27.160 太阳能工程 标准查询与下载

T/CPIA 0067-2024 钙钛矿太阳电池用碘化铅

本文件规定了钙钛矿光伏电池用碘化铅的术语、符号、要求、试验方法、检验规则、包装、标志、运输和贮存。 本文件适用于钙钛矿光伏电池用碘化铅材料的生产和检验。

Lead iodide for perovskite solar cells

T/CPIA 0058-2024 多线切割机张力性能测量方法

本文件规定了多线切割机的张力测量要求、测量方法和测量报告要求。 本文件适用于光伏领域使用金刚线进行硅片切割的多线切割机张力性能测量。

Method for measuring the tension performance of multi-wire cutting machines

T/CPIA 0057-2024 光伏硅片多线切割机技术要求

本文件规定光伏硅片多线切割机的技术要求、试验方法、检验规则以及标志、包装、运输和贮存。 本文件适用于光伏硅片多线切割机的设计、生产和检验。

Technical requirements for photovoltaic silicon wafer multi-wire cutting machines

T/CPIA 0066-2024 退役光伏组件彩色涂层利用技术规程

本文件规定了退役光伏组件彩色涂层技术的技术要求、试验方法、修复、检验规则、标志、包装、运输和储存。 本文件适用于退役晶体硅光伏组件、薄膜类（铜铟镓硒、碲化镉、砷化镓、非晶硅、钙钛矿等）光伏组件彩色涂层利用的设计、生产和检验。

Technical regulations for the utilization of color coatings on decommissioned photovoltaic modules

T/CPIA 0055.2-2024 晶体硅光伏电池 第2部分：异质结光伏电池

本文件规定了异质结光伏电池的技术要求、试验方法、检验规则以及标志、包装、储存和运输。 本文件适用于以p型或n型单晶硅为衬底材料的异质结光伏电池的生产与检验，其它类似结构的光伏电池可参照使用。

Crystalline silicon photovoltaic cells Part 2: Heterojunction photovoltaic cells

T/CPIA 0055.1-2024 晶体硅光伏电池 第1部分：n型隧穿氧化钝化接触光伏电池

本文件规定了n型隧穿氧化钝化接触光伏电池的技术要求、试验方法、检验规则、标志、包装、储存和运输。 本文件适用于n型隧穿氧化钝化接触光伏电池的生产与检验。其他类似结构的光伏电池可参照使用。

Crystalline silicon photovoltaic cells Part 1: n-type tunneling oxide passivated contact photovoltaic cells

T/JXXNY 001-2014 屋顶分布式光伏发电项目评价技术规范

本文件规定了屋顶分布式光伏发电项目评价的资料审查、现场检查及分级准则的要求。

Technical specifications for evaluation of rooftop distributed photovoltaic power generation projects

T/SCSKJQYLHH 23-2024 玄武岩纤维复合材料光伏支架

5.1　原材料 5.1.1　玄武岩纤维 应满足GB/T 38111通用型玄武岩纤维的技术要求。 5.1.2　玄武岩纤维复合材料 支架用复合材料采用玄武岩纤维增强复合材料拉挤型材，其性能应符合 GB/T 31539的规定，且满足M30 级的要求。 5.1.3　五金材料 支架配套使用的紧固件应符合 GB/T 3098.1、GB/T 3098.6 的规定。 5.2　外观 复合材料支架构件成品应表面应光洁平整、颜色均匀，应无裂纹、气泡、毛刺、无纤维裸露、纤维浸润不良等缺陷；无明显扭曲，切割面应平齐，无分层。表面涂层应均匀，无脱皮现象，涂层不存在误涂、漏涂，无明显流坠、针眼、气泡、皱皮等缺陷。 5.3　尺寸偏差 5.3.1　支架杆件壁厚不应有负公差，加工误差符合设计图纸要求，未注明尺寸公差时应符合GB/T 1804中等m级要求。 5.3.2　支架工厂预装后的尺寸允许偏差应符合表1的要求。 5.3.3　对于固定式倾角可调支架，各支撑点对应点上部组件倾角与设定角度的偏差应在±1°以内。 表1　支架工厂预装后的尺寸允许偏差 要求项目　安装倾角　支架梁标高　支架立柱面　杆件中心线 允许偏差　±0.5°　±1mm　±1mm　±1mm 5.4　杆件的容许长细比 应符合表2的要求。 表2　支架受压、受拉构件的容许长细比 构件类别　容许长细比 受压构架　主要承重构件　150 　其他构件、支撑等　200 受拉构件　主要构件　350 　柱间支撑　300 　其他支撑　400 5.5　结构变形 5.5.1　在组件恒荷载、风荷载和雪荷载标准值的组合效应下，支架受弯构件的挠度应符合表3的要求。 表3　支架受弯构件的挠度容许值 受弯构件　挠度容许值 主梁　l/250 次梁　无边框光伏组件　l/250 　其他　l/200 注：l为受弯构件的跨度。对悬臂梁，l为悬臂梁长度的2倍。 5.5.2　在组件恒荷载、风荷载和雪荷载标准值的组合效应下，固定式支架的柱顶位移应不大于柱高的1/60，固定式倾角可调式支架的柱顶位移应不大于柱高的1/80。 5.6　防腐蚀 玄武岩纤维增强复合材料支架通常不需做防腐，如在特殊腐蚀工况下使用，防腐措施由供需双方协商确定。如在支架中使用了不同材质的连接件，在不同材质之间应设置防腐垫片。 5.7　环境耐久性能 玄武岩纤维复合材料支架用FRP型材的耐水性能、耐碱性能、紫外线耐久性能和冻融循环耐久性能应符合GB/T 31539的规定。 5.8　防火要求 5.8.1　应符合GB/T 2408的HB级要求。如有更高的防火需求，由供需双方协商确定。 5.8.2　在试验温度750℃下，通过GB/T 5169.11规定的灼热丝可燃性试验。

Basalt fiber composite photovoltaic bracket

24/30447609 DC BS EN IEC 62920-1 光伏发电系统 电力转换设备的 EMC 要求和测试方法

BS EN IEC 62920-1 Photovoltaic power generating systems - EMC requirements and test methods for power conversion equipment

24/30428811 DC BS EN IEC 63349-1 光伏直驱设备控制器 第1部分：一般要求

BS EN IEC 63349-1 Photovoltaic direct-driven appliance controllers - Part 1: General Requirement

KS B ISO 9846-2024 太阳能日射强度计的校准

Solar energy — Calibration of a pyranometer using a pyrheliometer

KS B ISO 9059-2024 太阳能.通过与参考太阳热计的比较校准场太阳热计

Solar energy — Calibration of field pyrheliometers by comparison to a reference pyrheliometer

GSO IEC TR 60904-14:2024 光伏器件 第14部分：标准测试条件下单结光伏组件最大功率输出的生产线测量和报告指南

IEC TR 60904-14:2020 provides guidelines for measurements of the maximum power (Pmax) output of single-junction photovoltaic (PV) modules and for reporting at standard test conditions (STC) in industrial production line settings. As it is desirable to have consistent measurement practices across the industry, this document describes the following features of such measurements: - Essential elements, in order to provide common understanding; - Common issues or complications; - Sources of error and uncertainty, including recommendations to minimize them.

Photovoltaic devices - Part 14: Guidelines for production line measurements of single-junction PV module maximum power output and reporting at standard test conditions

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 61215-2:2024 地面光伏 (PV) 模块 设计资格和型式批准 第2部分：测试程序

IEC 61215-2:2021 is available as IEC 61215-2:2021 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition. IEC 61215-2:2021 lays down requirements for the design qualification of terrestrial photovoltaic modules suitable for long-term operation in open-air climates. 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. The objective of this test sequence is to determine the electrical characteristics of the module and to show, as far as possible within reasonable constraints of cost and time, that the module is capable of withstanding prolonged exposure outdoors. This second edition of IEC 61215-2 cancels and replaces the first edition of IEC 61215-2 issued in 2016. This edition includes the following significant technical changes with respect to the previous edition: a. Addition of cyclic (dynamic) mechanical load testing (MQT 20). b. Addition of a test for detection of potential-induced degradation (MQT 21). c. Addition of test methods required for bifacial PV modules. d. Addition of test methods required for flexible modules. This includes the addition of the bending test (MQT 22). e. Revision of simulator requirements to ensure uncertainty is both well-defined and minimized. f. Correction to the hot spot endurance test, where the procedure for monolithically integrated (MLI) thin film technologies (MQT 09.2) previously included two sections describing a procedure only appropriate for silicon modules. g. Selection of three diodes, rather than all, for testing in the bypass diode thermal test (MQT 18). h. Removal of the nominal module operating test (NMOT), and associated test of performance at NMOT, from the IEC 61215 series.

Terrestrial photovoltaic (PV) modules - Design qualification and type approval - Part 2: Test procedures

GSO IEC TR 63227:2024 光伏（PV）供电系统的雷击和浪涌电压保护

IEC TR 63227:2020 deals with the protection of PV power supply systems against detrimental effects of lightning strikes and surge voltages of atmospheric origin. In the event that a lightning and/or surge voltage protection is required to be erected, this document describes requirements and measures for maintaining the safety, functionality, and availability of the PV power supply systems.

Lightning and surge voltage protection for photovoltaic (PV) power supply systems

GSO IEC TS 63157:2024 光伏系统 电力转换设备有效质量保证指南

IEC TS 63157:2019 lays out recommendations for best practices for product realization, safety, customer satisfaction, and stakeholders' relationship used in the manufacture of power conversion equipment (PCE). This document captures key requirements customers would like to see completed to ensure high-quality products, specifically, that the products have the documented properties, including properties needed to give customer satisfaction with regard to the warranty. The object of this document is to provide more confidence in the ongoing consistency of performance and reliability of certified power conversion equipment. The requirements of this document are defined with the assumption that the quality management system of the organization has already fulfilled the requirements of ISO 9001 or equivalent quality management system. These guidelines also form the basis for factory audit criteria of such sites by various certifying and auditory bodies. This document covers manufacture of electronic power conversion equipment intended for use in terrestrial PV applications. The term PCE refers to equipment and components for electronic power conversion of electric power into another kind of electric power with respect to voltage, current and frequency. This document applies to PCE in both indoor and outdoor open-air climates as defined in IEC 60721-2-1 and IEC 60721-3-3. Such equipment may include, but is not limited to, DC-to-AC inverters, DC-to-DC converters and battery charge converters.

Photovoltaic systems - Guidelines for effective quality assurance of power conversion equipment

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 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 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