potential-induced degradation - Part 2: Thin-film

T/QGCML 3025-2024 抗风高稳定性光伏发电设备

本文件规定了抗风高稳定性光伏发电设备的术语和定义、构成及原理、技术要求、试验方法、检验规则、标志、包装、运输及贮存。 本文件适用于抗风高稳定性光伏发电设备的生产及检验。

Wind-resistant and highly stable photovoltaic power generation equipment