SIST - Slovenian Institute for Standardization

This document specifies the characteristics of screws, pan head, offset cruciform recess, threaded to head, in corrosion resisting steel, passivated, metric.
Classification: 490 MPa /425 °C

The Technical Specification will be adapted in the following way:
•   OJP will be realigned with the latest Transmodel version and NeTEx issues, where appropriate (e.g.
        New Modes)
•   The integration of new modes especially the conceptual equivalency to major multi-modal standards
        shall be studied and if necessary, adaptions to OJP occur. The idea is to study OSDM, TOMP, TRIAS
        and GBFS/GOFS. The interactions should be smooth. Interaction between OJP and distribution
        features will be settled.
•   OJP is extended as far into the distribution area as it is considered a good idea. For the actual
        booking and purchase steps, OSDM, TOMP, TRIAS and/or GOFS are to be used. The line we think to
        draw is: booking. OJP should not transfer personalized information. This results in the following
        proposed adaptions to fit OJP into a full MaaS roaming environment:
o   An availability request (with response)
o   Token/id handling for trips and trip legs (for hand-over) and pushed information during trips. We will
        need to model bookable items on some level.
o   OJPFare needs to be extended/adapted.
o   TripInfoRequest and -Response need to be updated to reflect, information about trips and trip legs
        and not only vehicle and journey.
•   All work prepared under the heading OJP 1.1 will be finalised.
•   EPIAP (Accessibility) minimal profile will be used to verify that the trip planning can make use of it.
•   The provision of an OpenAPI and REST/JSON derived directly from the XSD shall be studied
        (eventually using a converter).

The aim of a MIF and the associated justifications is to ensure that manufacturing and/or inspection operations are realized in a compliant and reproducible manner.
The purpose of this document is to provide a guide to the elaboration of the MIF and the associated justifications by:
—   positioning them within the framework:
o   of a programme and its objectives, on the one hand;
o   of the realization of a product, on the other;
—   describing, until production of the product ceases:
o   the principles and conditions applying to the elaboration and then the validation of the MIF within the framework of the industrialization process;
o   the principles and conditions applying to the elaboration and then the validation of the MIJF associated with the MIF, within the framework of the industrialization process;
o   the principles and change and control conditions applying to the MIF and the MIJF.
This document can be used for all processes or sets of processes implemented on a tangible product, which may incorporate software associated with the product. It does not apply to purely software product, commercial-off-the-shelf product (catalogue part) or service (intangible product).
This document applies more particularly to serial production. Nevertheless, the principles and conditions set forth in this document may be applied, making any necessary adaptations, to unit production or to the realization of products to meet development needs (prototypes, demonstrators, etc.).
This document covers the MIF and the MIJF of a product, including the activities related to procurement and the associated industrial means in particular.

This document specifies requirements for underground pipework systems used to transfer liquid fuels and their vapours at petrol filling stations. Minimum performance requirements covering fitness for purpose, safety and environmental protection are given.
This document is applicable to pipework made from thermoplastics, which can include some degree of reinforcement, and to flexible metal pipework. It does not apply to fibre reinforced thermosets, commonly referred to as glass fibre reinforced plastic (GRP), nor to rigid metals.
This document is applicable to:
-   delivery pipes from tanks to dispensers, including positive pressure, vacuum suction and siphon modes;
-   fill pipes from road tankers to tanks;
-   vapour recovery and vent pipework;
-   pipework for secondary containment;
-   fittings.
It does not apply to pipework for use with liquefied petroleum gas.

1.1   This draft European Standard deals with safety requirements for construction, manufacturing, installation, maintenance and dismantling of electrically powered vertical lifting platforms affixed to a building structure intended for use by persons with impaired mobility:
-   travelling vertically between predefined levels along a guided path whose inclination to the vertical does not exceed 15°;
-   intended for use by persons with or without a wheelchair;
-   supported or sustained by rack and pinion, rope traction drive, noncircular elastomeric-coated steel suspension members (hereafter called flat belt) traction drive, rope positive drive, chains, toothed belts, screw and nut, guided chain, scissors mechanism or hydraulic jack (direct or indirect);
-   with enclosed liftways;
-   with a speed not greater than 0,15 m/s;
-   with platforms where the carrier is not completely enclosed.
1.2   This draft European Standard deals with all significant hazards relevant to lifting platforms, when they are used as intended and under the conditions foreseen by the manufacturer (see Clause 4).
1.3   This draft European Standard does not specify the additional requirements for:
-   operation in severe conditions (e.g. extreme climates, strong magnetic fields);
-   lightning protection;
-   operation subject to special rules (e.g. potentially explosive atmospheres);
-   handling of materials, the nature of which could lead to dangerous situations;
-   vertical lifting platforms whose primary function is the transportation of goods;
-   vertical lifting platforms whose carriers are completely enclosed;
-   vertical lifting platforms prone to vandalism;
-   hazards occurring during manufacture;
-   earthquakes, flooding;
-   firefighting, evacuation and behaviour during a fire;
-   noise and vibrations;
-   the design of concrete, hard core, timber or other foundation or building arrangement;
-   the design of anchorage bolts to the supporting structure;
-   type C wheelchairs as defined in EN 12183 and/or EN 12184.
NOTE   For the actual type of machinery, noise is not considered a significant nor relevant hazard.
1.4   This draft European Standard is not applicable to Vertical Lifting Platforms intended for use by persons with impaired mobility which are manufactured before the date of its publication as an EN.

1.1   This document specifies the safety requirements for the construction and installation of power operated lifts attached to cranes and intended for access to workplaces on cranes. The lift serves defined landing levels and has a car which is:
a)   designed for the transportation of persons and goods;
b)   guided;
c)   travelling vertically or along a path within 15 degrees maximum from the vertical;
d)   supported by rack and pinion or suspended by steel wire ropes;
e)   travelling with a speed not more than 1,0 m/s for permanent installed lifts and not more than 0,4 m/s for temporarily installed lifts.
1.2   This document identifies hazards as listed in Annex A that arise during the various phases in the life of such equipment and describes methods for the elimination or reduction of these hazards when used as intended by the manufacturer.
This document deals with significant hazards, hazardous situations and events relevant to lifts for cranes, when it is used as intended and under conditions of misuse which are reasonably foreseeable by the manufacturer. This document specifies the appropriate technical measures to eliminate or reduce risks arising from the significant hazards (see Annex A).
1.3   This document does not specify requirements for:
a)   noise;
b)   lighting;
c)   potentially explosive atmospheres;
NOTE   Directive 2014/34/EU concerning equipment and protective systems intended for use in potentially explosive atmospheres can be applicable to the type of machine or equipment covered by this document. The present standard is not intended to provide means of complying with the essential health and safety requirements of Directive 2014/34/EU.
d)   electromagnetic compatibility (emission, immunity);
e)   handling of loads the nature of which could lead to dangerous situations (e.g. molten metal, acids/bases, radiating materials, fragile loads);
f)   the use of combustion engines;
g)   hydraulic drive units.
1.4   This document is not applicable to:
a)   builders hoists according to EN 12158 1:2021, EN 12158 2:2000+A1:2010 and EN 12159:2012 and transport platforms according to EN 16719:2018;
b)   elevating control stations according to EN 14502 2:2005+A1:2008;
c)   lifts according to EN 81 20:2020.
1.5   This document deals with the complete lift design but excludes the design of the crane. It includes the base frame and base enclosure of the lift but excludes the design of any concrete, hard core, timber or other foundation arrangement. It includes the design of mast ties and the design of anchorage parts between the mast tie and the crane structure. This document also includes the design of the landing gates and their fixings.
1.6   This document does not apply to lifts for cranes manufactured before the date of publication of this document by CEN.

This document describes:
-   the rationale for building customisation supporting business cases that are specific to their business environment while maintaining organisational and semantic interoperability with the TC 440 specifications;
-   the difference between Usage specification and Extension specification;
-   a methodology on how to define customisations on:
-   BII Transaction specification,
-   Business rules,
-   Code lists;
-   how to claim compliance or conformance to a customisation of a TC 440 specification;
-   the connection to the eProcurement Ontology project.
This specification does not describe the detailed process of building an extension.

IEC 63118-1:2024 specifies the general tests and requirements for the performance of lithium secondary batteries with a nominal voltage of 12 V permanently installed in road vehicles not for propulsion. The replacement of secondary batteries permanently installed in road vehicles not for propulsion is covered by this document.
The following are typical applications that utilize the batteries under the scope of this document: power source for the starting of internal combustion engines, lighting, stop and start function, on-board auxiliary equipment and energy absorption for regeneration from braking.
This document includes:
- electrical characteristics tests methods and requirements;
- a life duration tests method.

This document specifies a test method for the resistance to bending of a test piece, made of a valve assembled together with two pipes and placed between supports, when subjected to internal pressure.
This document is applicable to valves with a polyethylene (PE) body for use with pipes having a nominal outside diameter from greater than 63 mm up to and including 400 mm and intended for the transport of fluids.
When specified in the product standard, this document can be applied to valves of material different than PE.

This document specifies minimum requirements for design, calculation, examinations and tests of hydraulic powered loader cranes and their mountings on vehicles or static foundations.
This document applies to loader cranes designed to be installed on:
-   road vehicles, including trailers, with load carrying capability;
-   tractors (road or agricultural), where only a towed trailer has capability to carry goods;
-   demountable bodies to be carried by any of the above;
-   other types of carriers (e.g. separate loaders, crawlers, rail vehicles, non-seagoing vessels);
-   static foundations.
This document also applies to loader cranes equipped with special tools or interchangeable equipment (e.g. grapple, clamshell bucket, pallet clamp, etc.), as specified in the operator’s manual.
This document does not apply to loader cranes used on board sea going vessels or to articulated boom system cranes which are designed as total integral parts of special equipment such as forwarders.
The hazards covered by this document are identified in Clause 4.
This document does not cover hazards related to the lifting of persons.
NOTE   The use of cranes for lifting of persons can be subject to specific national regulations.
This document is not applicable to loader cranes manufactured before the publication of this document. For loader cranes designed before the publication of this document, the provisions concerning stress calculations in the version of EN 12999 that was valid at the time of their design, are still applicable.

This document specifies requirements for the test and acceptance of simulation tools used for the design of DC electric traction power supply systems for urban rail guided mass transport systems, such as tramways, elevated and underground railways, mountain railways, trolleybus systems, and magnetically levitated systems which use a contact line system. The validation process will be carried out for the 750 V DC voltage, and other voltages can be validated with the cross-acceptance.
This document focuses on the validation of the core simulation functions comprising the equations and functions which calculate:
-   the mechanical movement of trains and
-   the load flow of the electrical traction power supply system.
NOTE 1   This document provides only the requirements for demonstration of the algorithms and calculations of core functions. The use of a validated simulation tool in accordance with this document does not in itself, demonstrate good practice in electric traction power supply system design, neither does it guarantee that the simulation models and data for infrastructure or trains used in the tool are correct for a given application. The choice and application of any models and data, of individual system components, in a design is therefore subject to additional verification processes and not in the scope of this document. Competent development of design models and full understanding of the limits of design tools remain requirements in any system design. This document does not reduce any element of the need for competent designers to lead the design process.
This document also specifies procedures for the modification of simulation tools, in particular the limits of applicability of acceptance when tools are modified. These procedures focus on determining whether the core functions of the simulation model are modified.
Because the purpose of this standard deals with the verification of the core functionality, the test case described in this document does not represent an existing network.
NOTE 2   Additionally, the application of this document ensures that the output data of different simulation tools are consistent and verifiable when they are using the same set of input data as given in this document.
This document excludes complex models with active components such as controlled rectifiers and inverters.
This document does not mandate the use of a particular simulation tool in order to validate the design of an electric traction power supply system.
This document does not deal with validation of simulation tools by measurement.
The document is not applicable to the validation of simulation tools with respect to:
-   short circuit studies;
-   electrical safety studies (e.g. rail potential);
-   harmonic studies;
-   studies of transient phenomena; and
-   electromagnetic compatibility studies over a wide frequency spectrum.

This document specifies requirements for the inherently safe design, risk reduction measures and information for use of robots for an industrial environment.
This document addresses the robot as an incomplete machine.
This document is not applicable to the following uses and products:
—     underwater;
—     law enforcement;
—     military (defence);
—     airborne and space robots, including outer space;
—     medical robots;
—     healthcare robots;
—     prosthetics and other aids for the physically impaired;
—     service robots, which provide a service to a person and as such where the public can have access;
—     consumer products, as this is household use to which the public can have access;
—     lifting or transporting people.
NOTE 1        Requirements for robot integration and robot applications are covered in ISO 10218-2:2025.
NOTE 2        Additional hazards can be created by robot applications (e.g. welding, laser cutting, machining). These hazards are addressed during robot application design. See ISO 10218-2:2025.
This document deals with the significant hazards, hazardous situations or hazardous events when used as intended and under specified conditions of misuse which are reasonably foreseeable by the manufacturer.
This document does not cover the hazards related to:
—     severe conditions (e.g. extreme climates, freezer use, strong magnetic fields) outside of manufacturer’s specifications;
—     underground use;
—     use that has hygienic requirements;
—     use in nuclear environments;
—     use in potentially explosive environments;
—     mobility when robots or manipulators are fixed to or part of driverless industrial trucks;
—     mobility when robots or manipulators are fixed to or part of mobile platforms;
—     use in environments with ionizing and non-ionizing radiation levels;
—     hazardous ionizing and non-ionizing radiation;
—     handling loads the nature of which can lead to dangerous situations (e.g. molten metals, acids/bases, radiating materials);
—     handling or lifting or transporting people;
—     when the public, all ages or non-working adults have access (e.g. service robots, consumer products).
Noise emission is generally not considered a significant hazard of the robot alone, and consequently noise is excluded from the scope of this document.
This document is not applicable to robots that are manufactured before the date of its publication.

The standard contains guidelines for developing and establishing policies and procedures for deletion
of PII in organizations by specifying:
—   a harmonized terminology for PII deletion;
—   an approach for defining deletion rules in an efficient way;
—   a description of required documentation; and
—   a broad definition of roles, responsibilities and processes.
This document is intended to be used by organizations where PII are stored or processed.
This document does not address:
—   specific legal provision, as given by national law or specified in contracts;
—   specific deletion rules for particular clusters of PII as are to be defined by PII controllers for
—   processing PII;
—   deletion mechanisms;
—   reliability, security and suitability of deletion mechanisms;
—   specific techniques for de-identification of data.

This document specifies the characteristics of screws, pan head, six lobe recess, coarse tolerance shank, medium length thread, in alloy steel, cadmium plated.
Classification: 1 100 MPa   / 235 °C  .

This document specifies requirements for the installation of cabling on railway vehicles and within electrical enclosures on railway vehicles, including magnetic levitation trains and trolley buses.
NOTE   With respect to trolley buses, this document applies to the whole electric traction system, including current collecting circuits, power converters and the respective control circuits. The installation of other circuits is covered by street vehicle standards for example those for combustion driven buses.
This document covers cabling for making electrical connections between items of electrical equipment, including cables, busbars, terminals and plug/socket devices. It does not cover special effect conductors like fibre optic cables or hollow conductors (waveguides).
The material selection criteria given here are applicable to cables with copper conductors.
This document is not applicable to the following:
-   special purpose vehicles, such as track-laying machines, ballast cleaners and personnel carriers;
-   vehicles used for entertainment on fairgrounds;
-   vehicles used in mining;
-   electric cars;
-   funicular railways.
As the field of cabling in rolling stock is also dealt with in the cable makers’ standard, references are made to EN 50264 series, EN 50306 series, EN 50382 series and EN 50355.
This document applies in conjunction with the relevant product and installation standards and describes minimum requirements.

This document specifies the syntax and semantics of data objects in the field of electronic fee collection (EFC). The definitions of data types and assignment of semantics are provided in accordance with the abstract syntax notation one (ASN.1) technique, as specified in ISO/IEC 8824-1. This document defines:
—     ASN.1 (data) types within the field of EFC;
—     ASN.1 (data) types of a more general use that are used more specifically in standards related to EFC.
This document does not seek to define ASN.1 (data) types that are primarily related to other fields that operate in conjunction with EFC, such as cooperative intelligent transport systems (C-ITS), the financial sector, etc.

This document establishes the acceptance criteria according to EN 50388-1:2022, 10.2 for compatibility between traction units and power supply for known phenomena and known technologies. That is in relation to:
-   co-ordination between controlled elements and also between these elements and resonances in the electrical infrastructure in order to achieve network system stability;
-   co-ordination of harmonic behaviour with respect to excitation of electrical resonances.
The following electric traction systems are within the scope:
-   railways;
-   guided mass transport systems that are integrated with railways;
-   material transport systems that are integrated with railways.
Public three-phase networks are out of the scope, but networks which are dedicated to railways are included.
This document is applied in accordance with the requirements in EN 50388-1:2022, Clause 10. It does not apply retrospectively to rolling stock or railway power supply elements already in service.
It is the aim of this Part 2 to support acceptance of new elements (rolling stock or infrastructure) by specifying precise requirements and methods for demonstration of compliance. This document acts as “code of practice” quoted in EN 50388-1:2022, 10.2. However, it is still admissible to use the process as defined in EN 50388-1:2022, 10.3 instead.
This version of the standard only applies to AC systems. Later versions might include similar effects in DC networks in addition, see Annex D.
The main phenomena identified and treated in this document are:
-   electrical resonance stability;
-   low frequency stability;
-   overvoltages caused by harmonics.
The interaction with signalling (including track circuits) is not dealt with in this document.

This document specifies the abstract data model for breeder document data and the specific encodings of this abstract data model used in the CEN breeder document framework.
The abstract data model is a semantic description of the birth, marriage / partnership, and death certificate data, independently from their specific encoding. This abstract data model is extensible for further standardized and proprietary data of birth, marriage / partnership, and death certificates as well as for other types of breeder documents.
This abstract data model is technology agnostic, i.e. it is applicable for paper-based, server-based, and hardware-based breeder documents as well as further breeder document designs and technologies.
The specific encodings of this abstract data model comprise the encodings to be used for the machine readable technologies specified in part 3 of the framework as well as the encoding of human readable breeder document data. These encodings are used in the birth, marriage / partnership, and death certificate profiles specified in part 4 of the framework.

1.1   This document specifies the safety rules for new accessible goods only lifts with traction, positive or hydraulic drive, permanently installed and only used by users (see 3.57), serving fixed and permanent landing levels, having a carrier made of a single load carrying area, designed for the transportation of goods only, moving along a fixed path by rigid guide rails and inclined not more than 15° to the vertical, with rated speed not exceeding 1 m/s.
This document covers accessible goods only lifts with rated load exceeding 300 kg and not intended to transport persons.
1.2   For the purpose of this document, a goods only lift carrier is regarded as accessible where one of the following conditions is satisfied:
a)   floor area of the carrier is greater than 1,0 m2;
b)   depth of the carrier is greater than 1,0 m;
c)   clear height of the carrier is greater than 1,20 m.
In case the carrier is without a roof, it is considered accessible when the clear height of the landing doors is greater than 1,20 m.
1.3   Two types of accessible goods only lifts are addressed:
a)   Type A, where the intended use is bound to the maximum rated speed of 0,30 m/s;
b)   Type B, where the intended use is bound to the maximum rated speed of 1,0 m/s.
1.4   In addition to the requirements of this document, supplementary requirements are to be considered in special cases (operation subject to ATEX rules, operational in ambiental condition not addressed by this standard, seismic conditions, transporting dangerous goods, etc.).
1.5   This document does not cover:
a)   accessible goods only lifts:
1)   with more than one lift machine;
i)   where loading and unloading is automated, or the carrier floor is fitted with mobile devices (e.g. rollers) for loading and unloading purposes;
ii)   intended to carry bulk loads (such as loose sand, gravel, etc.);
iii)   with drive systems other than those stated in 4.8;
b)   lifting tables according to EN 1570-1 and EN 1570-2;
c)   lifting appliances, such as appliances with more than one carrier, skips, goods only lifts for construction sites, for underground applications, mine winding gear, goods only lifts on seagoing vessels and mobile offshore units, construction and maintenance appliances in wind turbines, goods only lifts specially designed and constructed for research purposes for temporary use in laboratories, goods only lifts specially designed and constructed for military or police purposes;
d)   safety during operation of transport, erection, repairs and dismantling of accessible goods only lifts;
e)   the use of translucent material for the walls of the well and machinery spaces, for the carrier with the exception of the landing doors vision panels;
f)   the use of programmable electronic systems in safety related applications for lifts (PESSRAL);
g)   hydraulic lifts where the setting of the pressure relief valve exceeds 50 MPa;
h)   any form of radiation except EMC;
i)   fire propagation;
j)   energy dissipation type buffers;
k)   the possibility of two simultaneous acts of imprudence and/or the abuse of instructions for use.
l)   ambient temperature in the well and machinery spaces lower than +5 °C and higher than +40 °C;
m)   health and safety of animals.
However, this document can usefully be taken as a basis.
Noise and vibrations are not dealt with in this document as they are not considered a significant nor relevant hazard for the actual type of the accessible goods only lifts.
1.6   The requirements of this document are such that the possibility of a failure of an electric safety device or a safety component complying with all the requirements of this document needs not to be taken into consideration.
1.7   This document is not applicable to accessible goods only lifts which were manufactured before the date of its publication as EN.

This document specifies requirements and test methods for factory made thermally insulated bonded fitting assemblies for hot water networks in accordance with EN 13941-1, comprising a steel service pipe, in most cases a steel fitting, polyurethane (PUR) foam thermal insulation and a casing of polyethylene.
The fitting assembly can also include the following additional elements: measuring wires, spacers and diffusion barriers.
This document specifies the characteristics of the following fitting assemblies:
-   bends, T-pieces, and reducers.
This document applies to fitting assemblies with a design pressure of at least 1,6 MPa.

This part of IEC 61558 deals with the safety of variable transformers for general applications and power supply units incorporating variable transformers for general applications.
Variable transformers incorporating electronic circuits are also covered by this document.
NOTE 1 Safety includes electrical, thermal, mechanical and chemical aspects.
Unless otherwise specified, from here onward, the term transformer covers variable transformers for general applications and power supply units incorporating variable transformers for general applications.
For power supply units (linear) this document is applicable. For switch mode power supply units, IEC 61558-2-16 is applicable together with this document. Where two requirements are in conflict, the most severe take precedence.
This document does not apply to transformers covered by IEC 60076-11.
This document is applicable to stationary or portable, single-phase or polyphase, air-cooled (natural or forced) independent or associated variable dry-type transformers.
- variable auto-transformers;
- variable separating transformers;
- variable isolating transformers;
- variable safety isolating transformers.
The windings can be encapsulated or non-encapsulated.
The rated supply voltage does not exceed 1 000 V AC and the rated supply frequency and the internal operational frequencies do not exceed 500 Hz.
The rated output does not exceed:
- 40 kVA for single-phase variable auto-transformers;
- 200 kVA for poly-phase variable auto-transformers;
- 1 kVA for single-phase variable separating transformers;
- 5 kVA for poly-phase variable separating transformers;
- 25 kVA for single-phase variable isolating transformers;
- 40 kVA for poly-phase variable isolating transformers;
- 10 kVA for single-phase variable safety isolating transformers;
- 16 kVA for poly-phase variable safety isolating transformers.
This document is applicable to variable transformers without limitation of the rated output subject to an agreement between the purchaser and the manufacturer.
NOTE 2 Transformers intended to supply distribution networks are not included in the scope.
[...]

This part of IEC 61558 deals with the safety of switch mode power supply units and transformers for switch mode power supply units.
NOTE 1 Safety includes electrical, thermal and mechanical aspects.
Unless otherwise specified, from here onward, the term SMPS covers switch mode power supply units for general applications.
SMPS covered by this document are air cooled (natural or forced) independent, associated, stationary, portable, single-phase or polyphase with the rated supply voltage not exceeding 1 000 V AC, the rated supply frequency not exceeding 500 Hz, the rated internal operating frequency exceeding 500 Hz, but not exceeding 100 MHz, and the rated output not exceeding 1 kVA or 1 kW, incorporating dry-type transformers with encapsulated or non-encapsulated windings.
NOTE 2 As the maximum rated supply voltage of the internal transformer is 1 000 V AC, the maximum rated supply voltage of the switch mode power supply unit can be lower due to the type of rectification.
NOTE 3 For higher frequencies, additional requirements can be necessary. However, this document can be used for guidance.
This document is applicable to SMPS, converters and inverters without limitation of the rated output subject to an agreement between the purchaser and the manufacturer.
NOTE 4 In the context of this document, converters and inverters are considered to be SMPS.
This document applies to:
a) SMPS incorporating safety isolating transformers providing SELV, PELV, AC or DC output voltage(s) or a combination thereof in accordance with IEC 61140 and IEC 60364-4-41 for use with household and other consumer products,
b) SMPS with a maximum output voltage not exceeding 1 000 V AC or 1 415 V ripple-free DC for use with household and other consumer products, except for products covered in a),
c) This document can be used for transformers for use in SMPS (see Annex BB).
This document does not apply to:
- motor-generator sets;
- uninterruptible power supplies (UPS) in accordance with the IEC 62040 series;
- SMPS covered by IEC 61204-7 (i.e. low-voltage power supply devices DC output, performance characteristics) and DC power and distribution equipment and SMPS for use in applications covered by IEC 61010-1 and IEC 60601-1;
- lamp control gear covered by the IEC 61347 series;
- external circuits and their components intended to be connected to the input terminals and output terminals of the SMPS;
- equipment in accordance with IEC 60065, IEC 60950-1 and IEC 62368-1.
This document can also be used for guidance for products not covered by the scope of this document, the scope of IEC 61204-7 or the scope of the IEC 61347 series.
This document covers the safety requirements for:
[...]

This document specifies a method for checking the variation of attenuation of an optical cable during temperature cycling.

This document specifies transport and security services for communication systems for meters, sensors, and actuators, used to provide metering services.
This document specifies secure communication capabilities by design and supports the building of a secure system architecture.
This document is applicable to the protection of consumer data to ensure privacy.
This document is intended to be used with the lower layer specifications determined in the relevant parts of the EN 13757 series.

This document specifies a method using headspace gas chromatography and mass selective spectroscopy (HS-GC-MS) for detection and quantification of benzene in components of textile products.

This document specifies test methods available for the measurement of thermoregulatory properties of textile materials for use in garments and gives guidance on the most suitable methods for selection where choices are available to the user.
This document also establishes classification of the thermoregulatory properties in three performance levels.
This document does not apply to garments or clothing intended to be worn by babies, infants and children whose thermoregulation within the body has not yet been fully developed.
This document does not apply to the thermoregulatory properties of personal protective equipment (PPE) and clothing items or textile products for which a standard already specifies a particular requirement.
This document does not apply also to heated textiles, phase change materials (PCM) and similar smart materials for thermoregulation, for which CEN ISO/TR 23383 can give better guidance.

This document specifies requirements and test methods for factory made thermally insulated bonded steel shut-off valve assemblies for hot water networks in accordance with EN 13941-1, comprising a steel valve, valve extension pipes, polyurethane (PUR) foam thermal insulation and a casing of polyethylene.
This document applies to steel valve assemblies with an internal pressure of maximum 2,5 MPa.
The principles of this document can be applied to thermal insulated bonded steel valve assemblies with internal pressures higher than 2,5 MPa, provided that special attention is paid to the effects of pressure.
The steel shut-off valve assembly can also include the following additional elements: measuring wires, spacers and diffusion barriers.

This document specifies limit states, requirements and methods to prevent mechanical hazards in steel structures of cranes by design and theoretical proof of competence.
The significant hazardous situations and hazardous events that could result in risks to persons during intended use are identified in an informative Annex L (informative). Clauses 4 to 8 of this document provide requirements and methods to reduce or eliminate these risks:
a)   exceeding the limits of strength (yield, ultimate, fatigue);
b)   exceeding temperature limits of material or components;
c)   elastic instability of the crane or its parts (buckling, bulging).
This document does not apply to cranes which are designed before the date of its publication as EN.
NOTE   This document deals only with the limit state method in accordance with reference [44].

This document provides requirements for metallic mounting kits for part-turn valves and actuator attachments.
It includes all components transmitting torques from actuators to valves with a maximum flange torque up to 16 000 Nm (up to F30 flange type).
It applies to mounting kits for part-turn valves and actuators with integral attachment flanges and drive components as described in ISO 5211, when direct mounting of the actuator on valve is not practical.
Stacking of mounting kits/intermediate supports is not within the scope of this document.
This document specifies methods for design and environmental corrosion protection.
When a reference is made to this document, all the requirements apply, unless otherwise agreed between the purchaser and the manufacturer/supplier, prior to order.
In this document, the term "valve" covers valve or shaft extension top-flange, and the term “actuator” covers part-turn actuator or combination of multi-turn actuator and gearbox.
Control valves are excluded from this document.

This document specifies requirements and test methods for fitting and steel valve assemblies of factory made thermally insulated bonded twin pipe assemblies for hot water networks in accordance with EN 13941-1, comprising two steel service pipes, in most cases steel fittings and/or steel valves, steel components, polyurethane (PUR) foam thermal insulation and one casing of polyethylene.
NOTE   Steel components can be e.g. fixing bars.
The twin pipe assembly can also include the following additional elements: measuring wires, spacers and diffusion barriers.
This document covers the following assemblies:
-   fittings: bends, T-pieces and reducers;
-   valves for main line.
This document applies to fitting assemblies with an internal pressure of at least 1,6 MPa and steel valve assemblies with a maximum internal pressure of 2,5 MPa.

This document is applicable to the following groups of machines:
-   powered hand strapping tools;
-   semi-automatic strapping machines;
-   automatic strapping machines.
This document does not apply to:
-   strapping tools, where the strap tension is only applied by manual effort;
-   machines, intended for use with paper strap;
-   hand-held motor-operated electric strapping tools.
NOTE   For hand-held motor-operated electric strapping tools see EN 60745-2-18:2009 and EN 62841-1:2015.
This document deals with safety requirements for machine design, transport, installation, commissioning, operation, adjustment, maintenance and cleaning. The extent to which hazards, hazardous situations and events are covered is indicated in Annex A.
This document does not consider the following hazards:
-   the use of strapping machines in potentially explosive atmosphere;
-   the health, safety or hygiene hazards associated with the products that may be handled by the machines, but does include general advice on this subject;
-   hazards that are associated with decommissioning strapping machines.
Hazards associated with decommissioning of strapping machines are not considered and therefore excluded but are generally part of the instruction manual (see Clause 6), together with suited measures, if necessary.

This document specifies application services for communication systems for meters, sensors, and actuators, used to provide metering services.
This document specifies application protocols, especially the M-Bus application protocol.
This document is intended to be used with the lower layer specifications determined in the relevant parts of the EN 13757 series.

This document specifies a procedure, at temperatures up to 100 °C, to determine whether a liquid product, that would be classified as “flammable” by virtue of its flash point, sustains combustion at the temperature(s) specified, for example, in regulations.
NOTE            Many national and international regulations classify liquids as presenting a flammable hazard based on their flash point, as determined by a recognized method. Some of these regulations allow a derogation if the substance cannot “sustain combustion” at some specified temperature(s).
The procedure is applicable to paints (including water-borne paints), varnishes, paint binders, solvents, petroleum or related products and adhesives, that have a flash point. It is not applicable to painted surfaces in respect of assessing their potential fire hazards.
This test method is applicable, in addition to test methods for flash point, for assessing the fire hazard of a product.

This document specifies the required characteristics, tests and tooling applicable to female electrical contacts 009, type A, crimp, class S, used in elements of connection according to EN 3155-002.
It is used together with EN 3155-001.
The associated male contacts are specified in EN 3155-008.

This document specifies requirements and test methods for straight lengths of factory made thermally insulated bonded twin pipe assemblies for directly buried hot water networks in accordance with EN 13941-1, comprising two steel service pipes, polyurethane (PUR) foam thermal insulation and a casing of polyethylene.
The twin pipe assembly can also include the following additional elements: Measuring wires, spacers and diffusion barriers.

This document specifies requirements for factory made thermally insulated bonded steel service valve assemblies for filling, draining, venting and operation purposes for directly buried hot and cold water networks in accordance with EN 13941-1, comprising a steel service valve, steel service pipe, polyurethane (PUR) foam thermal insulation and a casing of polyethylene (PE).
This document applies of steel service valve assemblies with an internal pressure of maximum 2,5 MPa.
The principles of this document can be applied to thermal insulated bonded steel service valve assemblies with internal pressures higher than 2,5 MPa, provided that special attention is paid to the effects of pressure.
The steel service valve assembly can also include the following additional elements: measuring wires, spacers, and diffusion barriers.

This document specifies requirements for the integration of industrial robot applications and industrial robot cells. The following are addressed:
—     the design, integration, commissioning, operation, maintenance, decommissioning and disposal;
—     integration of machines and components;
—     information for use for the design, integration, commissioning, operation, maintenance, decommissioning and disposal.
This document is not applicable to the following uses and applications of industrial robots:
—     underwater;
—     law enforcement;
—     military (defence);
—     airborne and space, including outer space;
—     medical;
—     healthcare of a person;
—     prosthetics and other aids for the physically impaired;
—     service robots, which provide a service to a person and as such the public can have access;
—     consumer products, as this is household use to which the public can have access;
—     lifting or transporting people;
—     multi-purpose lifting devices or machinery, e.g. cranes, forklift trucks.
NOTE            Applications for the automation of laboratories are not considered as medical or healthcare of a person.
This document deals with the significant hazards, hazardous situations or hazardous events when used as intended and under specified conditions of misuse which are reasonably foreseeable by the integrator.
This document provides basic requirements for industrial robot applications, but does not cover the hazards related to the following:
—     emission of airborne noise;
—     severe conditions (e.g. extreme climates, freezer use, strong magnetic fields) outside of manufacturer’s specifications;
—     underground use;
—     use that has hygienic requirements;
—     processing of any material (e.g. food, cosmetics, pharmaceutical, metal);
—     use in nuclear environments;
—     use in potentially explosive environments;
—     mobility when robots or manipulators are integrated with driverless industrial trucks;
—     mobility when robots or manipulators are integrated with mobile platforms;
—     use in environments with hazardous ionizing and non-ionizing radiation levels;
—     hazardous ionizing and non-ionizing radiation;
—     handling loads the nature of which could lead to dangerous situations (e.g. molten metals, acids/bases, radiating materials);
—     when the public or non-working adults have access.
Emission of acoustic noise could be identified to be a significant hazard, but emission of noise is not covered in this document.

This document specifies the general requirements of data exchange and interfaces for thermal energy meters.
This document is applicable to unidirectionally and bidirectionally transmitting thermal energy meters.
This document applies also to networks with up to 250 meters, for which a master unit with AC mains supply is necessary to control the M-Bus. In these cases, the document is only applicable in conjunction with EN 13757-2 (physical and link layer) and EN 13757-3 (application layer).
For wireless thermal energy meter communications, this document is only applicable in conjunction with EN 13757-4, which describes several alternatives of walk/drive-by readout via a mobile station or by using stationary receivers or a network.
NOTE   Thermal energy meters are instruments intended for measuring the energy which in a heat-exchange circuit is absorbed (cooling) or given up (heating) by a liquid called the heat-conveying liquid. The meter indicates thermal energy in legal units.

IEC 61558-2-20:2022 is available as IEC 61558-2-20:2022 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.

IEC 61558-2-20:2022 deals with the safety of small reactors for general applications. Small reactors incorporating electronic circuits are also covered by this document. This third edition cancels and replaces the second edition published in 2010. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition:
- adjustment of structure and references in accordance with IEC 61558-1:2017.
- additional Annex AA with references for characteristic parameter measurements.
- additional Annex BB for associated reactors with frequencies above 500 Hz.
- additional Annex CC for partial discharge.
It has the status of a group safety publication in accordance with IEC Guide 104.

This document specifies a procedure for determining the magnitude of pavement surface megatexture by measuring the surface profile and calculating a megatexture descriptor from this profile. The technique is designed to give meaningful and accurate measurements and descriptions of pavement megatexture for various purposes, such as for the prediction of the acoustic quality of the pavement or the assessment of the rolling resistance.
Since there is an overlap between megatexture and the surrounding ranges, megatexture descriptors unavoidably have a certain correlation with corresponding measures in those ranges. This document specifies measurements and procedures which are in relevant parts compatible with those in ISO 13473-1[4], ISO 8608[6] and EN 13036-5[7].

This document specifies the requirements for the performance of compression testing machines for the measurement of the compressive strength of concrete test specimen in accordance with EN 12390 3 or cores in accordance with EN 12504-1.
Other additional or different requirements may apply for different uses.

This document specifies the test methods available for evaluating new flat pallets for materials handling.
The test methods are split into groups for
—     nominal load testing,
—     maximum working load testing, and
—     durability comparison testing.
This document does not apply to pallets with a fixed superstructure or a rigid, self-supporting container that can be mechanically attached to the pallet and which contributes to the strength of the pallet.
NOTE   Specific tests for determining load capacity do not replace the value of conducting field tests on specific pallet designs.

IEC 62321-12:2023 specifies a reference test method for the simultaneous determination of polybrominated biphenyls, polybrominated diphenyl ethers, and four phthalates: di-isobutyl phthalate (DIBP), di-n-butyl phthalate (DBP), benzylbutyl phthalate (BBP), di-(2-ethylhexyl) phthalate (DEHP) in polymers of electrotechnical products.
The extraction technique described in this document is the ultrasonic-assisted extraction used for simultaneous extraction for sample preparation.
Gas chromatography-mass spectrometry (GC-MS) is considered as the reference technique for the measurement of the simultaneous determination of analytes in the range of 25 mg/kg to 2 000 mg/kg.
The test method using ultrasonic-assisted extraction followed by GC-MS detection has been evaluated by the tests of polypropylene (PP), polyvinylchloride (PVC), acrylonitrile butadiene styrene (ABS), acrylate rubber (ACM), polystyrene (PS), polyurethane (PU) and polyethylene (PE) materials.
This document has the status of a horizontal publication in accordance with IEC Guide 108.

This document specifies a method for the determination of total mercury in foodstuffs by cold vapour atomic fluorescence spectrometry (AFS) after pressure digestion.
This method was tested in an interlaboratory study carried out in connection with the pressure digestion method EN 13805 on seven different materials with a mercury concentration in the range from 0,006 mg/kg to 5,38 mg/kg and successfully validated in this range.
The following foodstuffs were analysed:
—   Saithe (dried);
—   Celery (dried);
—   Wheat noodle powder;
—   Wild mushrooms (dried);
—   Pig liver (dried);
—   Cacao powder;
—   Tuna fish (dried).
The lower limit of the method’s applicability varies depending on the food matrix and the water content of the foodstuff. It is a laboratory-specific value and is defined by the laboratory when calculating the limit of quantification (see 9.2).

This document specifies requirements and test methods for functional parameters of closures used in combination with vials and when pierced by an injection needle.
NOTE            Functional testing with spikes is specified in ISO 8536-2, ISO 8536-6, ISO 8362-1 and ISO 8362-4.

This document specifies general test methods for amino resins and solutions of amino resins intended for use as binders in paints, varnishes and related products.

This document describes the laboratory mixing of bituminous materials for the manufacture of specimens. This document specifies the reference compaction temperatures for mixtures and the reference installation temperature for mastic asphalt mixtures based on the grade of the binder for paving grade and hard paving grade bitumen.
Annex A describes the method for laboratory mixing using foamed bitumen.
Annex B describes the method for laboratory mixing using bitumen emulsion.
Annex C describes the preparation of mastic asphalt specimens after laboratory mixing.

This document specifies the performance requirements to establish nominal loads for new flat pallets.
It also specifies the tests required for new flat pallets in various handling environments and the performance requirements for tests with payloads. This document does not apply to pallets with a fixed superstructure or a rigid, self-supporting container that can be mechanically attached to the pallet and which contributes to the strength of the pallet.

This part of IEC 61558 deals with the safety of auto-transformers for general applications and power supply units incorporating auto-transformers for general applications. Transformers incorporating electronic circuits are also covered by this document.
NOTE 1 Safety includes electrical, thermal and mechanical aspects.
Unless otherwise specified, from here onward, the term transformer covers auto-transformers for general applications and power supply units incorporating auto-transformers for general applications.
For power supply units (linear) this document is applicable. For switch mode power supply units IEC 61558-2-16 is applicable.
This document is applicable to stationary or portable, single-phase or polyphase, air-cooled (natural or forced) independent or associated dry- type transformers. The windings may be encapsulated or non-encapsulated.
The rated supply voltage does not exceed 1 000 V AC, and the rated supply frequency and the internal operating frequencies do not exceed 500 Hz.
The core power does not exceed:
- 2 kVA for single-phase transformers;
- 10 kVA for polyphase transformers.
The rated output does not exceed:
- 40 kVA for single-phase transformers;
- 200 kVA for polyphase transformers.
This document is applicable to transformers without limitation of the core power and the rated output both being subject to an agreement between the purchaser and the manufacturer.
Where applicable, the no-load output voltage or the rated output voltage does not exceed 1 000 V AC or 1 415 V ripple-free DC. For independent transformers, the no-load output voltage and the rated output voltage is not less than 50 V AC or 120 V ripple-free DC.
This document is not applicable to external circuits and their components intended to be connected to the input terminals and output terminals of the transformers.
NOTE 2 Transformers covered by this document are used only in applications where no insulation between circuits is required by the installation rules or by the end product standard.
Attention is drawn to the following:
- for transformers intended to be used in vehicles, on board ships, and aircraft, additional requirements (from other applicable standards, national rules, etc.);
- measures to protect the enclosure and the components inside the enclosure against external influences such as fungus, vermin, termites, solar-radiation, and icing;
- the different conditions for transportation, storage, and operation of the transformers;
- additional requirements in accordance with other appropriate standards and national rules may be applicable to transformers intended for use in special environments.
Future technological development of transformers may necessitate a need to increase the
202 upper limit of the frequencies. Until then this document may be used as a guidance document.
This GROUP SAFETY PUBLICATION focusing on SAFETY guidance is primarily intended to be used as a PRODUCT SAFETY STANDARD for the products mentioned in the scope, but is also intended to be used by TCs in the preparation of publications for products similar to those mentioned in the scope of this GROUP SAFETY PUBLICATION, in accordance with the principles laid down in IEC Guide 104 and lSO/lEC Guide 51.
One of the RESPONSIBILITIES of a TC is, wherever applicable, to make use of BSPs and/or GSPs in the preparation of its publications.