27.160 - Solar energy engineering

IEC TS 62257-341:2026(Main)

Renewable energy off-grid systems - Part 341: Selection of batteries and battery management systems for stand-alone electrification systems - Specific case of automotive flooded lead-acid batteries available in developing countries

IEC TS 62257-341:2026 proposes simple, inexpensive, comparative tests to determine which types of flooded lead-acid automobile batteries are acceptable for use in PV electrification systems.
It could be particularly useful for project implementers to test in laboratories of developing countries the capability of locally made car or truck batteries to be used for their project.
The tests provided in this document allow assessment of the batteries' performances according to the general specification and batteries associated with their smart battery charging systems (SBCS) in a short time and with common technical means. They can be performed locally, as close as possible to the operating conditions of the real site.
The document also provides recommendations and installation conditions to ensure the life and proper operation of the installations as well as the safety of people living in proximity to the installation.
This document offers guidelines and does not replace any existing IEC Standard on batteries.
This first edition cancels and replaces the second edition of IEC TS 62257-8-1 published in 2018. This edition includes the following significant technical changes with respect to IEC 62257‑8‑1:2018:
- increase of the applicable voltage levels and removal of the 100 kW power limit;
- removal of the word "small" from the description of these systems.

Technical specification
24 pages
English language
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05-May-2026
27.160
29.220.20
TC 82

Power line communication for DC shutdown equipment - Communication signal, physical layer

IEC 63257:2026(Main)

IEC 63257:2026 applies to photovoltaic (PV) system components and communication networks supporting the communication of the DC shutdown equipment using power line communication.
This document defines how to propagate the operational state of the entire PV system (normal / shutdown) to the individual power production components comprising the PV system. The document also describes requirements and constraints associated with power line communication networks that are used to support this application.
This document defines the communication requirements for reducing the output voltage of the DC cables that leave a PV array. This output voltage reduction function can support emergency responders during firefighting operations. For this function, communication is necessary from the inverter / initiator to the PV-modules.

Standard
114 pages
English and French language
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Standard
114 pages
English and French language
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05-May-2026
27.160
TC 82

IEC TS 60904-1-2:2024(Main)

Photovoltaic devices - Part 1-2: Measurement of current-voltage characteristics of bifacial photovoltaic (PV) devices

IEC TS 60904-1-2:2024 describes procedures for the measurement of the current-voltage (I-V) characteristics of single junction bifacial photovoltaic devices in natural or simulated sunlight. It is applicable to encapsulated solar cells, sub-assemblies of such cells or entire PV modules. For measurements of I-V characteristics of non-encapsulated solar cells, IEC TS 63202-3 applies.
The requirements for measurement of I-V characteristics of standard (monofacial) PV devices are covered by IEC 60904-1, whereas this document describes the additional requirements for the measurement of I-V characteristics of bifacial PV devices.
This second edition cancels and replaces the first edition published in 2019. This edition includes the following significant technical changes with respect to the previous edition:
a) The scope has been updated and refers to IEC TS 63202-3 for the measurement of non‑encapsulated solar cells.
b) The requirements for the non-uniformity of irradiance have been updated and now refer to classifications introduced in IEC 60904-9.
c) The requirement for non-irradiated background has been revised.
d) Spectral mismatch corrections are no longer mandatory, unless required by another standard. Spectral mismatch would have to be considered in the measurement uncertainty.
e) The requirement regarding the calculation of bifaciality has been modified: Equivalent irradiance shall not be calculated based on the minimum bifaciality value between ISC and Pmax, but on the bifaciality of ISC.

Technical specification
22 pages
English language
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Technical specification
42 pages
English language
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15-Mar-2026
27.160
TC 82

IEC TS 60904-1-2:2024/AMD1:2026(Amendment)

Amendment 1 - Photovoltaic devices - Part 1-2: Measurement of current-voltage characteristics of bifacial photovoltaic (PV) devices

Technical specification
2 pages
English language
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15-Mar-2026
27.160
TC 82

SIST EN IEC 63409-3:2026(Main)

Photovoltaic power generating systems connection with grid - Testing of power conversion equipment - Part 3: Basic operations

EN IEC 63409-3:2026

IEC 63409-3:2025 specifies test procedures for confirming the basic operational characteristics of power conversion equipment (PCE) for use in photovoltaic (PV) power systems with or without energy storage. The basic operational characteristics are the capability of the PCE before any limitations due to internal settings are applied to the PCE to meet specific grid support functions or specific behaviours against abnormal changes.
This document covers the testing of the following items:
a) Steady state characteristics
Test procedures to confirm operable range of PCE at steady state condition are described. The operable ranges in apparent power, active power, reactive power, power factor, grid voltage and grid frequency are confirmed according to the test procedures.
b) Transient-response characteristics
Test procedures to confirm PCE’s response against a change of operational condition are described.
This document only considers the changes within normal (continuous) operable ranges. Therefore, the behaviours against abnormal changes and grid support functions are out of the scope and are covered in other parts of this series.

Standard
72 pages
English language
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13-Jun-2024
11-Mar-2026
27.160
29.240.01
PVS

IEC TS 62257-200:2026(Main)

Renewable energy off-grid systems - Part 200: System selection and design

IEC TS 62257-200:2026 provides a method for describing the results to be achieved by the electrification system independently of the technical solutions that could be implemented.
The purpose of this part of IEC 62257 is to provide a method to assist designers of renewable energy systems, project contractors and project developers to design the electrification system for isolated sites while matching the identified needs. This part of IEC 62257 assesses the needs of the users and the different power system architectures which can be used for meeting these needs. In relation to the needs of the different participants to the project, functional requirements to be achieved by the production and distribution subsystems are listed.
This document provides technical standardization to different stakeholders (including but not limited to project developers, financing agencies, testing agencies, installers, etc.) involved in electrification projects for access to electricity for those not solely connected to the regional grid, through the setting up of off-grid renewable energy and hybrid systems (including micro-grids) with a voltage less than or equal to 1 000 V for AC (alternating current) or a voltage less than or equal to 1 500 V for DC (direct current). This document could be used for rural electrification, also for electrification of remote sites in developed countries, or any requirement for electricity access that cannot be met by attaching solely to the national utility grid. They promote the use of renewable energies, but at this time they do not deal with clean-energy mechanisms development (CO2 emissions, carbon credit, etc.).

Technical specification
82 pages
English language
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10-Mar-2026
27.160
TC 82

IEC TS 63371-1:2026(Main)

Materials used in photovoltaic (PV) cells - Part 1: Specifications for electrical characteristics of crystalline silicon wafers

IEC TS 63371-1:2026 applies to crystalline silicon wafers for use as the substrates in making photovoltaic cells. It describes the methods for measuring the electrical characteristics of these silicon wafers. It does not provide mechanical information about these wafers. Annex A shows the widely accepted electrical characteristics values. The purpose of this document is to establish a standardized specification for crystalline silicon wafers, defining their electrical characteristics, the applicable test methods, and the acceptable value ranges for those characteristics.

Technical specification
10 pages
English language
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04-Mar-2026
27.160
TC 82

Solar thermal electric plants - Part 3-6: Durability of silvered-glass reflectors - Laboratory test methods and assessment

IEC 62862-3-6:2026(Main)

CORRECTED VERSION 2026-02
IEC 62862-3-6:2026 specifies laboratory test methods to assess the durability of silvered-glass reflectors with high technical performance to be used in concentrating solar technologies. The reflectors within the scope of this document are composed of a float-glass substrate and a reflecting silver layer on its back-side, which is protected by a thin copper layer and an anticorrosive paint system composed of a primer and a top coating, and an optional intermediate coating.
This document defines multiple accelerated aging tests on reflector samples of size of 10 cm × 10 cm or larger. It defines the measurement methods to determine the degradation parameters used for assessment and the acceptance criteria of the accelerated aging tests.
Annex A of this document outlines the procedure to apply this document to reflector types of different composition than that of the silvered float-glass reflectors described above.
Annex B provides information on how to approximately correlate the measured degradation of selected accelerated aging tests with outdoor exposure in different environments. These correlations are limited to silvered float-glass reflector types with the abovementioned layer stack, since differing coating types are likely to introduce unforeseen degradation modes, which possibly will not be triggered under the proposed testing conditions.
This corrected version of IEC 62862-3-6:2026 incorporates the following correction:
– Addition of bibliographic reference numbers in the content

Standard
24 pages
English language
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18-Feb-2026
27.100
27.160
TC 117

Photovoltaic systems – Terminology

SIST-TP 1040:2026

Technical report
12 pages
Slovenian language
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12-Feb-2026
01.040.27
27.160
PVS

EN IEC 63409-3:2026(Main)

SIST-TS 1185:2026

Technical specification
15 pages
Slovenian language
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12-Feb-2026
27.160
PVS

CLC

Photovoltaic power generating systems connection with the grid - Testing of power conversion equipment - Part 3: Basic operations

SIST EN IEC 63409-3:2026

IEC 63409-3:2025 specifies test procedures for confirming the basic operational characteristics of power conversion equipment (PCE) for use in photovoltaic (PV) power systems with or without energy storage. The basic operational characteristics are the capability of the PCE before any limitations due to internal settings are applied to the PCE to meet specific grid support functions or specific behaviours against abnormal changes. This document covers the testing of the following items: a) Steady state characteristics Test procedures to confirm operable range of PCE at steady state condition are described. The operable ranges in apparent power, active power, reactive power, power factor, grid voltage and grid frequency are confirmed according to the test procedures. b) Transient-response characteristics Test procedures to confirm PCE’s response against a change of operational condition are described. This document only considers the changes within normal (continuous) operable ranges. Therefore, the behaviours against abnormal changes and grid support functions are out of the scope and are covered in other parts of this series.

Standard
72 pages
English language
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29-Jan-2026
27.160
CLC/TC 82

IEC TS 62786-2:2026(Main)

Distributed energy resources connection with the grid - Part 2: Additional requirements for PV generation systems

IEC TS 62786-2:2026 supplements IEC TS 62786-1, and specifies requirements for the connection of the solar photovoltaic energy system or photovoltaic generating system (PV system) with an electric power network, or the network. This document covers all sizes of PV systems connected to low voltage or medium voltage power networks and gives typical requirements for various sizes of PV systems.
In this document, requirements for grid-connected PV systems are applied to those categorized as grid tied, grid tied with storage and grid tied with storage and back up. Mini-grid and Micro-grid are out of scope. Those types of PV systems with possible elements are described in 4.3.
This document specifies the following technical requirements for the PV system:
- reference points of requirements,
- elements and configuration,
- basic operation,
- protection and fault ride through function,
- power control and grid support function,
- electromagnetic compatibility for low frequency conducted disturbances,
- information exchange for remote monitoring, control, and configuration.

Technical specification
49 pages
English language
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25-Jan-2026
27.160
91.140.50
TC 8

SIST EN ISO 9806:2026(Main)

Solar energy - Solar thermal collectors - Test methods (ISO 9806:2025)

EN ISO 9806:2025

This document specifies test methods for assessing the durability, reliability, safety and thermal performance of fluid heating solar collectors. The test methods are applicable for laboratory testing and for in situ testing.
This document is applicable to all types of fluid heating solar collectors, air heating solar collectors, hybrid solar collectors co-generating heat and electric power, as well as to solar collectors using external power sources for normal operation and/or safety purposes. This document does not address electrical safety aspects or other specific properties directly related to electric power generation.
This document is not applicable to devices in which a thermal storage unit is an integral part to such an extent that the collection process cannot be separated from the storage process for making the collector thermal performance measurements.

Standard
105 pages
English language
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19-Jan-2026
27.160
PVS

Solar thermal electric plants - Part 4-2: Heliostat field control system of solar tower plants

IEC 62862-4-2:2026(Main)

IEC 62862-4-2:2026 specifies the technical requirements and test methods for the heliostat field control system of solar power tower plants.
This document provides the technical requirements of function, performance, and safety constraints of the heliostat field control system, and is applicable to the heliostat field control system of solar power tower plants.
This document includes procedures for testing the functionality and performance requirements of the heliostat field control system. It describes the test methods, steps, conditions, and required instruments.

Standard
21 pages
English language
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11-Jan-2026
27.160
TC 117

Photovoltaic (PV) arrays - Part 1: Design requirements

IEC 62548-1:2023(Main)

IEC 62548-1:2023 sets out design requirements for photovoltaic (PV) arrays including DC array wiring, electrical protection devices, switching and earthing provisions. The scope includes all parts of the PV array and final power conversion equipment (PCE), but not including energy storage devices, loads or AC or DC distribution network supplying loads. The object of this document is to address the design safety requirements arising from the particular characteristics of photovoltaic systems. This document also includes extra protection requirements of PV arrays when they are directly connected with batteries at the DC level.
This first edition cancels and replaces IEC 62548 published in 2016. This edition includes the following significant technical changes with respect to the previous edition:
a) Revised provisions for systems including DC to DC conditioning units.
b) Revision of mounting structure requirements.
c) Revised cable requirements.
d) Revision of Clause 6 on safety issues which includes provisions for protection against electric shock including array insulation monitoring and earth fault detection.
e) Revision of 7.2.7 and 7.3 with respect to isolation means.
f) Provisions for use of bifacial modules and modules mounted in non-optimal orientations.
g) New Annex F containing: KI factor calculations for bifacial and non-optimally oriented systems; anti-PID equipment and arc flash.

Standard
104 pages
English language
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Standard
213 pages
English language
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14-Dec-2025
27.160
TC 82

IEC 62548-1:2023/AMD1:2025(Amendment)

Amendment 1 - Photovoltaic (PV) arrays - Part 1: Design requirements

Standard
11 pages
English language
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14-Dec-2025
27.160
TC 82

IEC TS 62257-350:2025(Main)

Renewable energy off-grid systems - Part 350: Recommendations for selection of inverters

IEC TS 62257-350:2025 specifies the criteria for selecting and sizing inverters suitable for different off-grid applications integrating solar as an energy source. As well as off-grid systems, this document can also apply to inverters where a utility grid connection is available as a backup for charging batteries, but it is not intended to cover applications in which inverters synchronize and inject energy back into a utility grid, even though this capability can incidentally be a part of the functionality of the inverters. Single and multi-phase applications are included.

Technical specification
21 pages
English language
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09-Dec-2025
27.160
TC 82

Photovoltaic direct-driven appliance controllers - Part 1: General requirements

IEC 63349-1:2025(Main)

IEC 63349-1:2025 establishes control functions and operational performance requirements for photovoltaic direct-driven appliance (PVDDA) controllers.
PVDDA controllers are devices used for controlling power among power sources (such as a PV array, grid, energy storage, etc.) and appliances (such as an air-conditioner, refrigerator, water pump, etc.).
The requirements for PVDDA controllers are applicable to systems with voltages not higher than 1 500V DC or 1 000V AC. Safety and EMC requirements for the PVDDA controllers are under consideration and not covered by this document. Safety requirements for power converters connected to a PVDDA controller are listed as follows:
- for converter connected to PV array, IEC 62109‑1 and IEC 62109‑2 are applicable;
- for bi-directional converter connected to grid, IEC 62909‑1 and IEC 62909‑2 are applicable;
- for converter connected to energy storage, IEC 62477‑1 and IEC 62509 are applicable;
- for variable frequency drive, IEC 61800-5-1 is applicable.
Performance requirements for each individual power converter connected to a PVDDA controller refer to IEC 62093.

Standard
31 pages
English language
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Standard
32 pages
French language
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Standard
63 pages
English and French language
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03-Dec-2025
27.160
TC 82

Photovoltaic power generating systems connection with the grid - Testing of power conversion equipment - Part 3: Basic operations

IEC 63409-3:2025(Main)

Standard
68 pages
English language
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Standard
71 pages
French language
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Standard
139 pages
English and French language
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02-Dec-2025
27.160
TC 82

Solar photovoltaic energy systems - Terms, definitions and symbols

IEC TS 61836:2025(Main)

IEC TS 61836:2025 covers solar photovoltaic (PV) terminology, definitions and symbols used in IEC TC 82 international standards.

Technical specification
22 pages
English language
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23-Nov-2025
27.160
TC 82

Fire test for concentrator PV modules

IEC TS 63392:2025(Main)

IEC TS 63392:2025 specifies a test method for evaluating the basic fire behaviour of modules used in concentrating systems with a maximum DC system voltage of 1 500 V or less. Since the concentrator module may be exposed to flames due to flying embers or fire may be caused by the module itself due to hot spots or arching (internal fire), the tests outlined in this document are conducted in these two modes.
Applicable fire testing may be required by local codes but are not covered in this document.
CPV system or CPV modules mounted in or on buildings, shall fulfil national building and construction codes, regulations, and requirements and are not covered by this Technical Specification. If national or local codes define fire test requirements, they should be followed. If such requirements are not available, the following international and national standards give information for tests, which could be used: ISO 5657, ENV 1187-1 to -4, ANSI/UL 790, EN 13501-1.

Technical specification
15 pages
English language
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19-Nov-2025
27.160
TC 82

IEC 60364-7-712:2025(Main)

Low-voltage electrical installations - Part 7-712: Requirements for special installations or locations - Solar photovoltaic (PV) power supply installations

IEC 60364-7-712:2025 applies to electrical installations of PV systems. The equipment of a PV system, like any other item of equipment, is dealt with only so far as its selection and application in the installation is concerned. A PV installation comprises all equipment from PV modules(s) up to the connection point to other parts of the installation, for example a distribution board or the utility supply point (point of connection).
This part of IEC 60364 includes requirements on electrical installation resulting from the installation of PV power supply installations.
Requirements relating to the possible installation of energy storage systems (e.g. batteries) are included.
Requirements are also included for PV installations for island mode operation described in IEC 60364-8-82.
This third edition cancels and replaces the second edition published in 2017. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the previous edition:
a) The technical content has been extensively revised and expanded, taking into account experience gained in the construction and operation of PV installations, and developments made in technology, since the second edition was published.
b) Key changes include requirements for PV power generation plants, direct connection to battery circuits, introduction of DC bus circuit and DCUs.

Standard
69 pages
English language
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Standard
74 pages
French language
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Standard
143 pages
English and French language
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Guidelines for qualifying PV modules, components and materials for operation at high temperatures

IEC TS 63126:2025(Main)

IEC TS 63126:2025 defines additional testing requirements for photovoltaic (PV) modules deployed under conditions leading to higher module temperature which are beyond the scope of IEC 61215-1 and IEC 61730‑1 and the relevant component standards, IEC 62788‑1‑7, IEC 62788‑2‑1, IEC 62790 and IEC 62852. The testing conditions specified in IEC 61215-2 and IEC 61730-2 (and the relevant component standards IEC 62788‑1‑7, IEC 62788‑2‑1, IEC 62790 and IEC 62852) assumed that these standards are applicable for module deployment where the 98th percentile temperature (T98), that is the temperature that a module would be expected to exceed for 175,2 h per year, is less than 70 °C. This document defines two temperature regimes, temperature Level 1 and temperature Level 2, which were designed considering deployment in environments with mounting configurations such that the T98 is less than or equal to 80 °C for temperature Level 1, and less than or equal to 90 °C for temperature Level 2. This document provides recommended additional testing conditions within the IEC 61215 series, IEC 61730 series, IEC 62788‑1‑7, IEC 62788‑2‑1, IEC 62790 and IEC 62852 for module operation in temperature Levels 1 and 2. Successfully passing a higher Level for a test, sequence of tests, or complete testing for a higher Level is an implied passing of the relevant lower‑Level testing. For example, passing 200 thermal cycles for Level 2 is considered passing Level 0 and Level 1 for 200 thermal cycles.

Technical specification
33 pages
English language
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Technical specification
70 pages
English language
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13-Oct-2025
27.160
TC 82

CEN

EN ISO 9806:2025(Main)

Solar energy - Solar thermal collectors - Test methods (ISO 9806:2025)

SIST EN ISO 9806:2026

Standard
105 pages
English language
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1 day

07-Oct-2025
27.160
CEN/TC 312

Solar energy — Solar thermal collectors — Test methods

ISO 9806:2025(Main)

This document specifies test methods for assessing the durability, reliability, safety and thermal performance of fluid heating solar collectors. The test methods are applicable for laboratory testing and for in situ testing. This document is applicable to all types of fluid heating solar collectors, air heating solar collectors, hybrid solar collectors co-generating heat and electric power, as well as to solar collectors using external power sources for normal operation and/or safety purposes. This document does not address electrical safety aspects or other specific properties directly related to electric power generation. This document is not applicable to devices in which a thermal storage unit is an integral part to such an extent that the collection process cannot be separated from the storage process for making the collector thermal performance measurements.

Standard
89 pages
English language
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Standard
92 pages
French language
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30-Sep-2025
27.160
ISO/TC 180

IEC TS 61724-2:2025(Main)

Photovoltaic system performance - Part 2: Power performance index and capacity evaluation method

IEC TS 61724-2:2025 applies to grid-connected PV systems comprising at least one inverter.
The test evaluates the PV system only in conditions where output is unconstrained by limitations in AC power output from the inverters. This document defines a test of a PV system's power performance index (PPI). PPI, defined in IEC 61724‑1, is the ratio of a system's measured power output under test conditions to its expected output at those conditions based on the system's design.
The test is intended to be performed over a short period of typically three to five days and is typically used to satisfy a contractual performance guarantee as part of the final completion of a PV power plant. This second edition cancels and replaces the first edition published in 2016. This edition includes the following significant technical changes with respect to the previous edition:
a) Adapting the document for bifacial PV systems, in accordance with the latest edition of IEC 61724‑1 and current industry practices.
b) Adapting the test procedure to account for the limited times of unconstrained system operation which are now common because of high DC-to-AC ratios (clipping) and interconnection limits (curtailment).
c) Adapting the test procedure to achieve a test that can be performed in a short time of three to five days during favourable conditions.
d) Focusing the document more heavily on the use of modern PV system modelling software to obtain the expected performance of the system under test.
e) Simplifying the mathematical procedure for calculating the test results.
f) Clearly identifying test elections (optional choices to be made in conducting the test) and providing a template for documenting these elections.
g) Clarifying the discussion of the test boundary that separates tested variables from untested variables.
h) Expanding and clarifying the discussion of data filtering.

Technical specification
26 pages
English language
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21-Sep-2025
27.160
TC 82

IEC TS 62257-301:2025(Main)

Renewable energy off-grid systems - Part 301: Generators - Integration of solar with other forms of power generation within hybrid power systems

IEC TS 62257-301:2025 specifies the design and implementation of hybrid off-grid solar systems, where solar energy provides energy to a load in conjunction with other sources of energy. Such systems can either include or not include an energy storage system. There are a variety of different system architectures and applications, and many ways in which these energy sources can be combined. This document distinguishes between different sorts of hybrid system applications and gives guidance on the design and integration of these systems.
It applies to single-phase and three-phase applications, and it covers situations where grid is available as an additional source of power for charging batteries and maintaining system reliability, but this document does not cover situations in which energy is fed back into a utility grid, although such systems can incidentally possess this function.

Technical specification
18 pages
English language
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25-Aug-2025
27.160
TC 82

Solar energy — Calibration of a pyranometer using a pyrheliometer

ISO 9846:2025(Main)

This document specifies calibration methods for a pyranometer using a pyrheliometer as a reference instrument. Three methods are specified in this document. a) Alternating sun and shade method. This method uses a shading disc to alternately shade and unshade a pyranometer to compare with the tracking pyrheliometer. The test pyranometer can be horizontal, on a fixed tilt or tracking alongside the pyrheliometer. b) Continuous sun and shade method. In this method, a shaded calibrated reference pyranometer is used in addition to the reference pyrheliometer. The test pyranometer can be horizontal, on a fixed tilt or tracking alongside the reference pyrheliometer, but the reference pyranometer must be mounted in the same plane as the test pyranometer (most often on the horizontal). c) Collimation tube method. In this method, the test pyranometer is mounted on a solar tracker and is equipped with a collimation tube designed to allow the test pyranometer to have the same geometric view as the reference pyrheliometer for a direct comparison of the two instruments. The methods in this document are applicable for calibration of all pyranometers provided that a proper uncertainty evaluation is performed. Unlike spectrally flat pyranometers, non-spectrally flat pyranometers have a sensitivity that strongly depends on the solar spectrum. Therefore, the calibration result can be valid under a more limited range of conditions. The result of a calibration is the instrument sensitivity accompanied by an uncertainty. This document includes suggestions for uncertainty evaluation.

Standard
44 pages
English language
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Solar energy — Calibration of pyrheliometers by comparison to a reference pyrheliometer

ISO 9059:2025(Main)

This document specifies methods for calibration of pyrheliometers using reference pyrheliometers and specifies the calibration procedures for the transfer of the calibration. This document is applicable for use by calibration service providers and test laboratories to enable a uniform quality of accurate calibration sensitivities to be achieved.

Standard
31 pages
English language
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IEC TS 62804-1:2025(Main)

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

IEC TS 62804-1:2025 defines procedures to evaluate the durability of crystalline silicon photovoltaic (PV) modules to the effects of short-term high-voltage stress, primarily potential-induced degradation (PID). Three test methods are given. The first type, which has two variations, is conducted in the dark and is primarily designed for assessing PID-shunting. The second type, which also has two variations, incorporates the factor of ultraviolet light and is intended for assessing PID-polarization. A separate test for the recovery of PID polarization under ultraviolet light is also included.
The testing in this document is designed for crystalline silicon PV modules with silicon cells having passivating dielectric layers, for degradation mechanisms involving mobile ions influencing the electric field over the silicon semiconductor or electronically interacting with the silicon semiconductor. This document is not intended for evaluating modules with thin-film technologies, tandem, or heterojunction devices but can be used for guidance. The actual durability of modules to system voltage stress depends on the environmental conditions under which they are operated and the voltage potential in the module relative to earth (ground). These tests are intended to assess PV module sensitivity to PID irrespective of actual stresses under operation in different climates and systems.

Technical specification
28 pages
English language
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12-Jun-2025
27.160
TC 82

SIST EN 61427-2:2016/A1:2025(Amendment)

Secondary cells and batteries for renewable energy storage - General requirements and methods of test - Part 2: On-grid applications

EN 61427-2:2015/A1:2024

Amendment
12 pages
English language
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1 day

30-Jun-2023
08-Apr-2025
27.160
29.220.20
ISCB

SIST EN IEC 60891:2022/AC:2025(Corrigendum)

Photovoltaic devices - Procedures for temperature and irradiance corrections to measured I-V characteristics

EN IEC 60891:2021/AC:2024-11

Corrigendum
3 pages
English language
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16-Feb-2025
27.160
PVS

IEC TS 62257-9-8:2025(Main)

Renewable energy off-grid systems - Part 9-8: Integrated systems - Requirements for stand-alone renewable energy products with power ratings less than or equal to 350 W

IEC TS 62257-9-8:2025 provides baseline requirements for quality, durability and truth in advertising to protect consumers of off-grid renewable energy products. Evaluation of these requirements is based on tests described in IEC TS 62257-9-5. This document can be used alone or in conjunction with other international standards that address the safety and durability of components of off-grid renewable energy products.
This document applies to stand-alone renewable energy products having the following characteristics:
- The products are powered by photovoltaic (PV) modules or electromechanical power generating devices (such as dynamos), or are designed to use grid electricity to charge a battery or other energy-storage device for off-grid use. The requirements may also be appropriate as guidance for evaluating the quality of products with other power sources, such as thermoelectric generators.
- The peak power rating of the PV module or other power generating device is less than or equal to 350 W.
- The system evaluated includes all the loads (lighting, television, radio, fan, etc.) and load adapter cables that are sold or included as part of the kit or integrated into kit components.
- The PV module maximum power point voltage and the working voltage of any other components in the kit do not exceed 35 V. Exceptions are made for AC-to-DC converters that meet appropriate safety standards, and systems that include PV modules (or combinations of PV modules) with open-circuit voltage greater than 35 V that meet additional safety requirements beyond those assessed in IEC TS 62257-9-5.
This document includes provisions related to safety; however, it is not intended to be a comprehensive safety standard. In particular, this document is not intended to be used as an alternative to safety standards such as IEC 62368-1 or the IEC 60335 series for appliances such as radios and televisions that are included with stand-alone renewable energy products. Nor is it intended to replace the safety requirements of IEC 62281 or UN 38.3 for battery safety during transport, or safety requirements of IEC 61730-1 and IEC 61730-2 for PV modules intended for use outside the context of stand-alone renewable energy products.

Technical specification
77 pages
English language
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Technical specification
174 pages
English language
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12-Jan-2025
27.160
TC 82

IEC TS 62257-9-5:2024(Main)

Renewable energy off-grid systems – Part 9-5: Integrated systems – Laboratory evaluation of stand-alone renewable energy products for rural electrification

IEC TS 62257-9-5:2024 provides support and strategies for institutions involved in rural electrification projects. It documents technical approaches for designing, building, testing, and maintaining off-grid renewable energy and hybrid systems with AC nominal voltage below 500 V, DC nominal voltage below 750 V and nominal power below 100 kVA.
The purpose of this document is to specify laboratory test methods for evaluating the quality assurance of stand-alone renewable energy products. This document is specifically related to renewable energy products that are packaged and made available to end-use consumers at the point of purchase as single, stand-alone products that do not require additional system components to function.
This document establishes the framework for creating a product specification, the basis for evaluating quality for a particular context. Product specifications include minimum requirements for quality standards and warranty requirements.
This document applies to stand-alone renewable energy products having the following characteristics: This document was written primarily for off-grid renewable energy products with batteries and PV modules with DC system voltages not exceeding 35 V and peak power ratings not exceeding 350 W. This document includes provisions related to safety; however, it is not intended to be a comprehensive safety standard. In particular, this document is not intended to be used as an alternative to safety standards such as IEC 62368-1 or IEC 60335 (all parts) for appliances such as radios and televisions that are included with stand-alone renewable energy products

Technical specification
417 pages
English language
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10-Dec-2024
27.160
TC 82

CLC

EN IEC 60891:2021/AC:2024-11(Corrigendum)

Photovoltaic devices - Procedures for temperature and irradiance corrections to measured I-V characteristics

SIST EN IEC 60891:2022/AC:2025

Corrigendum
3 pages
English language
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1 day

31-Oct-2024
27.160
CLC/TC 82

IEC 60891:2021/COR1:2024(Corrigendum)

Corrigendum 1 - Photovoltaic devices - Procedures for temperature and irradiance corrections to measured I-V characteristics

Standard
2 pages
English and French language
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16-Oct-2024
27.160
TC 82

IEC 61730-2:2023/COR1:2024(Corrigendum)

Corrigendum 1- Photovoltaic (PV) module safety qualification - Part 2: Requirements for testing

Standard
7 pages
English and French language
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13-Oct-2024
27.160
TC 82

Measurement procedures for materials used in photovoltaic modules - Part 1-1: Encapsulants - Polymeric materials used for encapsulation

IEC 62788-1-1:2024(Main)

IEC 62788-1-1:2024 defines test methods and reporting requirements for characteristics (optical, mechanical, electrical, thermal, and chemical) of non-rigid polymeric materials (e.g., poly(ethylene-co-vinyl acetate), EVA) intended for use in terrestrial photovoltaic (PV) modules as polymeric encapsulants.
The test methods in this document define how to characterize encapsulant materials in a manner representative of how they will be used in the module, which includes combination with other components such as frontsheets, backsheets, adhesives, edge seals, or glass.The methods described in this document support and supplement the safety- and performance-related tests defined on the PV module level, as defined in IEC 61730-2 and IEC 61215-1. This document also defines test methods for general assessment of material characteristics of polymeric encapsulants.
The test methods described in this document may be used for the purposes of: datasheet reporting (aiding module design or material research and development); process and manufacturing control (e.g., incoming or outgoing inspection); application in module safety and design type qualification protocols; or reliability and durability study/standards development

Standard
113 pages
English and French language
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16-Sep-2024
27.160
TC 82

IEC TS 62915:2023/COR1:2024(Corrigendum)

Corrigendum 1 - Photovoltaic (PV) modules - Type approval, design and safety qualification - Retesting

Technical specification
1 page
English language
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06-Aug-2024
27.160
TC 82

Measurement procedures for materials used in photovoltaic modules - Part 7-3: Accelerated stress tests - Methods of abrasion of PV module external surfaces

IEC 62788-7-3:2022(Main)

IEC 62788-7-3:2022 defines the test methods that can be used for evaluating the abrasion of materials and coatings in photovoltaic modules or other solar devices. This document may be applied to components on the incident surface (including coatings, frontsheet, and glass) as well as the back surface (including backsheets or back glass). This document is intended to address abrasion of PV module surfaces and any coatings present using representative specimens (e.g. which can be centimetres in size); the methods and apparatus used here can also be used on PV module specimens (e.g. meters in size).

Standard
44 pages
English language
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Standard
43 pages
English and French language
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30-Jul-2024
27.160
TC 82

IEC 62788-7-3:2022/AMD1:2024(Amendment)

Amendment 1 - Measurement procedures for materials used in photovoltaic modules - Part 7-3: Accelerated stress tests - Methods of abrasion of PV module external surfaces

Standard
9 pages
English and French language
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30-Jul-2024
27.160
TC 82

IEC TS 62788-2:2024(Main)

Measurement procedures for materials used in photovoltaic modules - Part 2: Polymeric materials - Frontsheets and backsheets

IEC TS 62788-2:2024 defines test methods and datasheet reporting requirements for safety and performance-related properties (mechanical, electrical, thermal, optical, chemical) of non‑rigid polymeric materials intended for use in terrestrial photovoltaic modules as polymeric front- and backsheets. The test methods in this document define how to characterize front- and backsheet materials and their components in a manner representative of how they will be used in the module, which eventually includes combination with other matched components such as encapsulants or adhesives. Results of testing described in this document are called by IEC 62788-2-1 for safety qualification of polymeric front- and backsheets on component level and support the safety and performance-related tests defined on the PV module level as defined in the series IEC 61730 (for safety) and IEC 61215 (for performance). This document also defines test methods for assessing inherent material characteristics of polymeric front- and backsheets or their components, which can be required in datasheet reporting or can be useful in the context of product development or design of PV modules.
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:
a) With revision of IEC 61730-1 the requirements for the polymeric front- and backsheet have been moved from IEC 61730-1 into IEC 62788-2-1. This is reflected accordingly.
b) The tensile testing method has been refined based on findings of round robin tests, including updated drawings.
c) A thermal pre-exposure method has been introduced to be equivalent to the thermal effects of a "lamination" cycle. This pre-exposure defines the "fresh" state of the front- or backsheet in final application for evaluation of changes in ageing tests. For practical reasons, an oven exposure has been defined as an equivalent test.
d) The multiple functions of the lamination protrusion test (previously DTI test) have been clarified, to identify and measure RUI layer thickness as well as to identify layers for which the comparative tracking index (CTI) needs to be determined. Also the content of IEC 62788-2-1 has been updated, by which the lamination protrusion test and MST 04 are additionally set in perspective to each other via engineering judgement.
e) The DC breakdown voltage test method has been updated and the option to perform a withstand voltage test has been added (to reduce the required measurement voltage). The correction of DC breakdown voltage ( ) measurements, needed in the presence of non‑RUI layers and after the lamination protrusion test, has been defined more precisely.
f) Details for thickness measurement have been added (engineered surface roughness due to embossing).
g) The adhesion test methods have been reviewed and updated. The single cantilevered beam test has been added. Figures have been updated to align with IEC 62788-1-1.
h) The thermal failsafe test has been added as a test method based on discussion in the parallel project for IEC 62788-2-1. The test method offers a single temperature-point evaluation to include elongation at break to the thermal endurance evaluation.
I) A sequential UV/TC test ("solder bump test") has been added.

Technical specification
94 pages
English language
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11-Jul-2024
27.160
TC 82

IEC TS 62788-8-1:2024(Main)

Measurement procedures for materials used in photovoltaic modules - Part 8-1: Electrically conductive adhesive (ECA) - Measurement of material properties

IEC TS 62788-8-1:2024 defines test methods and datasheet reporting requirements for key characteristics of ECA used in photovoltaic modules, involving mechanical characteristics, adhesive characteristics, electrical characteristics, thermal characteristics, etc.
The object of this document is to offer a standard test procedure to ECA manufacturers for product design, production and quality control, and to PV module manufacturers for the purpose of material screening, material inspection, process control, and failure analysis.
This document is intended to be applied to ECA used in solar PV modules. For non-conductive adhesives or tapes used in PV modules, the applicable test methods except for electrical characteristics in this document may be used.

Technical specification
51 pages
English language
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10-Jun-2024
27.160
TC 82

SIST EN ISO 24194:2022/A1:2024(Amendment)

Solar energy - Collector fields - Check of performance - Amendment 1 (ISO 24194:2022/Amd 1:2024)

EN ISO 24194:2022/A1:2024

Amendment
9 pages
English language
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1 day

13-Jul-2023
29-May-2024
27.160
TOP

Solar thermal electric plants - Part 1-6: Silicone-based heat transfer fluids for use in line-focus concentrated solar power applications

IEC 62862-1-6:2024(Main)

IEC 628621-6:2024 specifies the technical requirements (safety and physical parameters), test methods, inspection rules and intervals, sampling, judgment, marking, labelling and accompanying documents, packaging, transportation and storage, recycling and disposal of silicone-based heat transfer fluids (SiHTF) for use in line-focusing solar thermal power plants.
The application of polydimethylsiloxane-based heat transfer fluids for this type of installation is covered in this document. Owing to their chemical nature and composition, the introduction of new test methods to determine the applicability and the thermal stability of SiHTF is included in this document.

Standard
34 pages
English language
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07-May-2024
27.160
TC 117

Solar thermal electric plants - Part 1-5: Performance test code for solar thermal electric plants

IEC 62862-1-5:2024(Main)

IEC 62862-1-5:2024 provide procedures and guidelines to carry out acceptance tests for solar thermal power plants, of any concentration technology, with the uncertainty level given in ISO/IEC Guide 98-3.
This document establishes the measurements, instrumentation and techniques required for determining the following performance parameters for a given period:
- available solar radiation energy,
- plant electricity consumptions,
- net electricity generation,
- non-solar energy,
- net plant efficiency.
This document specifies the characteristics of a calculation tool that serves as a reference for expected electricity production during the test period and under real-time solar irradiance and other meteorological data.
This document is applicable to solar thermal power plants of any size using any concentration technology, where the sun is the main source of energy, and all elements and systems are operative. Such power plants can optionally have non-solar energy sources, such as natural gas or other renewable energies, and a thermal storage system.
This document is applicable to acceptance testing in such power plants, as well as in any other scenario in which their performance must be known.

Standard
87 pages
English and French language
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02-Apr-2024
27.160
TC 117

CEN

EN ISO 24194:2022/A1:2024(Amendment)

Solar energy - Collector fields - Check of performance - Amendment 1 (ISO 24194:2022/Amd 1:2024)

SIST EN ISO 24194:2022/A1:2024

Amendment
9 pages
English language
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1 day

26-Mar-2024
27.160
CEN/TC 312

ISO 24194:2022/Amd 1:2024(Amendment)

Solar energy — Collector fields — Check of performance — Amendment 1

Standard
3 pages
English language
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Standard
3 pages
French language
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IEC TR 63401-3:2023(Main)

Dynamic characteristics of inverter-based resources in bulk power systems - Part 3: Fast frequency response and frequency ride-through from inverter-based resources during severe frequency disturbances

IEC TR 63401-3:2023, which is a Technical Report, provides an insight into the various forms of fast frequency response and frequency ride-through techniques that involve inverter-based generation sources (mainly wind and PV) in a bulk electrical system.
This document first focuses on extracting the clear definition of FFR from different references around the world, while studying the mechanism of FFR acting on system frequency and the unique features of FFR. It then compares various kinds of frequency response and demonstrates the relationship among synchronous inertia response, fast frequency response, and primary frequency response. Several system needs and conditions where FFR is suitable are identified. This document also focuses on the performance objectives, practicality and capabilities of various non-synchronous resources, and discusses the test methods for verifying FFR capability at different levels. Finally, it focuses on the ROCOF issues and on the robust performances of FFR. .

Technical report
78 pages
English language
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