SIST - Slovenian Institute for Standardization

IEC 60034-9:2021 specifies test methods for the determination of sound power level of rotating electrical machines and specifies maximum A-weighted sound power levels for factory acceptance testing of network-supplied, rotating electrical machines in accordance with lEC 60034-1, having methods of cooling according to lEC 60034-6 and degrees of protection according to lEC 60034-5, and having the following characteristics:
- standard design, either AC or DC, without additional special electrical, mechanical, or acoustical modifications intended to reduce the sound power level
- rated output from 1 kW (or kVA) up to and including 5 500 kW (or kVA)
- rated speed not greater than 3 750 min–1
This fifth edition cancels and replaces the fourth edition, published in 2003 and its amendment 1, published in 2007. This edition includes the following significant technical changes with respect to the previous edition:
a) In Table 2 and Table 3 cooling methods IC01, IC11, IC21 and IC31, IC71, IC81 are now covered.
b) This edition adds Table 3 for 60 Hz machines, whereas Table 2, which covers only 50 Hz machines, has no change in levels.
c) In Table 3, grade A is added to harmonize the highest levels seen in IEC and NEMA, whereas grade B was added to harmonize the lowest, more restrictive levels seen in IEC and NEMA.
d) The clause “Determination of noise increments caused by converter supply” has been shifted to Annex B and renamed “Information on typical noise increments caused by converter supply”.

ISO 14343:2017 specifies requirements for classification of wire electrodes, strip electrodes, wires and rods for gas-shielded metal arc welding, gas tungsten arc welding, plasma arc welding, submerged arc welding, electroslag welding and laser beam welding of stainless and heat-resisting steels. The classification of the wire electrodes, strip electrodes, wires and rods is based upon their chemical composition.
This document is a combined specification providing for classification utilizing a system based upon nominal composition (system A), or utilizing a system based upon alloy type (system B).
a) Paragraphs which carry the label "classification according to nominal composition" and the suffix letter "A", or "ISO 14343-A", are applicable only to products classified according to system A;
b) Paragraphs which carry the label "classification according to alloy type" and the suffix letter "B", or "ISO 14343-B", are applicable only to products classified according to system B.
c) Paragraphs which carry neither label nor suffix letter are applicable to products that can be classified according to either system A or B or both.

IEC 60034-27-2:2023 deals with on-line PD measurements and provides a common basis with standardized procedures if possible for:
- measuring techniques and instruments;
- the arrangement of the installation;
- normalization and sensitivity assessment;
- measuring procedures;
- noise reduction;
- the documentation of results;
- the interpretation of results;
with respect to partial discharge on-line measurements on the stator winding insulation of non‑converter driven rotating electrical machines with rated voltage of 3 kV and up. This document covers PD measuring systems and methods detecting electrical PD signals. The same measuring devices and procedures can also be used to detect electrical sparking and arcing phenomena.

DES/EE-EEPS64

IEC 60034-11:2020 is available as IEC 60034-11:2020 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.

IEC 60034-11:2020 specifies requirements relating to the use of thermal protectors and thermal detectors incorporated into the stator windings or placed in other suitable positions in induction machines in order to protect them against serious damage due to thermal overloads. It applies to single-speed three-phase 50 Hz or 60 Hz cage induction motors in accordance with IEC 60034-1 and IEC 60034-12 that:
- have a rated voltage up to 1 000 V;
- are intended for direct-on-line or star-delta starting.
The main changes with respect to the previous edition are:
- the additional specification of winding temperature limits for temperature class 200 (N),
- the increased limits of maximum winding temperatures for overloads with rapid variation,
- the clarification that the motor winding may be permanently damaged after it has been exposed to temperatures
- a clarification of the definition of indirect thermal protection,
- a clarification on the test methods for larger motors.

ISO 636:2017 specifies requirements for classification of rods and wires in the as-welded condition and in the post-weld heat-treated condition for tungsten inert gas welding of non-alloy and fine-grain steels with a minimum yield strength of up to 500 MPa or a minimum tensile strength of up to 570 MPa.
ISO 636:2017 is a combined specification providing classification utilizing a system based upon the yield strength and the average impact energy of 47 J of all-weld metal or utilizing a system based upon the tensile strength and the average impact energy of 27 J of all-weld metal.
a) Paragraphs and tables which carry the suffix letter "A" are applicable only to rods and wires classified to the system based upon the yield strength and the average impact energy of 47 J of all-weld metal in accordance with this document.
b) Paragraphs and tables which carry the suffix letter "B" are applicable only to rods and wires classified to the system based upon the tensile strength and the average impact energy of 27 J of all-weld metal in accordance with this document.
c) Paragraphs and tables which have neither the suffix letter "A" nor the suffix letter "B" are applicable to all rods and wires classified in accordance with this document.

REN/TCCE-00266

This document addresses installation qualification (IQ), operational qualification (OQ), and performance qualification (PQ) issues directly related to the additive manufacturing system that has a direct influence on the consolidation of material. The first three elements of process validation, process mapping, risk assessment, and validation planning, are necessary pre-conditions to machine qualification, however, they are outside the scope of this document.
This document provides recommended practices for machine-related process qualification for serial production of metal parts produced with the powder bed fusion, by electron beam process (PBF-EB/M). Since this process is very similar to the PBF-LB/M, this document references ISO/ASTM TS 52930, pointing only the differences on the validation processes.  This document is addressed to organizations that already have a comprehensive quality system in place.
This document covers issues directly related to the AM equipment and does not cover feedstock qualification or post processing beyond powder removal.
Physical facility, personnel, process and material issues are only included to the extent necessary to support machine qualification.

REG/ERM-RM-282

This document specifies requirements and describes aspects for the lifecycle management of metal feedstock materials for powder based additive manufacturing processes. Those aspects include:
• Powder properties,
• Powder lifecycle,
• Test methods and
• Powder quality assurance.
Note : This document can be used by manufacturers of metal powders, purchasers of powder feedstock for additive manufacturing, those responsible for the quality assurance of additively manufactured parts and suppliers of measurement and testing equipment for characterizing metal powders for use in powder-based additive manufacturing processes

This document specifies requirements for the additive manufacturing of metallic parts with directed energy deposition in the aerospace industry. These can be additively generated parts or additively generated additions to existing parts. Within the application scope of this document, wire is used as feedstock, and arc processes (gas-shielded metal arc processes, Tungsten inert gas processes, plasma arc processes) are the main energy source.
This document is to be used in conjunction with the engineering documents, if required by the engineering authority.

This document specifies methods for the determination of the dimensions of office chairs.
This document does not contain dimensional specifications or requirements.

This document specifies test methods to determine particle emissions (including ultrafine particles) and specified VOCs (including aldehydes) from Material Extrusion(ME) processes often used in non-industrial environments such as school, homes and office spaces in an Emission Test Chamber (ETC) under specified test conditions. However, these tests may not accurately predict real-world results.
This document describes a conditioning method using an ETC with controlled temperature, humidity, air exchange rate, air velocity, and procedures for monitoring, storage, analysis, calculation, and reporting of emission rates.
This document is intended to cover a Fused Filament Fabrication (FFF) type desktop 3D printer using thermoplastic materials. The primary purpose of this document is to quantify particle and chemical emission rates emitted from a specific ME type desktop 3D printer which is operated using thermoplastic feedstocks.
However, not all possible emissions are covered by this method.  Many feedstocks could release hazardous emissions that are not measured by the chemical detectors prescribed in this document.  It is the responsibility of the user to understand the material being printed and the potential chemical emissions.  An example is PVC feedstocks that could potentially emit chlorinated compounds, which would not be measured by this document.

1.1 This practice describes the operation and production control of metal powder bed fusion (PBF) machines and processes to meet critical applications such as commercial aerospace components and medical implants. The requirements contained herein are applicable for production components and mechanical test specimens using powder bed fusion (PBF) with both laser and electron beams.
1.2 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appro-priate safety, health, and environmental practices and deter-mine the applicability of regulatory limitations prior to use.
1.3 This international standard was developed in accor-dance with internationally recognized principles on standard-ization established in the Decision on Principles for the Development of International Standards, Guides and Recom-mendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

IEC 60794-2-20:2024 is part of a family specification covering multi-fibre optical cables for indoor use. The requirements of the sectional specification IEC 60794-2 are applicable to cables covered by this document. Annex B contains a blank detail specification and general guidance in case the cables are intended to be used in installations governed by the MICE table of ISO/IEC 11801-1. This fourth edition cancels and replaces the third edition published in 2013. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition:
a) update of the normative references;
b) review update of parameters and requirements for mechanical tests and environmental tests, maintaining alignment with additional relevant standards in the IEC 60794-2 series;
c) addition of cabled fibre attenuation requirements;
d) addition of cable design examples.
This document is to be used in conjunction with IEC 60794-1-1:2023, IEC 60794-1-2:2021, IEC 60794‑1‑21:2015 and IEC 60794‑1‑21:2015/AMD:2020, IEC 60794-1-22:2017, IEC 60794‑1-23:2019 and IEC 60794‑2:2017.

This document specifies performance requirements and test methods for head and face protectors for use by ice hockey goalkeepers only.

This document specifies general requirements and test methods for head, face, eye, neck, and body protectors (hereafter referred to as protectors) for use in ice hockey.
This document is intended only for protectors used for ice hockey.

IEC 60601-2-39:2024 applies to the BASIC SAFETY and ESSENTIAL PERFORMANCE of PERITONEAL DIALYSIS ME EQUIPMENT, hereafter referred to as PD EQUIPMENT. It applies to PD EQUIPMENT intended for use either by medical staff or under the supervision of medical experts, including PD EQUIPMENT operated by the PATIENT, regardless of whether the PD EQUIPMENT is used in a hospital or domestic environment.
If a clause or subclause is specifically intended to be applicable to ME EQUIPMENT only, or to ME SYSTEMS only, the title and content of that clause or subclause will say so. If that is not the case, the clause or subclause applies both to ME EQUIPMENT and to ME SYSTEMS, as relevant.
This document does not take into consideration specific safety details of the DIALYSING SOLUTION control system of PD EQUIPMENT using regeneration of DIALYSING SOLUTION or CENTRAL DELIVERY SYSTEMS for DIALYSING SOLUTION. It does, however, take into consideration the specific safety requirements of such PD EQUIPMENT concerning electrical safety and PATIENT safety.
This document specifies the minimum safety requirements for PD EQUIPMENT. These PD EQUIPMENT are intended for use either by medical staff or for use by the PATIENT or other trained personnel under medical supervision.
This document includes all ME EQUIPMENT that is intended to deliver a PERITONEAL DIALYSIS treatment to a PATIENT, independent of the treatment duration and location.
These particular requirements do not apply to:
– PRE-MANUFACTURED DIALYSING SOLUTION bags,
– DIALYSING SOLUTION CIRCUITS,
– DIALYSING SOLUTION CONCENTRATE,
– DIALYSIS WATER supply systems (see ISO 23500-2) ,
– CENTRAL DELIVERY SYSTEMS for DIALYSING SOLUTION CONCENTRATES, described as systems for bulk mixing concentrate at a dialysis facility,
– equipment used to perform HAEMODIALYSIS (see IEC 60601-2-16).
IEC 60601-2-39:2024 cancels and replaces the third edition published in 2018. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the previous edition:
a) update of references to IEC 60601-1:2005, IEC 60601-1:2005/AMD1:2012 and IEC 60601 1:2005/AMD2:2020, of references to IEC 60601 1 2:2014 and IEC 60601 1 2:2014/AMD1:2020, of references to IEC 60601-1-8:2006, IEC 60601 1 8:2006/AMD1:2012 and IEC 60601 1 8:2006/AMD2:2020, of references to IEC 60601 1 9:2007, IEC 60601 1 9:2007/AMD1:2013 and IEC 60601 1 9:2007/AMD2:2020, of references to IEC 60601 1 10:2007, IEC 60601 1 10:2007/AMD1:2013 and IEC 60601 1 10:2007/AMD2:2020 and of references to IEC 60601 1 11:2015 and IEC 60601 1 11:2015/AMD1:2020;
b) consideration of ESSENTIAL PERFORMANCE in SINGLE FAULT CONDITION regarding IEC 60601 1:2005/AMD1:2012/ISH1:2021;
c) including the information given in the document 62D/1771A/INF regarding 201.11.8;
d) including the information given in the document 62D/1734/INF regarding technical issues of the previous edition;
e) including SECURITY (CYBERSECURITY) requirements;
f) additions related to online PD SOLUTION generation (ONLINE PD);
g) improvements regarding the definition of the APPLIED PART;
h) improvement of the essential performance requirements clause/subclauses;
i) improvements for labelling;
j) other minor technical improvements;
k) editorial improvements.

This document describes a procedure for fatigue strength assessment based on cumulative damage of rail vehicle structures that are manufactured, operated and maintained in accordance with standards valid for rail system applications.
This document is applicable for variable amplitude load data with total number of cycles higher than 10 000 cycles.
An endurance limit approach is outside the scope of this document.
The assessment procedure is restricted to ferrous materials and aluminium.
This document does not define design load cases.
This document is not applicable for corrosive conditions or elevated temperature operation in the creep range.
This document is applicable to all kinds of rail vehicles; however it does not define in which cases a fatigue strength assessment using cumulative damage is to be applied.

This document specifies performance requirements and test methods for eye and face protectors for use in ice hockey only.
This document is applicable to eye and face protectors worn by ice hockey players other than goalkeepers and by referees.

This document specifies performance requirements and test methods for head protectors for use in ice hockey.
This document is applicable to head protectors worn by ice hockey players excluding goalkeepers and by referees.

IEC 62386-105:2024 applies to control gear and control devices for control by digital signals of electronic lighting equipment. Typically, a bus unit according to the IEC 62386 series contains firmware. There are circumstances where it can be necessary to change the firmware after production or shipping of the product, for example if the bus unit does not operate as intended. In such a case, a firmware update of a bus unit via the interface is beneficial. This firmware update process is primarily designed to be a bug fix process, not a feature extension process. Nevertheless, the firmware update process can be used for feature extensions. But it is important that the risk of negative effects to the complete system be considered in detail. This second edition cancels and replaces the first edition published in 2020. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the previous edition:
a) several commands have been modified, renamed and added;
b) variables have been modified and added;
c) recommendations for implementation within emergency control gear have been added;
d) requirements for block acceptance have been changed;
e) example process-flow diagrams have been added;
f) requirements for restarting and power-on have been changed.

The scope of this document is primarily focused on EN ISO 19650-1, EN ISO 19650-2, EN ISO 19650-3, EN ISO 19650-4 and EN ISO 19650-5. In the text these are referred to collectively as "the EN ISO 19650 series". This document highlights and describes the way to use the standards, without extending or contradicting the scope and content. This document aims to provide supporting text to achieve a basic understanding and ability to implement the EN ISO 19650 series. In each country, each client and each delivery team can use this document to provide the best response to information management in each project or asset management activity.
This document explains the terms and definitions, concepts and principles and how to use them, and gives practical examples with clear explanations.
It should be noted that in this document, information management is considered as a part of project management, asset management and security management.
This document is intended to demonstrate how the EN ISO 19650 series works at the European level in a neutral way that is applicable to any project or asset regardless of:
-   the nature of contracts, e.g. public, private, alliances, global, partnership;
-   the actors' functions, e.g. through the programming, design, construction phases, regardless of organization size including SMEs;
-   the diversity of tendering processes and commissioning practices, e.g. one main contractor (lead appointed party) on one client (as appointing party) vs. one client and multiple contracts with individual appointed parties;
-   the types of works, e.g. new, refurbished, housing, infrastructure;
-   the complexity of the project, asset, or activities.

This document is applicable to the sampling of the following solid inorganic fertilizers and liming materials supplied or ready for supply, and stored in static heaps:
- Single nutrient fertilizers,
- Uniform complex fertilizers,
- Milled, granulated or dredged liming materials,
- Any other materials deemed suitable for sampling by the method described in this part of the standard by any other standard,
for the purpose of testing for compliance with legal requirements and labelled descriptions and declarations.

These supplementary requirements apply to fuse-links for the protection of batteries and battery systems, including, but not limited to terminology, for electricity storage in equipment for circuits of nominal voltages up to 1 500 V d.c.
Their rated voltage may be higher than 1 500 V d.c.
The object of these supplementary requirements is to establish the characteristics of Battery fuse-links in such a way that they can be replaced by other fuse-links having the same characteristics, provided that their dimensions are identical.

This technical specification identifies and clarifies lighting properties for digital building design and maintenance.
This document provides all the needed properties to design and to describe lighting systems. These properties are intended to be used for mapping between data providers and requesters. The mapping of the identifiers enables the exchange of luminaire and sensing device data within different databases.
The unambiguous mapping and description of properties improves the data quality, reduces misinterpretations and the processing time in digital environments. Therefore, the properties listed in this document establish the essential description of lighting systems in BIM systems and databases.
The listed properties in this document are used to structure the product data sheet which is complemented with real product information.

This document specifies two test methods (method A and method B) for determining the susceptibility of abrasion by studded tyres, tested on cylindrical specimens of bituminous mixtures. The test methods are applicable to bituminous mixtures with aggregate with upper sieve size not exceeding 22 mm.
The tests are applicable to laboratory produced specimens or cores drilled from a slab or pavement.
NOTE 1   Method A originates from the ‘Prall’-method, which has been improved by comprehensive Nordic research work. The method correlates with abrasion in the field when using paving grade bitumen. According to Nordic experience by method A the correlation between laboratory and abrasion in field is not established when polymer modified bitumen or rubber modified bitumen, etc. is used.
NOTE 2   Method B originates from Finnish experience and is suitable also when polymer modified bitumen is used. The correlation between laboratory and abrasion in field is not established when rubber is used.

This document specifies additional specific safety requirements and test methods for Class B floating leisure articles for use on and in the water regardless whether the buoyancy is achieved by inflation or inherent buoyant material.
This document is applicable for Class B floating leisure articles as specified in ISO 25649-1:2024, Table 1.
Class B devices provide a buoyant structure with one or more body openings into which the user is positioned partly immersed.
NOTE 1        Typical products in Class B (see Annex B):
—      floating rafts with interior body holding system (“swim seats”) mostly in circular or square shape, fantasy shape for playing purposes;
—      floating fantasy shaped structures with one or more openings to host a child’s body, with or without body holding system;
—      floating with slits or openings to put legs through any shape;
—      floating rings with interior seat segments inside the circular body opening.
NOTE 2        Typical places for application:
—      pools;
—      protected areas of lakes, ponds;
—      protected areas of sea shore (no offshore winds, no currents).

To be completed with ISO 23698

This Document outlines the concepts and principles to ensure that Health and Safety information is developed, shared and managed collaboratively, ensuring the economic, environmental and social benefits are secured.
This Document;
1) specifies requirements for the collaborative sharing of structured H&S information throughout the asset life-cycle.
2) supports the progressive development of structured H&S information for all built assets.
3) provides guidance on how H&S information is produced, flows and can be used throughout the asset lifecycle. Whilst all H&S risk information can be included within an information model, this document requires the contextualization and filtering of hazards and risks to prioritize the elevated risks and aspects that are safety critical.
4) sets out a framework (risk information cycle) for the application of H&S information-use through BIM processes and applications.
This document specifies how to use H&S information in order to:
a)   provide a safer and healthier environment for end-users;
b)   mitigate the inherent hazards and risks across the asset lifecycle;
c)   result in improved H&S performance, fewer incidents and associated impacts;
d)   provide for clearer, more assured and relevant H&S information to the ‘right-people’ at the ‘right time’;
e)   reduce costs across the whole lifecycle of the asset.
The exchange and use of H&S information is intended to support:
1)   representation of the nature and characteristics of the project, site, built asset and associated activities;
2)   representation of H&S hazards, risks and associated factors;
3)   the generalization, dissemination and re-use of H&S knowledge and experience.
This document is applicable to individuals and organizations that contribute to and influence the definition of design, construction, use (including maintenance) and end of life of a built asset.
This standard is intended to address information management at a stage of maturity described as “building information modelling” (BIM according to the ISO 19650 series. However, the principles and requirements of this document can be applied equally to non-BIM projects.

This document specifies additional specific safety requirements and test methods for Class C floating leisure articles for use on and in the water regardless whether the buoyancy is achieved by inflation or inherent buoyant material.
This document is applicable for Class C floating leisure articles as specified in ISO 25649-1:2024, Table 1.
NOTE 1        Typical products forming Class C (see Annex B):
—      tube riders towable with interior holding facility and closed cockpit;
—      raft riders towable;
—      board riders towable;
—      banana type towable.
NOTE 2        Typical places for application:
—      distant from bathing areas and other frequented water surfaces, wide empty spaces, dedicated racetracks (parcours);
—      no to little waves;
—      no strong currents.

This document specifies the behaviour of Web APIs that provide access to features in a dataset in a manner independent of the underlying data store. This document defines discovery and query operations.
Discovery operations enable clients to interrogate the API, including the API definition and metadata about the feature collections provided by the API, to determine the capabilities of the API and retrieve information about available distributions of the dataset.
Query operations enable clients to retrieve features from the underlying data store based upon simple selection criteria, defined by the client.

This document specifies general safety requirements and test methods for indoor stationary training equipment. Other parts of the ISO 20957 series can modify the requirements contained in this document. This document also covers environmental aspects.
It also specifies a classification system (see Clause 4).
This document is applicable to all stationary training equipment. This includes equipment for use in training areas of organizations such as sport associations, educational establishments, hotels, sport halls, clubs, rehabilitation centres and studios (classes S and I) where access and control is specifically regulated by the owner (person who has the legal responsibility), equipment for domestic use (class H) and other types of equipment including motor driven equipment as defined in 3.1.
The requirements of other parts of the ISO 20957 series take priority over the corresponding requirements of this general standard.
This document does not apply to stationary training equipment intended for outdoor use. It also does not apply to stationary training equipment intended for use by children under the age of 14 years, unless such stationary training equipment is intended for educational purposes in schools and other pedagogical contexts for children under the supervision of a qualified adult instructor.

This document specifies safety requirements and test methods related to materials, safety, performance and consumer information for classified floating leisure articles for use on and in the water according to ISO 25649-1:2024.
This document is applicable to Class D floating leisure articles for use on and in water according to ISO 25649-1:2024 regardless whether the buoyancy is achieved by inflation or inherent buoyant material.
NOTE 1        Typical products forming Class D (see Figure A.1 and Figure A.2):
—      inflatable climbing structures on the water;
—      bouncing platforms;
—      inflatable slides;
—      water trampolines;
—      teeter totters;
—      obstacle courses.
NOTE 2        Typical places for application:
—      pools;
—      lakes, ponds;
—      open sea;
—      sea shore (no offshore winds, no currents).

This document specifies additional specific safety requirements and test methods for Class A floating leisure articles for use on and in the water regardless whether the buoyancy is achieved by inflation or inherent buoyant material.
This document is applicable for Class A floating leisure articles as specified in ISO 25649-1:2024, Table 1.
NOTE 1        Typical products in Class A (see Figures A.1 to A.3):
—      “Floating Islands” in near round or square shaped forms decorated with palm tree, sun shade, etc. high superstructure;
—      large floats/rafts in various shapes, from round to square;
—      large floating tubes, giant tubes (inflatable or inherently buoyant);
—      floating arm chairs, seats and sun beds;
—      air mattresses for use on the water;
—      recreational rafts/floating platforms/pontoons.
NOTE 2        Typical places for application:
—      pools;
—      protected areas of lakes, ponds;
—      protected area sea shore (no offshore winds, no currents).

This International Standard specifies a method for the in vitro determination of Sun Protection Factor. This International standard is applicable to sunscreen products with an emulsion chassis, which are intended to be placed in contact with human skin.

This document describes the current practice in the design of the lighting of road tunnels and underpasses for motorized and mixed traffic. This concerns arrangements, levels and other parameters including daylight, which are related only to traffic safety. Aspects concerning visual comfort are generally chosen in agreement with national rules. The information in this report concerns any tunnel or underpass where the decision to provide lighting has been taken by any authority working within national legislation or other constraints. The design is based on photometric considerations, and all values of luminance or illuminance are maintained values.
The main body of the report covers the common aspects of Tunnel Lighting, and the various methods currently used in Europe are detailed in the annexes. No single method is recommended.

This document specifies general safety requirements and test methods related to materials, safety and performance for classified floating leisure articles for use on and in water.
This document is not applicable to:
—     aquatic toys (use in shallow waters/use under supervision);
—     inflatable boats with a buoyancy > 1 800 N;
—     buoyant aids for swimming instructions;
—     air mattresses that are not specifically designed or intended for use on the water (e.g. velour bed, self-inflating mattress and rubberized cotton air mattress);
—     floating seats for angling purposes;
—     surf sports type devices (e.g. body boards, surf boards, stand-up-paddles boards);
—     water ski, wakeboard or kite surfing board;
—     devices made from rigid materials e.g. wood, aluminium, hard or non-deformable plastic;
—     devices that are kept in shape by permanent air flow;
—     rings intended for use on water slides;
—     wading devices.

1.1   This document specifies the safety requirements for the construction and installation of power operated lifting appliances (referred hereafter as a lift) installed permanently for indoor or outdoor service in wind turbines and intended for access to workplaces on wind turbines by competent persons. A lift serves defined landing levels and may move persons to working positions where they are carrying out work (which could be from the carrier) and has a carrier 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 or sustained by rack and pinion or rope traction drive;
e)   travelling with a speed not more than 0,7 m/s;
f)   operating ambient temperature range between - 25 °C to + 55 °C.
1.2   This document identifies hazards as listed in Clause 4 which 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.
1.3   This document does not specify requirements for:
a)   operation in severe conditions (e.g. extreme climates, strong magnetic fields);
b)   noise;
c)   the use of the lift for erection or dismantling of the wind turbine;
d)   lightning protection;
e)   operation subject to special rules (e.g. 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 European Standard. The present standard is not intended to provide means of complying with the essential health and safety requirements of Directive 2014/34/EU.
f)   electromagnetic compatibility (emission, immunity);
g)   handling of loads the nature of which could lead to dangerous situations;
h)   the use of combustion engines;
i)   hydraulic and pneumatic drive units;
j)   hazards occurring during manufacturing process;
k)   the use of lifts in floating wind turbines;
l)   the use during earthquakes.
1.4   This document is not applicable to:
a)   builders hoists in accordance with EN 12158-1:2000, EN 12158-2:2000 and EN 12159:2000;
b)   elevating control stations in accordance with EN 14502-2:2005+A1:2008;
c)   lifts in accordance with EN 81-20:2019;
d)   work platforms in accordance with EN 280:2013+A1:2015 and EN 1808:2015 and EN 1495:1997+A2:2009;
e)   lifts on cranes in accordance with EN 81-43:2009.
This document is not applicable to lifts manufactured before the date of its publication.

This document specifies definitions, characteristics and requirements for shrinkage reducing admixtures for use in concrete.
It covers admixtures for plain, reinforced and prestressed concrete which are used in site mixed, ready mixed concrete and precast concrete.
The performance requirements in this document apply to admixtures used in concrete of normal consistence. They may not be applicable to admixtures intended for other types of concrete such as semi dry and earth moist mixes.
Provisions governing the practical application of admixtures in the production of concrete, i.e. requirements concerning composition, mixing, placing, curing etc. of concrete containing admixtures are not part of this document.

This document specifies additional specific safety requirements and test methods for Class E floating leisure articles for use on and in the water regardless whether the buoyancy is achieved by inflation or inherent buoyant material.
This document is applicable for Class E floating leisure articles as specified in ISO 25649-1:2024, Table 1.
Class E devices are inflatable boats of a buoyancy of less than 1 800 N with a hull length of more than 1,2 m and less than 2,5 m.
Class E devices are intended for use in bathing areas or in protected and safe shore zones.
NOTE 1        Typical products forming Class E (see Annex F):
—      inflatable boats for rowing or paddling of near oval shape with or without transom;
—      canoes and kayaks;
—      inflatable boats made from plastic sheets or from reinforced materials;
—      motor kit/sail kit as additional option.
NOTE 2        Typical applications of Class E devices:
—      moving from one place to another for pleasure purposes;
—      staying on the water for relaxing;
—      moving from shore to the main boat, transportation of persons and load (tender boat).

This document specifies safety requirements and test methods for single and multi-axle cargo trailers and their connecting devices.
This document applies to cargo trailers with a maximum gross vehicle weight of 600 kg.
This document is not applicable to trailer for transportation of passengers, usually children and for type of trailers which use fifth wheel for connecting to the front cycles as listed in the Table 1 in this document.
Table 1 - Types of cycle trailers
Type of trailer   Applicability of this document
Multi track single axle   Applicable
Multi track multi axle   Applicable
Single track with single axle or multi axle   Not applicable
Fifth wheel trailer with single axle or multi axle   Not applicable
Usage   
Cargo   Applicable
People/children/pet   Not applicable
NOTE   Requirements and test methods for electrical assistance for electrically assisted cargo trailers are covered by prEN 17860-5:2023.

This part of IEC 60127 covers the general requirements and tests applicable to all types of miniature fuse-links (e.g. cartridge fuse-links, sub-miniature fuse-links, universal modular fuse-links and miniature fuse-links for special applications) for the protection of electric appliances, electronic equipment and component parts thereof normally intended to be used indoors.
This standard does not apply to fuses intended for the protection of low-voltage electrical installations. These are covered by IEC 60269, Low Voltage Fuses.
Specific details covering each major subdivision are given in subsequent parts.
This standard does not apply to fuses for appliances intended to be used under special conditions, such as in a corrosive or explosive atmosphere.
The object of this standard is
a) to establish uniform requirements for miniature fuses so as to protect appliances or parts of appliances in the most suitable way,
b) to define the performance of the fuses, so as to give guidance to designers of electrical appliances and electronic equipment and to ensure replacement of fuse-links by those of similar dimensions and characteristics,
c) to define methods of testing,
d) to define maximum sustained dissipation of fuse-links to ensure good compatibility of stated power acceptance when used with fuse-holders according to this standard (see IEC 60127-6).

This document specifies performance test procedures to determine the passive safety properties of support structures such as lighting columns, sign posts, signal supports, structural elements, foundations, detachable products and any other components used to support a particular item of equipment on the roadside.
This document provides a common basis for the vehicle impact testing of items of road equipment support structures.
This document does not apply to road restraint systems.

IEC 60127-6:2023 is available as IEC 60127-6:2023 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.

IEC 60127-6:2023 is applicable to fuse-holders for miniature cartridge fuse-links according to IEC 60127-2, sub-miniature fuse-links according to IEC 60127-3, universal modular fuse-links to IEC 60127-4 and miniature fuse-links for special applications to IEC 60127-7 for the protection of electric appliances, electronic equipment and component parts thereof, normally intended for use indoors.
NOTE Requirements for fuse-holders for miniature fuse-links complying with IEC 60127-4 and IEC 60127-7 are under consideration. It does not apply to fuse holders for fuses completely covered by the subsequent parts of IEC 60269-1.

This standard specifies the luminous requirements for emergency escape lighting and standby lighting systems installed in premises or locations where such systems are required. It is principally applicable to locations where the public or workers have access.

This document provides an overview of principles and characteristics on most commonly used
remediation techniques. In particular, it provides:
— standard terminology, principles, scope, and key aspects on design/dimensioning and monitoring for
each remediation technique, but also an overview of the known advantages/limitations of each
technique;
— informative advice on the remediation option appraisal stage, i.e. how to assess and choose the
most relevant single or combined remediation technique taking into account the type of pollutant as
well as the local legal, policy, socio-economic and environmental context.
The scope of this document is restricted to the remediation of contaminated land — that is
demonstrably breaking the source-pathway-receptor linkages — in a manner that has been shown to
be sustainable on a site-specific basis in a specific legal context.