SIST - Slovenian Institute for Standardization

This document provides requirements on identification and labelling of medicinal products from the point of manufacturing of packaged medicinal product to the point of dispensing the product.
This document outlines commonly accepted international practices for automatic identification and data capture (AIDC) barcoding solutions for applications and applies to manufacturers, distributors, healthcare facilities and all parties involved in labelling and distribution of packaged medicinal products. These users can, however, consider the coding interoperability requirements for other AIDC technologies, e.g. radio frequency identification (RFID); that technology is not addressed in this document except as for information.

The CEN/TS 18212 series specifies a generic framework for the establishment of requirements and their evaluation methodology for biometric products. The requirements depend on the biometric mode considered, and are adapted to each scenario, through the definition of a variety of application profiles (APs).
This series of standards are expected to provide the evaluation methodology, the individual tests, and the APs (with their particular requirements).
This document specifies:
-   tests for evaluating the interoperability of all biometric input data (received or read);
-   test for evaluating the interoperability of all biometric output data (stored or transmitted);
-   test for evaluating the interoperability of all exchange of information between the TOE and external components or devices.
NOTE 1   Additional parts are provided covering the specifics of each biometric mode. For each of these modalities, application-independent tests are defined, as well as a set of APs, that detail the applicable tests, the evaluation parameters, and the passing criteria.
The Technical Specifications within this series can be taken by any certification body and/or sector, to define and evaluate the requirements for their biometric products within their selected applications.
NOTE 2   Regarding biometrics for public sector applications, see also BSI TR 03121 [2] which can apply.
NOTE 3   For an overview of sectors addressed in the Cybersecurity Act, see Regulation (EU) 2019/881.
NOTE 4   This part defines all potential tests that could be applicable when evaluating the interoperability of a biometric product. It will be the relevant AP, the one that will specify which of these tests are applicable.

This document describes the transaction information requirements of the transactions used in the collaborations described in EN 17016-1:2024. For each transaction are specified the transaction business requirements, the transaction information data model containing definitions of terms, usage descriptions and cardinality of the information elements and the transaction business rules.
This document describes the following transactions:
1)   Order;
2)   Order Change;
3)   Order Cancellation;
4)   Order Response Simple
5)   Order Confirmation;
6)   Order Rejection;
7)   Order Response;
8)   Order Change Confirmation;
9)   Order Change Rejection;
10)   Order Cancellation Confirmation;
11)   Order Cancellation Rejection;
12)   Order Agreement.
How to claim compliance to a transaction is specified in Clause 6.
How to claim conformance to a transaction is also specified in Clause 6.

This document describes a standardized methodology and framework for the development and representation of an ontology that supports a global, open-source approach to implementing the ISO standards on the identification of medicinal products (IDMP) (ISO 11615, ISO/TS 20443, ISO/TS 20451, ISO 11238; ISO/TS 19844, ISO 11239, ISO/TS 20440, and ISO 11240). Realization of the full potential of IDMP requires fully self-describing data. For this purpose, this document describes a methodology and framework that complements the existing conceptual and logical models in the ISO documents on IDMP with an IDMP ontology that enables deep, semantic interoperability based on findable, accessible, interoperable and reusable (FAIR) data principles. This methodology and framework enhance the usage of the IDMP data model as the foundation of medicinal product identification and will ultimately enable collaboration towards drug safety and overall operational efficiency.
This document also describes a methodology for the agile adaptation of the ISO documents on IDMP in connection with cross-jurisdictional IDMP-related legislation and initiatives. This document is intended to be complementary to and independent from formal regulatory guidance. Thus, it enables cross-jurisdictional consistency and supports stakeholders in their regional implementations of IDMP standards. This document does not mandate any specific ontology as an implementation tool, nor is it an instructional guideline on how to build ontologies, which is out of scope of this document.
This document includes key use cases described in the ISO documents on IDMP ISO 11615, ISO 11238 and ISO/TS 19844, as well as further use cases arising from the comprehensive deployment of the ISO documents on IDMP via an ontological framework. Thus, an ontology that represents the IDMP standards aims to cover the complete collection of ISO standards on IDMP regarding key interoperability issues that implementing stakeholders are facing.

This Technical Specification (TS) series provide a generic framework for the establishment of requirements and their evaluation methodology for biometric products. The requirements depend on the biometric mode considered, and are adapted to each scenario, through the definition of a variety of application profiles (APs). In addition, this TS series provides the definition of the individual tests that can be applied to a biometric product.
This document specifies the context for the evaluation of biometric products within the context of the European Union, as well as the general requirements for such evaluation. This will be defined in a biometric mode-independent point of view, as well as not being biased by the particular application which is the target of the biometric product to be assessed.
This first part defines the following items:
-   biometric evaluation process;
-   biometric evaluation phases;
-   how to define each particular biometric test;
-   how to define the profiling for a particular application.
NOTE 1   Future parts of the CEN/TS series are planned to address the specifics of each biometric mode. For each of these modalities, this document specifies application-independent tests, as well as a set of APs, that detail the applicable tests, the evaluation parameters, and the passing criteria.
NOTE 2   Regarding biometrics for public sector applications, see also BSI TR 03121 [7] which can apply.
NOTE 3   For an overview of sectors addressed in the Cybersecurity Act, see Regulation (EU) 2019/881.

This document defines and establishes a framework for access management (AM) and the secure management of the process to access information and information and communications technologies (ICT) resources, associated with the accountability of a subject within some contexts.
This document provides concepts, terms and definitions applicable to distributed access management techniques in network environments.
This document also provides explanations about related architecture, components and management functions.
The subjects involved in access management can be uniquely recognized to access information systems, as defined in the ISO/IEC 24760 series.
The nature and qualities of physical access control involved in access management systems are outside the scope of this document.

This document specifies quality requirements for the chart, test procedure and acceptance level for near, far, and colour vision acuity of NDT personnel. Information for grey scale perception and low contrast can be found in the annexes. This document also specifies the qualification requirements for personnel permitted to carry out the test.
This document is only applicable to vision acuity under defined conditions similar to those encountered during routine NDT inspection. This document does not address an individual’s overall visual acuity and users are advised to consider the need for a general eye examination by specialist medical personnel to ensure general vision acuity.

Creating an amendment to list the EN IEC 60079-15:2019 in OJEU by submitting European elements (Annex ZZ and Annex ZA)

IEC 63002:2025 defines common charging interoperability guidelines for power sources (external power supplies (EPSs) and other Sources) used with computing and consumer electronics devices that implement IEC 62680‑1‑3 (USB Type-C® Cable and Connector Specification). This document defines normative requirements for an EPS to ensure interoperability; in particular, it specifies the data communicated from a power source to a device and certain safety elements of the EPS, cable, and device. While the requirements focus of this document is on the EPS and the behaviour at its USB Type-C connector interface, it is also important to comprehend cable assembly and device capabilities and behaviours in order to assure end-to-end charging interoperability. This document does not apply to all design aspects of an EPS. This document does not specify regulatory compliance requirements for aspects such as product safety, EMC, or energy efficiency. This document provides recommendations for the behaviour of a device when used with a power source compliant with this document. It specifies the minimum hardware specification for an EPS implementing IEC 62680‑1‑3. This document also specifies the data objects used by a charging system utilizing IEC 62680‑1‑2 to understand the identity, design and performance characteristics, and operating status of an external power supply. IEC 62680‑1‑2 focuses on power delivery applications ranging to 240 W for a variety of computing and consumer electronics devices including notebook computers, tablets, smartphones, small form-factor desktops, monitor displays and other multimedia devices. This document relies on established mechanical and electrical specifications, and communication protocols specified by IEC 62680‑1‑2 and IEC 62680‑1‑3. These specifications support methods for establishing the best performing interoperability between untested combinations of EPS and devices with the aim of improving consumer satisfaction. Information describing the USB charging interoperability model, overview of USB Type-C and USB Power Delivery specifications, and factors for charging performance are also provided to support implementation of this document. This third edition cancels and replaces the second edition published in 2021. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the previous edition:
a) power range is increased to 240 W;
b) AVS mode is introduced;
c) Annex A updates issues of arbitrary combinations of AC adapter and device;
d) Annex B describes new safeguards for EPR mode;
e) Annex C and Annex D are updated.

The contents of the corrigendum of March 2023 have been included in this copy.

This document specifies a normalized railway noise spectrum for the evaluation and assessment of the acoustic performance of devices designed to reduce airborne railway noise near railways.
All noise reducing devices different from noise barriers and related devices acting on airborne sound propagation, e.g. devices for attenuation of ground borne vibration and on board devices are outside of the scope of this document.

This document specifies a method for the measurement of effective focal spot dimensions > 0,2 µm of X-ray systems by means of the edge method applied to digital images taken from hole type or disk type test objects if no phase contrast is observed. The imaging quality and the resolution of X-ray images depends highly on the characteristics of the effective focal spot, in particular its size and two-dimensional intensity distribution as seen from the detector plane.
This document specifies procedures for determining the effective size (dimensions) of standard, mini and micro focal spots of industrial X-ray tubes for users in applications where the pin hole method according to ISO 32543-1 is not applicable. The method specified in this document is applicable for measurement and long-term monitoring of focal spot sizes without a pin hole camera.
This document can be used by manufacturers, if special hole test objects manufactured with lower tolerances according to 6.2.1 are applied (see Figure 1). For measurements of the effective focal spot size, the accuracy of the method in this document is lower than the methods specified in ISO 32543-1 (pin hole method) and ISO 32543-3 (microfocus tubes) if using ASTM hole plate IQIs (see ASTM E1025, ASTM E1742), due to its manufacturing tolerance of ±10 %.
NOTE            For characterization of commercial X-ray tube types (i.e. for advertising or trade), the nominal values of Annex A are preferred.

This document describes a test that determines the rate of leakage of ambient (cold) and medium (warm) temperature smoke from one side of door and shutter assemblies to the other under the specified test conditions. This test method is applicable to door and shutter assemblies and self-closing operable glazed elements of different configurations intended for the purpose of controlling the passage of smoke in case of fire. Wherever door and shutter assemblies are referred to in this document, it also applies to self-closing glazed elements. The fire resistance of glazed elements is determined by tests in accordance with ISO 3009.
The acceptable leakage rates for different situations are not addressed in this document, but rather are specified by the regulations of the controlling authorities.

This document describes the typical accessories used for Large Power Transformers.

IEC 62820-1-1 specifies the technical requirements for the composition, functions, performance, and test methods of general building intercom systems.
This document is applicable to the general intercom systems for building entry in residential or commercial buildings.
Door-Entry-System (DES) is a simple kind of convenient Building-Intercom-System (BIS) mainly for user’s comfort. This document has classified the general building intercom systems into two grades in IEC 62820-1-1. Grade 1 adopts lower requirements to cover DES not used for relevant security applications while grade 2 adopts higher requirements for building intercom systems for security applications. Each grade can adopt different functional and performance requirements, test methods and normative references.
NOTE The different requirements between grade 1 and grade 2 are summarized in Table C.1 of Annex C.

This document specifies a semantic data model of the core elements of an Electronic invoice. The semantic data model includes only the essential information elements that an Electronic invoice needs to ensure legal (including fiscal) compliance and to enable interoperability for cross-border, cross sector and domestic trade. The semantic data model can be applied by organizations in the private and the public sector for public procurement invoicing. It can also be used for invoicing between private sector enterprises. It has not been specifically designed for invoicing consumers.
This document complies at least with the following criteria:
— it is technologically neutral;
— it is compatible with relevant international standards on electronic invoicing;
— the application of this standard should comply with the requirements for the protection of personal data of Directive 95/46/EC, having due regard to the principles of privacy and data protection bydesign, data minimization, purpose limitation, necessity and proportionality;
— it is consistent with the relevant provisions of Directive 2006/112/EC [2];
— it allows for the establishment of practical, user-friendly, flexible and cost-efficient electronic invoicing systems;
— it takes into account the special needs of small and medium-sized enterprises as well as of subcentral contracting authorities and contracting entities;
— it is suitable for use in commercial transactions between enterprises.

This document gives guidance and requirements for the assessment of conformity of formulations, products and assemblies in accordance with EN 1329-1:2026 intended to be included in the manufacturer’s quality plan as part of the quality management system and for the establishment of certification procedures.
NOTE 1   A basic test matrix provides an overview of the testing scheme in Annex A, Table A.1.
NOTE 2   If certification is involved, the certification body operating in accordance with EN ISO/IEC 17065[1] and EN ISO/IEC 17020[2] is considered to be competent.

The present document defines specific QCStatement for the qcStatements extension as defined in IETF RFC 3739 [2], clause 3.2.6, including requirements for their use in EU qualified certificates. Some of these QCStatements can be used for other forms of certificate. The QCStatements defined in the present document can be used in combination with any certificate profile, either defined in ETSI EN 319 412-2 [i.2], ETSI EN 319 412-3 [i.5] and ETSI EN 319 412-4 [i.6], or defined elsewhere. The QCStatements defined in clause 4.3 can be applied to regulatory environments outside the EU. Other requirements specified in clause 4 are specific to Regulation (EU) No 910/2014 [i.8] but may be adapted for other regulatory environments.

This document specifies a method of preparing a ground sample of spice or condiment for analysis, from a laboratory sample obtained by the method specified in ISO 948.
This document is applicable to the majority of spices and condiments. However, in view of the large number and diversity of spices and condiments, it can be necessary in certain special cases, for example, considerable hardness, or high moisture, volatile oil or fat content, to use a modified procedure or to choose another more
suitable method. Any such modified procedure or alternative method will be indicated in the International Standard appropriate to the spice or condiment concerned.

IEC 61375-1:2026 applies to the architecture of data communication systems in open trains, i.e. it covers the architecture of a communication system for the data communication between vehicles of the said open trains, the data communication within the vehicles and the data communication from train to the ground. The applicability of IEC 61375-1 to the train network technologies allows for interoperability of individual vehicles within open trains in international traffic. The data communication systems inside vehicles are given as recommended solutions to cope with the said TCN. In any case, proof of compatibility between a proposed train backbone and a proposed consist network will have to be brought by the supplier. IEC 61375-1 might be additionally applicable to closed trains and multiple unit trains when so agreed between purchaser and supplier. This fourth edition cancels and replaces the third edition published in 2012. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the previous edition:
a) Extension of train backbone topologies: aggregated and segregated topology;
b) Added independent consist orientation check with segregated train backbone topology;
c) Introduction of wireless technologies: wireless train backbone and wireless consist network;
d) Possibility of virtual networks;
e) Definition of data classes and protocol requirements suitable for the OMTS domain;
f) New clause about cybersecurity in train communication networks.

This document is applicable to all electronic equipment for control, regulation, protection, diagnostic, energy supply installed on railway vehicles and any relevant elements of rolling stock subsystems (e.g. external doors, On-Board ETCS functionality, wheel slide protection).
For the purpose of this document, electronic equipment is defined as equipment composed of electronic components (e.g. resistors, capacitors, transistors, diodes, integrated circuits, hybrids, application specific integrated circuits, wound components and relays), and recognized associated components (e.g. connectors, mechanical parts). These components are mainly mounted on printed circuit boards.
Sensors (e.g. current, voltage, speed) and semiconductor drive units for power electronic devices are covered by this document. Complete semiconductor drive units and power converters are covered by EN 61287 1.
This document covers the requirements for operating conditions, design, documentation, testing and integration of electronic equipment, as well as hardware and software requirements considered necessary for compliant and reliable equipment.
Specific requirements related to practices necessary to ensure defined safety integrity level or functional safety are not covered by this document. Nevertheless, this document is applicable to the hardware of all rolling stock electronic equipment or systems performing safety-related functions.
The software development requirements for on-board railway equipment are specified by EN 50716.

This document specifies methods for the determination of seam maximum force of sewn seams when the force is applied perpendicularly to the seam. It describes the method known as the grab test.
The method defined in this document is applicable to woven textile fabrics, including fabrics which exhibit stretch characteristics imparted by the presence of an elastomeric fibre, mechanical or chemical treatment. It can be applicable to fabrics produced by other techniques. It is normally not applicable to geotextiles, nonwovens, coated fabrics, textile-glass woven fabrics and fabrics made from carbon fibres or polyolefin tape yarns.[2], [3], [4]
This method is applicable to straight seams only (obtained from previously sewn articles or prepared from fabric samples) and not to curved seams (see Annex B for considerations on seams).
The method is restricted to the use of constant-rate-of-extension (CRE) testing machines.

This document specifies processes for the management and operation of data centres. The primary focus of this document is the processes necessary to deliver the expected level of resilience, availability, risk management, risk mitigation, capacity planning, security and resource and energy efficiency.
The secondary focus is on organization and data centre management to align the actual and future demands. Only processes specific for data centres are in the scope of this document.
Business processes like people management, financial management, etc. are out of scope.

This document is applicable to ventilation systems in commercial kitchens, associated areas and other installations processing foodstuffs intended for commercial use. Kitchens and associated areas are special rooms in which meals are prepared, where tableware and equipment are washed and cleaned, food is stored, and food waste areas.
This document specifies requirements and gives recommendations for the configuration, installation, testing, maintenance and safety of fixed kitchen fire extinguishing systems within the design of commercial kitchens in buildings. It is applicable for fire extinguishing systems providing appliance-specific protection as well as overlapping zone protection.
This document provides the guidelines to install fixed fire extinguishing systems to protect against grease fires on the cooking appliances in the extract ventilation system. This document includes recommendations for the certification of system hardware, as well as design, installation and maintenance of the system.
NOTE   It is possible that there are additional or alternative local national regulations on installation, appliance requirements and inspection, maintenance and operation.
This document is applicable to kitchen ventilation systems excluding those in domestic kitchens.

This document specifies a test method for the verification of the resistance to hydrostatic pressure of explosives for blasting and a test method for the verification of the resistance to hydrostatic pressure of explosives for boosters.
This document does not apply to black powder.
This document does not apply to explosive substances.

IEC 62841-3-11:2024 applies to transportable combined mitre and bench saws intended to be used with a toothed saw blade for cutting wood and analogous materials, plastics and nonferrous metals except magnesium with a saw blade diameter not exceeding 315 mm, which hereinafter is simply referred to as saw or tool.
This document does not apply to:
- saws intended to cut other metals, such as magnesium, steel and iron, or food;
- saws with an automatic feeding device;
- saws designed for use with abrasive wheels;
- saws designed for use with dado blades;
- single function bench or table saws;
- single function mitre saws;
- combined mitre and bench saws other than transportable.
NOTE 101 Transportable saws intended to cut ferrous metals will be covered by a future part of IEC 62841-3.
NOTE 102 Transportable tools designed for use with abrasive wheels are covered by IEC 62841-3-10:2015.
NOTE 103 Transportable table saws are covered by IEC 62841-3-1:2014.
NOTE 104 Transportable mitre saws are covered by IEC 62841-3-9:2020.
NOTE 105 In Europe (EN IEC 62841-3-11), the following additional NOTE applies:
NOTE Z101 Combined mitre and bench saws other than transportable are covered by EN 1870-3:2014.
This document is to be used in conjunction with IEC 62841-1:2014. This document supplements or modifies the corresponding clauses in IEC 62841-1, so as to convert it into the IEC Standard: Particular requirements for transportable combined mitre and bench saws.

This document specifies a procedure to determine the release of metals from metallic materials used in products intended to come into contact with drinking water.
The test can be used for three purposes:
a)   To assess a material as a reference material for a new category of materials by metal release testing using the results of several investigations in different waters covering a broad range of water compositions;
b)   To assess a material for an existing category for approval by way of metal release testing using the water defined in part 2, which exhibited the highest metal release when the reference material of the category was tested;
c)   To obtain data on the interaction of local water with a material.

This document is applicable to calcium carbonate used for treatment of water intended for human consumption. It describes the characteristics of calcium carbonate and specifies the requirements and the corresponding test methods for calcium carbonate. It gives information on its use in water treatment.

This document specifies a procedure for obtaining a migration water to determine odour, flavour, colour and turbidity for products made from organic materials intended to come in contact with water for human consumption (drinking water) and used in piping and storage systems. Such products include pipes, tanks, reservoirs, fittings, ancillaries and their coatings both for site applied and factory-made products.
This document is applicable to products to be used under various conditions for the transport, storage and distribution of water intended for human consumption and raw water used for the manufacture of water intended for human consumption.
This document specifies a test method comprising a set of procedures. The use may be dependent on the relevant national regulations and/or the Commission Implementing Decision (EU) 2024/368.

2021-12-07: This prAA includes CMs to prEN IEC (PR=75392)
DOW=DOR+48 months

IEC 62196-1:2025 is applicable to EV plugs, EV socket-outlets, vehicle connectors, vehicle inlets, herein referred to as "accessories", and to cable assemblies for electric vehicles (EV) intended for use in conductive charging systems which incorporate control means, with a rated operating voltage not exceeding
- 690 V AC 50 Hz to 60 Hz, at a rated current not exceeding 250 A, and
- 1 500 V DC at a rated current not exceeding 800 A.
This fifth edition cancels and replaces the fourth edition published in 2022. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the previous edition:
a) addition of new tests for latching devices and retaining means;
b) inclusion of type 4 accessories.

This document specifies the requirements for solid wall pipes with smooth internal and external surfaces, extruded from the same formulation throughout the wall, fittings and the piping system of unplasticized poly(vinyl chloride) (PVC-U) intended for soil and waste discharge applications (low and high temperature)
-   above ground inside the building, or outside buildings fixed onto the wall; which is reflected in the marking by “B”;
-   for both inside buildings and buried in ground within the building structure, which is reflected in the marking by “BD”. This intended use is only applicable for components with nominal outside diameters equal to or greater than 75 mm.
NOTE 1   Multilayer pipes with different formulations throughout the wall and foamed core pipes are covered by EN 1453-1[1].
PVC-U pipes, fittings and the system complying with this document are also suitable for the following purposes:
-   ventilating part of the pipework in association with discharge applications;
-   rainwater pipework within the building structure.
This document covers a range of nominal sizes, a range of pipes and fittings series and gives recommendations concerning colours.
Pipes, fittings and other components conforming to any of the plastics product standards listed in Annex B can be used with pipes and fittings conforming to this document, provided they conform to the requirements for joint dimensions given in Clause 7 and to the requirements of Table 26.
NOTE 2   EN 476[2] specifies the general requirements for components used in discharge pipes, drains and sewers for gravity systems. Pipes and fittings conforming to EN 1329-1 fully meet the EN 476 requirements.

This document specifies a test method for the verification of the resistance to water of explosives for blasting and boosters.
NOTE   This test method applies to situations where an explosive for blasting or a booster is subjected to high humidity and contact with water.
This document does not apply to black powder.
This document does not apply to explosive substances.

This document specifies the requirements for the rescue coupler for train sets compliant with the Technical Specification for Interoperability Locomotives and Passenger rolling stock (TSI Loc & Pas).
This document defines the rescue coupler foreseen to connect rescue vehicle equipped with draw hook, according to EN 15566 together with the train to be rescued equipped with Type 10 automatic coupler according to EN 16019.

IEC 60669-2-4:2024 applies to manually operated general purpose isolating switches with a rated voltage not exceeding 440 V and a rated current not exceeding 125 A, intended for household and similar fixed electrical installations, either indoors or outdoors. This second edition cancels and replaces the first edition published in 2004. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition:
a) revision of the present edition with reference to the published IEC 60669-1:2017 Edition 4 with its amendments and references to clauses and tables;
b) introducing the values for isolating switches with ratings from 6 A to 13 A;
c) introducing a circuit motor load with a rated current not exceeding 10 A and a power factor not less than 0,6 in the scope;
d) modification of Table 1 and Table 5.

This document specifies requirements for the respiratory tubing and connectors used to convey respirable gases to a patient in the healthcare and homecare environments and provide a safe connection between the gas supply device and the patient interface. Respiratory tubing and connectors are mainly used for delivery of oxygen but can also be used for respirable air or oxygen/air mixtures and breathable medicinal gas mixtures such as oxygen/nitrous oxide or oxygen/helium mixtures. This document also specifies requirements for respiratory therapy extension tubing.
NOTE 1        The gas supply devices referred to in this document do not include anaesthetic machines/workstations and ventilators.
NOTE 2        This document does not cover breathing tubes for breathing systems. These are specified in ISO 5367.
This document is written following the format of ISO 18190, General standard for airways and related equipment. The requirements in this device-specific standard take precedence over any conflicting requirements in the General standard

This document specifies definitions, principles of construction (but not dimensions) and design, requirements on performance and operation as well as methods for testing the performance of adjustable chemical dosing systems for conditioning water intended for human consumption inside buildings (see [1]) which are permanently connected to the mains supply.

IEC 62196-2:2025 applies to EV plugs, EV socket-outlets, vehicle connectors and vehicle inlets with pins and contact-tubes of standardized configurations, herein referred to as "accessories". These accessories have a nominal rated operating voltage not exceeding 480 V AC, 50 Hz to 60 Hz, and a rated current not exceeding 63 A three phase or 70 A single phase, for use in conductive charging of electric vehicles.
This fourth edition cancels and replaces the third edition published in 2022. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the previous edition:
a) addition of new tests for latching devices;
b) corrections to standard sheets.

This document applies to portable residual current devices (PRCDs) for household and similar uses, consisting of a plug, a residual current device (RCD) and one or more socket-outlets or a provision for connection. They do not incorporate overcurrent protection. They are intended for single- and two-phase systems for rated currents not exceeding 16 A for rated voltages not exceeding 250 V AC. They are intended to provide protection against shock hazard in case of direct contact, in addition to the protection provided by the fixed installations for the circuit downstream. PRCDs have a rated residual operating current not exceeding 0,03 A. The plug and socket-outlet parts of a PRCD are covered by the national standard of the country where the PRCD is placed on the market. This document applies to portable devices performing simultaneously the functions of detection of the residual current, of comparison of the value of this current with the residual operating value and of opening of the protected circuit when the residual current exceeds this value. PRCDs providing an additional function of detecting faults on the supply side with a defined behaviour in case of supply failures or miswiring (PRCD-S) are also covered by this document. PRCDs are not intended to be used as parts of fixed installations. Their connecting means can be plugs, socket-outlets, terminals or cords. NOTE 1 The requirements for PRCDs are in compliance with the general requirements of IEC 60755. PRCDs are essentially intended to be operated by ordinary persons and designed not to require maintenance. NOTE 2 An integral fuse is used, if necessary, for the relevant plug and socket-outlet system. The switching contacts of the PRCDs are not intended to provide isolation, as isolation can be ensured by disconnecting the plug. The requirements of this document apply for environmental conditions as defined in 7.1. Additional requirements can be necessary for PRCDs used in locations having more severe environmental conditions. PRCDs including batteries are not covered by this document. This document does not contain additional requirements for PRCDs without earthing contacts for which specific requirements can apply. This document can, however, be used as a guide for such devices which are intended to be used with Class II appliances only.

This document gives guidance on the labelling and information folder of potentially permanent magnet containing products in the context of information exchange between supply chain actors to improve recyclability of permanent magnets.
This document can be used by any natural or legal person that will place into the EU market products containing permanent magnets. The document is horizontal by nature and can potentially be applied to any type of permanent magnet containing product. Explicitly in scope are the product- and component groups mentioned in the introduction, as soon the total mass of permanent magnets is above the reporting level threshold specified 4.1 of this document.
The document specifies:
1.   the graphical format, application, and location of the labels, so they are easily located, legible, and scannable in the end-of-life state of the products in a way that is suitable for products of different sizes and complexity;
2.   the specifications of the data carrier, both in its physical format as placed on the product, and the accessibility, security, and verifiability of information;
3.   the access rights of relevant stakeholders to information;
4.   the information to be supplied regarding the location and composition of the permanent magnets;
5.   the information to be supplied regarding adjacent materials like coatings and fixation features, including adhesives;
6.   how to create step-by-step instructions for accessing and safely removing the permanent magnets, specifying the tools and technologies required, providing the recyclers a practically useful, unequivocal guide on how the disassembly of the magnets can be done most efficiently, and
7.   the format of the data to be supplied as per the previous points 4. – 6.
Labelling is employed for products which encompass at least one component mentioned above or a singular magnet, including segmented magnets, which holds a total mass of magnetic material as described in Table 1. Other magnet-holding components within a product that fall below that threshold are exempt from declaration and labelling. The purpose of these thresholds is to establish a sensible balance between the efforts required by both the responsible entities for labelling, as well as the efforts by the dismantlers and recyclers, and the output of recycled material. By excluding potential scrap sources where the yield would not warrant the effort, the work can be simplified for both sides.

This document defines Product Category Rules (PCR) providing guidelines and rules for developing a type III environmental declaration (as in EN 15804:2012+A2:2019) for ceramic tiles produced by extrusion and dry-pressing techniques, mainly used for internal and/or external floorings and walls coverings, facade cladding.
The c-PCR:
-   define the indicators to be declared, information to be provided and the way in which they are collated and reported;
-   describe which stages of ceramic tiles’ life cycle are considered in the EPD and which processes are to be included in the life cycle stages;
-   define rules for the development of scenarios;
-   include the rules for calculating the Life Cycle Inventory and the Life Cycle Impact Assessment underlying the EPD, including the specification of the data quality to be applied;
-   include the rules for reporting predetermined, environmental and health information, that is not covered by LCA for a ceramic tile, construction process and construction service where necessary;
-   define the conditions under which ceramic tiles can be compared based on the information provided by EPD;
-   include Annex A to Annex E in alignment to EN 15804:2012+A2:2019.
This PCR is intended to be used for cradle to grave and module D assessment.

This document provides guidance for users in the correct selection and usage of routinely available techniques for the determination of the aggregation and agglomeration state of nano-objects in powders, aerosols and suspensions. It provides guidance on measurands and measurement methods to use along with guidance on sample preparation.