SIST - Slovenian Institute for Standardization

IEC 62933-4-2:2025 defines the requirements for evaluating and reporting the negative impact on the environment caused by the failure of a cell, flow cell, battery or flow battery in the accumulation subsystem of a battery energy storage system (BESS).
The batteries within this scope used in a BESS are classified according to the type of their electrolyte. These electrolyte types are aqueous, non-aqueous or solid.
The environmental impacts directly caused by the failure of other components of the BESS are not within the scope of this document.

IEC 61788-27:2025 specifies a test method for the twist pitch measurement of Nb‑Ti/Cu and Nb‑Sn/Cu composite superconductors by an untwisting method.
The test method is applicable to Nb‑Ti/Cu and Nb‑Sn/Cu composite superconducting wires with monolithic structures, which have either a round cross section with a diameter ranging from 0,2 mm to 2 mm or a rectangular cross section that is equivalent in area to the round cross‑sectional wires. These wires possess a filament diameter ranging from 6 µm to 200 µm, a twist pitch between 5 mm and 50 mm, and a matrix of copper or copper alloy. This document uses nitric acid to remove the matrix (copper or copper alloy), so the surface of the composite superconducting wire can be plated with a material that is dissolvable by nitric acid.
Though uncertainty can increase, the method can apply to Nb‑Ti/Cu or Nb‑Sn/Cu composite superconducting wires when the parameters of cross-sectional area, filament diameter and twist pitch are out of the limit.
The test method specified in this document is expected to apply to other types of composite superconducting wires after some appropriate modifications.

IEC 62868-2-4:2025 specifies the safety requirements for rigid organic light emitting diode (OLED) tiles and panels for use on supplies up to 120 V ripple free DC for indoor and similar general lighting purposes.

This document specifies, for right angle couplers, swivel couplers, sleeve couplers and parallel couplers working by friction:
-   materials;
-   design requirements;
-   strength classes with different structural parameters including values for resistance and stiffness;
-   test procedures;
-   assessment;
and gives:
-   recommendations for ongoing production control.
These couplers are intended for use in temporary works equipment for example in scaffolds erected in accordance with EN 12811-1 and falsework erected in accordance with EN 12812.

This document provides requirements and guidelines for comparing the life cycles of bio-based products with their fossil-based equivalents.
NOTE   The term "equivalents" generally refers to the "functional equivalence".
This document builds on existing LCA methodology and provides requirements and guidance on specific topics relevant for making well-balanced comparisons.

DEN/ERM-TG34-269

This document provides guidelines for the characterization of waterlogged archaeological wood to support decision-making processes for its preservation.
This document can be applied for the management of wood discovered in waterlogged environments, including terrestrial and aquatic (marine and freshwater) sites, as a basis for designing conservation strategies (e.g. reburial, in situ preservation, post-excavation storage). In the case of composite artefacts made of wood and other materials, this document is applicable only for the wooden components. Methods for conservation, site protection and monitoring for reburial as well as in situ preservation are beyond the scope of this document.

This document is applicable to the heavy rail system.
This document defines the requirements for the provision, visibility, readability, maintenance and testing of a specific set of ERTMS trackside boards associated with the following DMI and ETCS track conditions:
—   ETCS stop marker
—   ETCS location marker
—   level transition, corresponding to transitions between ETCS levels
—   lower pantograph
—   pantograph lowered
—   raise pantograph
—   neutral section announcement
—   neutral section
—   end of neutral section
—   GSM-R network border marker
—   no traction system fitted announcement
—   no traction system fitted indication
—   traction system AC 25 kV 50 Hz announcement
—   traction system AC 25 kV 50 Hz indication
—   traction system AC 15 kV 16,7 Hz announcement
—   traction system AC 15 kV 16,7 Hz indication
—   traction system DC 3 kV announcement
—   traction system DC 3 kV indication
—   traction system DC 1,5 kV announcement
—   traction system DC 1,5 kV indication
—   traction system DC 600/750 V announcement
—   traction system DC 600/750 V indication
—   activate the audible warning device (horn) indication
—   safe stopping area announcement
—   safe stopping area indication for start
—   safe stopping area indication for end
—   inhibition of brake announcement/indication for start/indication for revocation
—   level crossing marker
NOTE 1 the brake MBs apply for any of the three brake types (eddy current, magnetic shoe, regenerative), whereas the exact type concerned would be known by the driver via existing Route knowledge.
The following ETCS track conditions are outside the scope of this Standard:
—   Safe stopping area semi-continuous indication for in-between
—   Non-stopping area announcement
—   Non-stopping area announcement
—   Non stopping area indication for start
—   Non stopping area indication for end
—   Non stopping area semi-continuous indication for in-between
—   Close air conditioning intake announcement
—   Close air conditioning intake indication
—   Open air conditioning intake announcement
—   Open air conditioning intake indication
This document includes the arrangement of the boards and their interface with existing systems (track, cab design including cab sight lines, visibility by the driver and train head lamps).
Mobile, backlit and temporary signs are not within the scope of this document.
The application of ERTMS trackside boards is not within the scope of this document.
Sighting requirements are not within the scope of this document. The sighting process needs to be implemented in accordance with national rules.

This document covers hinged/pivoted and sliding doorsets with engaging fasteners (e.g. latches, deadbolts) for pedestrian use. It defines the test methods to determine the forces to open/close doors and to engage/release and lock/unlock the building hardware using a key or handle. It is only applicable to the manual operation of doorsets.
These doorsets can include:
—   emergency or panic exit devices;
—   door closing devices.
NOTE   The use of some windows involves engaging fasteners (e.g. latches, deadbolts) and can be tested in accordance with this document. Throughout the text where “door leaf”/”door leaves” is written this can also be read as “casements”/”sashes”.

IEC 62878-2-603:2025 specifies the electrical test method to detect electrical connectivity defects of the stacked electronic module caused by the stacking assembly process to stack some stackable electronic modules. This method is realized to make use of bidirectional serial communication bus interface applied to the stackable electronic modules which are assured as "known good module" (KGM).

This document specifies the requirements and test methods for durability and strength of hardware for vertical and horizontal pivot windows and door height windows (including pivot hinges and central locking systems).
If the hardware manufacturer would like to classify an integrated restrictor function, the pivot hinges can be tested in accordance with EN 13126-5.
This document does not apply to manoeuvring devices which are covered in EN 13126-2, EN 13126-3, and EN 13126-14.

IEC 63203-204-2:2025 specifies a test method for e-textiles for measuring the change of electrical resistance during bending of the knee and elbow joints. It uses a dynamic method. This document is applicable to e-textiles.

IEC 60404-18:2025 defines the general principle and technical details of the methods of measurement of the DC magnetic properties of permanent magnet materials in an open magnetic circuit using a superconducting magnet (SCM).
This method is applicable to permanent magnet materials, such as those specified in IEC 60404‑8‑1, the properties of which are presumed homogeneous throughout their volume.
There are two methods:
- the SCM-vibrating sample magnetometer (VSM) method;
- the SCM-extraction method.
This document also specifies methods to correct the influence of the self-demagnetizing field in the test specimen on the demagnetization curve obtained in an open magnetic circuit. The magnetic properties are determined from the corrected demagnetization curve.

IEC 62037-1:2025 deals with the general requirements and measuring methods for intermodulation (IM) level measurement of passive RF and microwave components, which can be caused by the presence of two or more transmitting signals. The test procedures given in this document give the general requirements and measurement methods required to characterize the level of unwanted IM signals using two transmitting signals. The IEC 62037 series addresses the measurement of PIM but does not cover the long-term reliability of a product with reference to its performance. This third edition cancels and replaces the second edition published in 2021. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the previous edition:
a) added clarification that PIM generation is typically frequency dependent and noted that testing with swept or multiple fixed frequencies often provides more accurate results;
b) identified multi-port PIM analyzers as a possible test set-up topography;
c) added specification that test power level does not exceed the power handling capability of the DUT;
d) updated test specification to include missing parameters needed to properly define a PIM test;
e) added clarification that PIM test reports include the maximum PIM value measured over the test duration;
f) corrected error in Figure 3 that was erroneously changed in IEC 62037-1:2021.

Identical adoption of future IEC/IEEE 63184 into EN IEC/IEEE 63184

This document specifies a test method for the qualification and quantification of organotin compounds by applying gas chromatography coupled with mass spectrometry. This test method is applicable to all types of footwear materials except metal hardware (see ISO/TR 16178).

REN/ESI-0019411-1v151

This part of IEC 60079 specifies the construction and testing of intrinsically safe apparatus intended for use in an explosive atmosphere, and for associated apparatus which is intended for connection to intrinsically safe circuits which enter such atmospheres.
This Type of Protection is applicable to electrical equipment in which the electrical circuits themselves are incapable of causing ignition of a surrounding explosive atmosphere. This includes electrical equipment which contains circuits that are intrinsically safe only under certain conditions, for example under battery supply with mains supply removed.
This standard is also applicable to electrical equipment or parts of electrical equipment located outside the explosive atmosphere or protected by another Type of Protection listed in IEC 60079-0, where the intrinsic safety of the electrical circuits in the explosive atmosphere may depend upon the design and construction of such electrical equipment or parts of such electrical equipment. The electrical circuits exposed to the explosive atmosphere are assessed for use in such an atmosphere by applying this standard.
This standard applies to sensors connected to intrinsically safe circuits but does not apply to the protection of catalytic elements for Group IIC or Group IIB + H2.
The requirements for intrinsically safe systems are provided in IEC 60079-25.
This standard supplements and modifies the general requirements of IEC 60079-0, except as indicated in Table 1. Where a requirement of this standard conflicts with a requirement of IEC 60079-0, the requirement of this standard takes precedence.
Unless otherwise stated, the requirements in this standard are applicable to both intrinsically safe apparatus and associated apparatus, and the generic term "apparatus" is used throughout the standard.
As this standard applies only to electrical equipment, the term "equipment" used in the standard always means “electrical equipment”.
This standard applies to apparatus for use under the atmospheric conditions of IEC 60079-0 with additional requirements for for use at lower atmospheric pressures in the range from 60 kPa (0,6 bar), up to 110 kPa (1,1 bar).
[...]

IEC 80000-13:2025 specifies names, symbols and definitions for quantities and units used in information science and technology. Where appropriate, conversion factors are also given. Prefixes for binary multiples are also given. International Standard IEC 80000-13 has been prepared by IEC technical committee 25: Quantities and units in close cooperation with ISO/TC 12: Quantities and units.
This second edition cancels and replaces the first edition published in 2008. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the previous edition:
addition of new prefixes for binary multiples.

This document describes the basic requirements for the design and application of explosion suppression systems. This document also specifies test methods for evaluating the effectiveness and the scaling up of explosion suppression systems against defined explosions. This document covers:
-   general requirements for explosion suppression system parts;
-   evaluating the effectiveness of an explosion suppression system;
-   evaluating the scale up of an explosion suppression system to larger than tested volumes;
-   development and evaluation of design tools for explosion suppression systems;
-   installation, operation and maintenance instructions for an explosion suppression system.
This document is applicable only to explosion suppression systems intended for the protection of closed, or essentially closed, enclosures in which an explosion could result as a consequence of ignition of an explosible mixture, e.g. dust-air, gas(vapour)-air, dust-gas(vapour)-air and mist-air.
This document is not applicable for explosions of materials listed below, or for mixtures containing some of those materials:
-   unstable materials that are liable to dissociate;
-   explosive materials;
-   pyrotechnic materials;
-   pyrophoric materials.

NEXT ACTION: UNDER BT CONSULTATION SOON (finalization EN with revised Annex Z)
HAS CONSULTANT PUB ASSESSMENT BY 2020-09-24 -- non compliant assessment received
20200325: consultant assessment missing and Annex ZZ was not circulated at FV; document blocked until such a time as this can be resolved

NEXT ACTION: CCMC ACTION to request HAS assessment @ PUB when HAS system is operational
2022-01-17: Under discussion with the desk officer. upon the greenlight of the desk officer, it can be published.

This document specifies an open and extensible standard for residential, commercial, and industrial control and automation applications using the EN 14908-1 control network protocol and related protocols (EN 14908-2 to EN 14908-9) to provision and manage IoT devices, to access and update data from the devices, and to aggregate data from diverse devices and protocols for delivery to external applications and services.
The  web services as specified in this document are implemented on a central gateway or edge server that communicates with multiple sensor, actuator, and controller edge devices using one or more edge protocols such as EN 14908-1, and also interfaces with one or more enterprise and cloud services or applications.

1.1   This document specifies requirements and tests for LTSF sterilizers, which use a mixture of low temperature steam and formaldehyde as sterilizing agent, and which are working below ambient pressure only.
These sterilizers are primarily used for the sterilization of heat labile medical devices in health care facilities.
1.2   This document specifies minimum requirements:
-   for the performance and design of sterilizers intended to deliver an LTSF process capable of sterilizing medical devices;
-   for the equipment and controls of these sterilizers which are needed for operation, control and monitoring of the sterilization processes, and which can be used for validation of the sterilization process.
1.3   This document specifies further test equipment and test procedures used to verify conformance of the equipment design and performance specified by this document.
1.4   This document does not specify requirements and tests for decontamination systems for use in rooms, enclosures, or environmental spaces.

1.1   This document specifies the electrical requirements for the design of automatic electrostatic application systems for liquid coating materials which can be ignited in an atomised state, used within a temperature range from 5 °C to 40 °C.
This document considers automatic electrostatic application systems for processing ignitable liquid coating materials, where the conductivity of the complete system is limited up to 50 nS/cm. Together with additional measures like e.g. potential separation systems, these requirements can also be applied to ignitable liquid coating materials, where the conductivity of the complete system is limited up to 2 000 μS/cm.
Ignition hazards related to the generated explosive atmosphere and the protection of persons against electric shock are considered.
1.2   This document specifies
-   requirements for an interface to machinery according to EN 16985:2018,
-   additional requirements for machinery covered by EN 1953:2025 and EN 12621:2025.
1.3   This document also specifies requirements for a safe operation of electrostatic application systems, including the electrical installation. The requirements consider both the processing of coating materials and the cleaning and purge processes.
1.4   This document applies to three types of spraying systems; see 5.1.1.
Spraying systems are classified as equipment of group II, category 2G (for intended use in zone 1 or zone 2) or category 3G (for intended use in zone 2).
Only electrostatic spraying systems operating with a d.c. sinusoidal ripple of not more than 10 % of the r.m.s. value are considered.
1.5   For electrostatic application systems used in food and pharmaceutical industry, additional requirements may apply.
1.6   This document does not apply to
-   potential separation systems;
-   selection, installation and application of other electrical and non-electrical equipment in areas with explosion hazard, see EN 60079-14:2014 and EN 16985:2018;
-   quality assurance systems for electrostatic spraying equipment (see EN ISO/IEC 80079-34:2020, ZB.11).

IEC 62391-2:2025 applies to electric double-layer capacitors for power application.
Electric double-layer capacitors for power are intended for applications that require discharge currents in the range from mA to A. The characteristics of the capacitors include such performance as relatively high capacitance and low internal resistance, which is applicable to Class 3 and Class 5 of the measurement classification specified in IEC 62391-1:2022.
The object of this document is to specify preferred ratings and characteristics and to select from IEC 62391-1:2022 the appropriate quality assessment procedures, tests and measuring methods and to give general performance requirements for this type of capacitor. Test severities and requirements specified in detail specifications referring to this document provide specific test severities and requirements of an equal or higher performance level.
The definition of power density and its calculating procedure can be found in Annex A.
This edition includes the following significant technical changes with respect to the previous edition:
a) the document has been completely restructured to comply with the ISO/IEC Directives, Part 2;
b) introduction of a new technical categorization for the test methods;
c) reorganization of the test methods have been according to these new categories;
d) revision of the tables, figures and references according to changes.

No scope available

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 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 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.

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 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.
[...]

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.

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.

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.

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.

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 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 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 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.

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

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.