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This document specifies requirements for the development and validation of processes for packaging medical devices that are terminally sterilized. These processes include forming, sealing and assembly of preformed sterile barrier systems, sterile barrier systems and packaging systems.
It is applicable to industry, to health care facilities, and to wherever medical devices are packaged and sterilized.
It does not cover all requirements for packaging medical devices that are manufactured aseptically. Additional requirements can be necessary for drug/device combinations.

This document specifies methods for determining the ring creep properties for glass-reinforced thermosetting plastics (GRP) pipes. Properties include the creep factor and the long-term creep stiffness. Testing is performed under either wet (total immersion in water) or dry conditions.
Dry creep testing is typically performed for the assessment and control of raw material consistency.
Wet creep testing is typically undertaken to determine the long-term creep performance in simulated use conditions.

This document defines requirements for collision warning and collision avoidance systems that address
forward and reverse motion for:
— earth-moving machinery as defined in ISO 6165,
— mobile underground mining machinery as defined in ISO 19296, and
— road construction machinery as defined in ISO 22242.
This document does not consider machine height beyond that of height in travel position (e.g. dump
body on dumper in lowered position) as established by machine manufacturer.
Specific requirements for particular types of machines and use cases are defined in the other parts of
this standard series.
This document covers collision avoidance by reducing speed, stopping, or inhibiting motion; it does not
cover avoidance by automatic manoeuvring (e.g. steering) away from the intended object.
This document is not applicable to collision warning and collision avoidance systems installed installed/
manufactured before the date of its publication.
The system described in this standard is intended to assist the operator of the machine. The
responsibility for safe operation of the machine remains with the machine operator.

ISO 11452-8:2015 specifies tests for electromagnetic immunity of electronic components for passenger cars and commercial vehicles, regardless of the propulsion system (e.g. spark-ignition engine, diesel engine, electric motor), to magnetic fields. These sources are classified into "internal magnetic field" (sources internal to the vehicle, e.g. vehicle electro-mechanical motors, actuators,...) and "external magnetic field" (sources external to the vehicle e.g. power transmission lines, generating stations,?). To perform this test, the device under test (DUT) is exposed to a magnetic disturbance field.

The radiating loop method can be applied to small DUTs or to larger DUTs by positioning the coil in multiple locations.

The Helmholtz coil is sometimes used as an alternative method. This technique is limited by the relationship between the size of the DUT and the size of the coils. The electromagnetic disturbances considered in this ISO 11452-8:2015 are limited to continuous narrowband electromagnetic fields.

This International Standard establishes all of the steps needed to properly measure and account for the quantities of cargoes on liquefied natural gas (LNG) carriers. This includes, but is not limited to, the measurement of liquid volume, vapour volume, temperature and pressure, and accounting for the total quantity of the cargo on board. This International Standard describes the use of common measurement systems used on board LNG carriers, the aim of which is to improve the general knowledge and processes in the measurement of LNG for all parties concerned. This International Standard provides general requirements for those involved in the LNG trade on ships and onshore.

This document specifies the minimum requirements necessary to ensure the safe design, calculation, manufacture, assembly, operation, disassembly, inspection and maintenance of the following, but not limited to: indoor and outdoor structures e.g. Stage roofs, stage floors, follow spot towers, PA towers, LED support structures, one-off event structures, hospitality structures, temporary spectator facilities. The above hereafter called event structures which are intended to be installed and dismantled specifically for an event.

The standard establishes a set of processes by which engineers and technologists can include consideration of ethical values throughout the stages of concept exploration and development, which encompass system
initiation, analysis, and design. This standard provides engineers and technologists with an implementable process aligning innovation management processes, system design approaches, and software engineering methods to help address ethical concerns or risks during system design.
IEEE Std 7000™ does not give specific guidance on the design of algorithms to apply ethical values such as fairness and privacy.

1.1 General
This part of ISO 25745 specifies:
a) methods of measuring actual energy consumption of lifts, escalators and moving walks on a single unit basis;
b) methods of carrying out periodic energy verification checks on lifts, escalators and moving walks in operation.
This part of ISO 25745 only considers the energy performance during the operational portion of the life cycle of the lifts, escalators or moving walks.
1.2 Lifts
For lifts, this part of ISO 25745 does not cover energy aspects, such as:
a) hoistway lighting;
d) heating and cooling equipment, including fans in the lift car;
e) machine room lighting;
f) machine room heating, ventilation and air conditioning;
g) non-lift, display systems, closed circuit television security cameras, etc.;
h) non-lift, monitoring systems (building management systems, etc.);
i) the effect of lift group dispatching on energy consumption;
j) non-lift equipment [3.13] consumption through the power sockets.
k) energy storage systems if used as an alternative energy source for operation.
1.3 Escalators and moving walks
For escalators and moving walks, this part of ISO 25745 does not cover energy aspects of the ancillary equipment, such as:
a) lighting with the exception of comb plate lighting and step gap lighting and traffic light;
b) cooling and heating;
c) alarm devices and emergency battery supplies equipment, etc.

This document specifies the additional or deviating requirements to prEN 81-20 for new passenger and goods passenger lifts, which may be used to support faster evacuation of persons with difficulty in using stairs including in case of fire alarm.
This document does not apply to:
— lifts which are not included in a fire resisting building structure;
— the evacuation due to other circumstances, like explosion, chemical or biological attack, flooding, storm damage, earthquake etc.
NOTE General evacuation guidance can be found in ISO/TS 18870.
The following significant hazards are not covered in this document and are assumed to be addressed by the building designer:
— fire or smoke in the evacuation lift well, safe areas or machinery spaces;
— ingress of water to the lift well during evacuation process;
— insufficient or incorrectly located evacuation lifts;
— entrapment in waiting area (safe area) due to absence of lift service or adjacent stairs;
— structural collapse or failure of building services (e.g. power supply, lighting, ventilation) before the evacuation using lifts has been completed;
— presence of harmful gases, potentially explosive atmosphere, extreme climate conditions, transport of dangerous goods, etc.

This document gives terms and definitions for micro process engineering and microfluidics applied in medical and veterinary diagnostics, chemistry, agriculture, pharmacy, biotechnology and agrifood industry and other application areas.

This International Standard specifies the dimensions and requirements for coaxial RF cables with a
specified analogue bandwidth up to 6 GHz (for special cases up to 20 GHz) intended for use in road
vehicle applications where the nominal system voltage is 30 V a.c. or 60 V d.c..

This International Standard specifies the dimensions and requirements for unscreened single twisted
pair RF cables with a specified analogue bandwidth up to 1 GHz intended for use in road vehicle
applications where the nominal system voltage is 30 V a.c. or 60 V d.c..

This second edition cancels and replaces the first edition (i. e. ISO 3995:1977). The method subjects a compact pressed form metallic powder to a uniformly increasing transverse force under controlled conditions until fracture occurs. the green strength is determined on compacts either having a particular density or after compaction at a specific compacting pressure.

This International Standard specifies safety requirements for auto-guidance systems used in
agricultural tractors and self-propelled agricultural machines.
It is applicable to auto-guidance systems which are factory installed as an integral part of the tractor or
self- propelled machine as well as systems designed to be retrofitted to equipment after such equipment
has left the control of the manufacturer.
It is not applicable to guidance systems used in tractors or self-propelled machines that do not require
an on- board operator for primary control of the tractor or self-propelled machine.
This International Standard does not specify requirements necessary to ensure the integrity of the
complex electronic control system which can be an integral part of the auto-guidance system. Such
requirements are dealt with in other International Standards which address complex electrical/
electronic machine control systems.
When requirements of this International Standard are different from those which are stated in a
machine specific standard, the requirements of the machine specific standard take precedence over the
requirements of this International Standard.
This International Standard is neither applicable to tractors and self-propelled machines which were
manufactured with an auto-guidance system before the date of publication of this International
Standard, nor to self-contained auto-guidance retrofit systems which were individually placed on the
market before the date of publication of this International Standard.
NOTE Specific road traffic regulations can impose additional requirements for auto-guidance systems.

This document, when used together with ISO 4254-1, specifies the safety requirements and their verification for the design and construction of trailed and self-propelled harvesters for grapes, olives and coffee. It describes methods for the elimination or reduction of hazards arising from the intended use of these machines by one person (the operator) in the course of normal operation and service. In addition, it specifies the type of information on safe working practices to be provided by the manufacturer.

ISO 7637-1:2015 defines the basic terms relating to electrical disturbances from conduction and coupling used in the other parts of ISO 7637. It also gives general information on the whole ISO 7637 series.

This document describes general requirements, procedures and performance criteria for evaluating the content of genetically modified (GM) seeds/grains in a lot by a group testing strategy that includes qualitative analysis of sub-sampled groups followed by statistical evaluation of the results.
This document is applicable to group testing strategy estimating the GM content on a percentage seed/grain basis for purity estimation, testing towards a given reject/accept criterion and for cases where seed/grain lots are carrying stacked events.
This document is not applicable to processed products.
NOTE Description of the use of group testing strategy are available in References [1], [7], [8], [18], [19] and [20].

This document specifies how a welding procedure specification for electron or laser beam welding is qualified by a welding procedure test.
This standard is a part of a series of standards, details of this series are given in ISO 15607:2019, annex A.
This document defines the conditions for the execution of welding procedure qualification tests and the limits of validity of a qualified welding procedure for all practical welding operations within the range of variables listed in Clause 8.
Tests shall be carried out in accordance with this standard together with additional tests when specified.
This document applies to metallic materials, irrespective of the shape of the parts, their thicknesses, manufacturing method (rolling, forging, casting, sintering, etc.) and their heat treatment. It covers both the production of new parts and repair work.

This document specifies how a preliminary welding procedure specification is qualified based on preproduction welding tests.
This document is applicable to arc welding, gas welding, beam welding, resistance welding, stud welding and friction welding of metallic materials. The principles of this document may be applied to other welding processes.
This document is a part of a series of standards dealing with specification and qualification of welding procedures. Details are given in ISO 15607.
The use of this document can be restricted by an application standard or specification.

This document provides the specification of the Flow Allocator (FA). It is not strictly speaking a protocol specification. The protocol used here is the Common Distributed Application Protocol (CDAP).
[1] This specification uses the objects required to create a flow between two IPC Processes and bind their endpoints to the applications that requested the flow.
The contents of these documents include an overview of the Flow Allocator, its service definition, and its specification.

This document provides an overarching data life cycle framework that is instantiable for any AI system from data ideation to decommission. This document is applicable to the data processing throughout the AI system life cycle including the acquisition, creation, development, deployment,
maintenance and decommissioning. This document does not define specific services, platforms or tools. This document is applicable to all organizations, regardless of type, sizes and nature, that use data in the development and use of AI systems.

This standard provides the reference model for the Recursive Inter-Network Architecture. It describes:
the basic concepts of distributed systems, and distributed applications; introduction to distributed
management systems; the fundamental structure of distributed Inter-Process Communications; and
the Distributed Inter-Process Facility (DIF) operations.

This document provides the specification of the Common Application Connection Establishment Phase
(CACEP). CACEP is a protocol exchange over a flow that serves to authenticate flow participants to their
mutual satisfaction and to initialize the application naming information and information related to the
application protocol that will be used by applications to exchange information (abstract and concrete
syntaxes, object model versions, etc.). In case of RINA,[4],[5] the application protocol is CDAP.
The main topics covered by this specification are the overview of CACEP, its Specification, the syntax of
the PDUs, and the policies available

This document provides the specification of the Error and Flow Control Protocol (EFCP). EFCP provides
an inter-process communication service to the Application Process, which may be a (N+1)-IPC Process,
with the requested Quality of Service. One or more SDUs are passed on the (N)-port-id to the (N)-DIF to
be sent to the destination application process. PDUs transferred by the (N)-DIF are delivered to the (N)-
Port-id for the using Application Process. In the following pages it will be described the placement of
EFCP within RINA, the components EFCP consists of, and the mechanisms and policies that are involved
in EFCP’s work, and the timers and control mechanisms required to manage the connection.
EFCP comprises two logical components, the Data Transfer Protocol (DTP), providing tightly bound
mechanisms, as defined below, and the Data Transfer Control (DTCP) protocol, which provides loosely
bound mechanisms.
This document provides the following: the service definition, an overview of EFCP, a description of the
placement of EFCP within RINA, the common elements of DTP and DTCP, DTP structure and functions,
and DTCP structure and functions. An informative list of all policies in EFCP is provided as well.

This document specifies a gravimetric method for the determination of the content of non-volatile matter in soft soldering fluxes. It is applicable to liquid and paste fluxes of type 1, as defined in ISO 9454--1.

Describes three quantitative titration methods for the determination of halogenides (excluding fluoride) in soft soldering water-soluble fluxes.

This document specifies a method of testing for deleterious effects that may arise from flux residues after soldering or tinning test coupons. The test is applicable to type 1 and type 2 fluxes, as specified in ISO 9454-1, in solid or liquid form, or in the form of flux-cored solder wire, solder preforms or solder
paste constituted with eutectic or near-eutectic tin/lead (Sn/Pb) or Sn95,5Ag3Cu0,5 or other lead free solders as agreed between user and supplier (ISO 9453).
NOTE This test method is also applicable to fluxes for use with lead containing and lead-free solders. However, the soldering temperatures may be adjusted with agreement between tester and customer.

ISO 9924-1:2016 specifies a thermogravimetric method for the determination of the total organic content, carbon black content and ash in vulcanizates and uncured compounds. The loss in mass at 300 °C is an approximate guide to the volatile-matter content of the compound.

The method is suitable for the analysis of rubber compounds and vulcanizates containing the following rubbers occurring alone or as mixtures:

a) polyisoprene of natural or synthetic origin;

b) polybutadiene;

c) styrene-butadiene copolymers;

d) isobutylene-isoprene copolymers;

e) ethylene-propylene copolymers and related terpolymers.

NOTE The field of application of the method may be extended to the analysis of compounds containing rubbers different from those given in this subclause, provided that the applicability of the method is tested beforehand using known compounds or vulcanizates having a similar composition. Other compounds are covered in ISO 9924‑2.

The method is not suitable for rubbers containing polymers which form a carbonaceous residue during pyrolysis, such as many chlorine- or nitrogen-containing rubbers.

The method is also not suitable for materials containing additives which cause the formation of carbonaceous residues during pyrolysis, such as cobalt and lead salts or phenolic resins.

The method is not suitable for compounds containing mineral fillers, such as carbonates or hydrated aluminium oxides, which decompose in the temperature range from 25 °C to 650 °C, unless suitable corrections based on prior knowledge of filler behaviour can be made.

The method is not suitable for the determination of the total polymer content of compounds or vulcanizates containing non-rubber organic ingredients that cannot be completely removed by solvent extraction carried out in accordance with ISO 1407.

This document specifies requirements for circular flanges made from ductile, grey and malleable cast iron for DN 10 to DN 4000 and PN 2,5 to PN 100. See 4.1 and 4.2 for information regarding allowed DN and PN.
This document specifies the types of flanges and their facings, dimension and tolerances, bolt sizes, surface finish of jointing faces, marking, testing, quality assurance and materials together with associated pressure/temperature (p/T) ratings.

This document specifies conformance testing procedures for implementations of ISO/IEC 15938-17 and
provides conformance bitstreams. It also provides the reference software for ISO/IEC 15938-17 as an
electronic attachment. The software is an integral part of this International Standard.
Requirements established in ISO/IEC 15938-17 take precedence over the behaviour of the reference
software. The use of this reference software is not required for making an implementation of an
encoder or decoder in conformance to ISO/IEC 15938-17. The reference software is however required
for the conformance testing procedures of decoders and bitstreams.

This Recommendation | International Standard defines a set of lossless (bit-preserving) and lossy compression methods for coding continuous-tone, bi-level, grey-scale, colour digital still images, or multi-component images.
This Recommendation | International Standard:
– specifies extended decoding processes for converting compressed image data to reconstructed image data;
– specifies an extended codestream syntax containing information for interpreting the compressed image
data;
– specifies an extended file format;
– specifies a container to store image metadata;
– defines a standard set of image metadata;
– provides guidance on extended encoding processes for converting source image data to compressed image
data;
– provides guidance on how to implement these processes in practice.

This International Standard addresses light-duty vehicles, e.g. passenger cars, pick-up trucks, light vans and sport utility vehicles (motorcycles excluded) equipped with MALSO systems. It specifies minimum
functionality requirements which the driver can generally expect of the device, i.e. detection of and information on the presence of relevant obstacles within a defined (short) detection range. It defines
minimum requirements for failure indication as well as performance test procedures; it includes rules for the general information strategy but does not restrict the kind of information or display system.
MALSO systems use object-detection devices (sensors) for ranging in order to provide the driver with information based on the distance to obstacles. The sensing technology is not addressed; however, technology affects the performance-test procedures set up in this International Standard (see
Clause 7). The current test objects are defined based on systems using ultrasonic sensors, which reflect the most commonly used technology at the time of publishing this International Standard. For other sensing technologies possibly coming up in the future, these test objects shall be checked and changed if required.
Visibility-enhancement systems like video-camera aids without distance ranging and warning are not covered by this International Standard.
Reversing aids and obstacle-detection devices on heavy commercial vehicles are not addressed by this International Standard; requirements for those systems are defined in ISO/TR 12155.

This European Standard provides guidance, and where appropriate defines procedures, for variations of certain parameters and factors associated with the design of internal and external loadbearing walls that have been tested in accordance with EN 1365-1. Data from historic standard fire resistance tests may be used as supporting information. Manufactured stone masonry units according to EN 771-5 and natural stone units according to EN 771-6 are not covered. This European Standard is not valid for reinforced masonry.

This document specifies diagnostic application requirements and OSI-layer related communication
profiles to ensure the interchange of digital information between towing and towed vehicles with a
maximum authorized total mass greater than 3 500 kg.
The conformance and interoperability test plans are not part of this document.

This document applies to vertiports of class A (micro) as defined in ISO 5015-2 and defines the
requirements for constructing a vertiport. This scope excludes vertiport operations and services
covered by ISO 5015-2. developed by ISO/TC 20/SC 16 (UAS), which includes ground handling, interface
with Unmanned Aircraft System Traffic Management Service Providers, and safety and quality of
vertiport operators.

This document specifies principles for the design of obstacle protective systems used in agricultural
machinery and tractors that are used in agricultural applications and that have partially automated,
semi-autonomous and autonomous functions. Additionally, it provides guidance on the type of
information, to be provided by the manufacturer, on safe working practices (including information
about residual risks).
The purpose of this document is to assist in the provision of more specific safety requirements, means of
verification and information for use to ensure an appropriate level of safety for agricultural machinery
and tractors with partially automated, semi-autonomous and autonomous functions used in a specified
way.
This document deals with all the significant hazards, hazardous situations and events, relevant to
agricultural machinery and tractors with partially automated, semi-autonomous and autonomous
functions when used as intended and under the conditions of misuse foreseeable by the manufacturer
during normal operation and service.
Applicability of the design principles and any additional detailed requirements, for design, verification,
validation or information for use are outside the scope of this document.
NOTE Safety requirements for specific non-automated functions of agricultural machinery and tractors can
be available in machine-specific type-C standards.
This document is not applicable to:
— forestry applications;
— operations on public roads including relevant requirements for braking and steering systems.
This document is not applicable to agricultural machinery and tractors which are manufactured before
the date of its publication, or to systems applied to agricultural machinery and tractors put into use
before the date of its publication.

ISO 6534:2007 specifies the mechanical strength requirements relating to the front and rear hand-guards of portable hand-held combustion engine chain-saws for use primarily in forestry. It also gives the corresponding test methods.

ISO 7914 specifies the minimum clearances and related dimensions for the front and rear handles of portable, hand-held chain-saws with combustion engines.

This document specifies the minimum requirements for the materials, design, construction and workmanship, manufacturing processes, examinations and testing at time of manufacture for refillable, seamless, stainless steel gas cylinders with water capacities up to and including 150 l.
It is applicable to cylinders for compressed, liquefied and dissolved gases with a maximum actual tensile strength, Rma, of less than 1 100 MPa.
NOTE If so desired, cylinders of water capacity between 150 l and 450 l can be manufactured to be in full conformance to this document.

This document specifies a method to determine the content of free pentachlorophenol (PCP), and tetrachlorophenol- (TeCP), trichlorophenol- (TriCP), dichlorophenol- (DiCP), monochlorophenol- (MoCP) isomers. The procedure also releases chlorophenols from salts and esters. The method is applicable to natural and synthetic textiles, including coated fabrics and clothing components (e.g. buttons, zippers, etc.).

This document specifies the composition, property requirements and dimensional tolerances for copper alloy hollow rod, finally produced by drawing or extruding, specifically intended for free machining purposes.
NOTE Hollow products having an outside diameter greater than 80 mm and/or a wall thickness less than 2 mm are most frequently specified in EN 12449.
The sampling procedures, the methods of test for verification of conformity to the requirements of this document, are also specified.

This document specifies the composition, property requirements and dimensional tolerances for copper alloy rod in the shape of circles, squares, hexagons or octagons, finally produced by drawing or extruding intended for general purposes.
The sampling procedures and the methods of test for verification of conformity to the requirements of this document are also specified.

This document specifies the composition, property requirements and dimensional tolerances for copper alloy rod, in the shape of circles, squares, hexagons or octagons, finally produced by drawing or extruding, especially intended for free machining purposes.
The sampling procedures and the methods of test for verification of conformity to the requirements of this document are also specified.

This document specifies the composition, property requirements and dimensional tolerances for forging stock of copper and copper alloys.
The sampling procedures and the methods of test for verification of conformity to the requirements of this document are also specified.

This document specifies the composition, property requirements and dimensional tolerances for copper alloy wire, finally produced by drawing, rolling or extruding, intended for general purposes, spring and fastener manufacturing applications.
The sampling procedures and the methods of test for verification of conformity to the requirements of this document are also specified..

This document specifies the composition, property requirements and dimensional tolerances for copper alloy profiles including L-, T-, U-shaped cross-sections, and bars, finally produced by drawing or extruding.
This document applies to profiles with L-, T- and U-shaped cross-sections which would fit within a circumscribing circle of a maximum 180 mm diameter and to bars with thicknesses from 3 mm up to and including 60 mm and with widths from 6 mm up to and including 120 mm.
The sampling procedures, the methods of test for verification of conformity to the requirements of this document, are also specified.

This document specifies the composition, the property requirements and tolerances on dimensions and form for copper and copper alloy die and hand forgings.
The sampling procedures, the methods of test for verification of conformity to the requirements of this document, and the delivery conditions are also specified.

This document specifies requirements and test methods for the fire safety of candle accessories, as well as safety information ‎and requirements on how safety information will be displayed. The safety requirements and test methods specified in this document are intended to cover the most common risks. This document does not specify requirements or test methods for uncommon risks arising from the unforeseen combination of accessories and candles.

This document specifies the measurement of forces by means of load cells carried out for geotechnical monitoring. For measuring forces by means of strain or displacement gauges, see ISO 18674-7.
General rules of performance monitoring of the ground, of structures interacting with the ground, of geotechnical fills and of geotechnical works are presented in ISO 18674-1:2015.
This document is applicable to:
— performance monitoring of geotechnical structures such as anchors, end-anchored rock bolts, tiebacks, piles, struts, props and steel linings;
— checking geotechnical designs and adjustment of construction in connection with the Observational Design procedure;
— evaluating stability during or after construction.
Not subject of this document are devices where the load is purposely applied to geotechnical structures in the wake of geotechnical field tests such as calibrated hydraulic jacks for pull-out tests of anchors or load tests of piles.
NOTE This document fulfils the requirements for the performance monitoring of the ground, of structures interacting with the ground and of geotechnical works by the means of load cells as part of the geotechnical
investigation and testing in accordance with References [1] and [2].

This document specifies a procedure for artificial ageing of flexible sheets for underlays which are used under discontinuous roof coverings by means of UV-radiation, elevated temperature in combination with high relative humidity and elevated temperature in combination with accelerated air-speed.

This document specifies instructions for mounting and fixing for reaction to fire testing of factory-made underlays for discontinuous roof coverings and walls and contains provisions for direct and extended application rules.

This part of ISO 20766-5 specifies general requirements and definitions of liquefied petroleum gas fuel
component (fuel selection system and electrical installations, intended for use on the types of motor
vehicles as defined in ISO 3833.
It also provides general design principles, and specifies requirements for instructions and marking.
This part of ISO 20766-5 is applicable to vehicles (mono-fuel, bi-fuel or dual-fuel applications) using
gaseous fuels in accordance with ISO 9162. It is not applicable to the following:
a) fuel containers;
b) stationary gas engines;
c) container mounting hardware;
d) refueling receptacles.
NOTE 1 It is recognized that miscellaneous components not specifically addressed herein can be examined for
compliance with the criteria of any applicable part of ISO 20766, including testing to the appropriate functional
tests.
NOTE 2 All references to pressure in this document are considered gauge pressures unless otherwise
specified.
NOTE 3 This document applies to devices which have a service pressure in the range of 110 kPa (Butane rich
at 20°C) and 840 kPa (Propane rich at 20°C), hereinafter referred to in this document. Other service pressures
can be accommodated by adjusting the pressure by the appropriate factor (ratio).

ISO/IEEE 11073-10415:2010 establishes a normative definition of communication between personal telehealth weighing scale devices and computer engines (e.g., cell phones, personal computers, personal health appliances, and set top boxes) in a manner that enables plug-and-play interoperability. It leverages appropriate portions of existing standards, including ISO/IEEE 11073 terminology, information models, application profile standards, and transport standards. It specifies the use of specific term codes, formats, and behaviours in telehealth environments restricting optionality in base frameworks in favour of interoperability. This International Standard defines a common core of communication functionality for personal telehealth weighing scales. ISO/IEEE 11073-10415:2010 addresses a need for an openly defined, independent standard for controlling information exchange to and from personal health devices and computer engines.

ISO/IEEE 11073-10407:2010 establishes a normative definition of communication between personal telehealth blood pressure monitor devices and computer engines (e.g., cell phones, personal computers, personal health appliances, and set top boxes) in a manner that enables plug-and-play interoperability. It leverages appropriate portions of existing standards including ISO/IEEE 11073 terminology, information models, application profile standards, and transport standards. It specifies the use of specific term codes, formats, and behaviours in telehealth environments restricting optionality in base frameworks in favour of interoperability. This International Standard defines a common core of communication functionality for personal telehealth blood pressure monitors. ISO/IEEE 11073-10407:2010 addresses a need for an openly defined, independent standard for controlling information exchange to and from personal health devices and computer engines.

ISO/IEEE 11073-10408:2010 establishes a normative definition of communication between personal telehealth thermometer devices and computer engines (e.g., cell phones, personal computers, personal health appliances, and set top boxes) in a manner that enables plug-and-play interoperability. It leverages appropriate portions of existing standards, including ISO/IEEE 11073 terminology, information models, application profile standards, and transport standards. It specifies the use of specific term codes, formats, and behaviours in telehealth environments restricting optionality in base frameworks in favour of interoperability. This International Standard defines a common core of communication functionality for personal telehealth thermometers. ISO/IEEE 11073-10408:2010 addresses a need for an openly defined, independent standard for controlling information exchange to and from personal health devices and computer engines.

Within the context of the ISO/IEEE 11073 family of standards for device communication, ISO/IEEE 11073-10420:2012 establishes a normative definition of the communication between personal body composition analyzing devices and managers (e.g. cell phones, personal computers, personal health appliances, set top boxes) in a manner that enables plug-and-play interoperability. It leverages appropriate portions of existing standards including ISO/IEEE 11073 terminology and IEEE 11073-20601 information models. It specifies the use of specific term codes, formats, and behaviors in telehealth environments restricting optionality in base frameworks in favor of interoperability. ISO/IEEE 11073-10420:2012 defines a common core of communication functionality for personal telehealth body composition analyzer devices. In this context, body composition analyzer devices are being used broadly to cover body composition analyzer devices that measure body impedances, and compute the various body components including body fat from the impedance.

ISO/IEEE 11073-10404:2010 establishes a normative definition of communication between personal telehealth pulse oximeter devices and computer engines (e.g., cell phones, personal computers, personal health appliances, set top boxes) in a manner that enables plug-and-play (PnP) interoperability. It leverages appropriate portions of existing standards including ISO/IEEE 11073 terminology, information models, application profile standards and transport standards. It specifies the use of specific term codes, formats and behaviours in telehealth environments restricting optionality in base frameworks in favour of interoperability. ISO/IEEE 11073-10404:2010 defines a common core of communication functionality for personal telehealth pulse oximeters and addresses a need for an openly defined, independent standard for controlling information exchange to and from personal health devices and computer engines.

Within the context of the ISO/IEEE 11073 family of standards for device communication, this standard defines a common framework for making an abstract model of personal health data available in transport-independent transfer syntax required to establish logical connections between systems and to provide presentation capabilities and services needed to perform communication tasks. The protocol is optimized to personal health usage requirements and leverages commonly used methods and tools wherever possible.

This document when used together with ISO 16119-1 specifies the requirements and the means for
verification of the design and performance of Unmanned Aerial Spraying Systems (UASS) mounted on
Unmanned Aircraft Systems (UAS) for application of Plant Protection Products (PPPs) in agriculture,
forestry, turf and amenity areas, with regard to minimising the potential risk of environmental
contamination during use, including misuse foreseeable by the UASS manufacturer.
The requirements of this part of ISO 23117 take precedence over those of ISO 16119-1. The ISO 23117
standard series does not cover human safety aspects of UASS’s or safety aspects concerning UAS’s,
remote pilots or bystanders.
This part of ISO 23117 is not applicable to UASSs manufactured before the date of its publication.

This document specifies a method of determining the water vapour transmission rate, water vapour permeance, water vapour permeability and water vapour diffusion resistance index for rigid cellular
plastics.
The scope of this method provides for the testing of rigid cellular materials that have thicknesses from 10 mm upwards and which may, as an integral part of the material, contain natural skins or adhered facings of some different material.
Three different sets of temperature and humidity conditions are provided, as follows:
a) 38 °C and a relative-humidity gradient across the test specimen of 0 % to 88 %
b) 23 °C and a relative-humidity gradient across the test specimen of 0 % to 85 %
c) 23 °C and a relative-humidity gradient across the test specimen of 0 % to of 50 %
The results obtained by this method are suitable for design purposes and production control, and for inclusion in product specifications.
The method is suitable for materials which have water vapour transmission rates in the range 3 μg/ (m2⋅s) to 1400 μg/(m2⋅s).

This part of ISO 19901 provides requirements, guidance, and information for the design and, fabrication of topsides structure for offshore structures. It complements ISO 19902, ISO 19903, ISO 19904-1,
ISO 19905-1 and ISO 19906, which provide requirements for various forms of substructure.
The actions on topsides structure, and the action effects in the structural components are derived from this part of ISO 19901, where necessary in combination with other International Standards in the ISO 19901 series.
The resistances of non-cylindrical structural components of the topsides structure can be determined by the use of national building standards, as specified in this part of ISO 19901.
The resistance of cylindrical structural components are to be in accordance with ISO 19902 but may be according to national building standards, as specified in this part of ISO 19901.
This part of ISO 19901 is applicable to the following:
— topsides of fixed offshore structures;
— discrete structural units placed on the hull structures of floating offshore structures and mobile offshore units;
— topsides of arctic offshore structures, excluding winterization ( ISO 19906).
If any part of the topsides structure forms part of the primary structure of the overall structural system which resists global platform actions, the requirements of this part of ISO 19901 are supplemented with applicable requirements in ISO 19902, ISO 19903, ISO 19904-1, ISO 19905-1 and ISO 19906.
This part of ISO 19901 does not apply to those aspects of topsides structure that form part of the overall structural system of floating offshore structures and mobile offshore units that are governed by the rules of a recognized certifying authority and which are within class rules.
The fire and explosion provisions of this part of ISO 19901 can however be applied to those parts of the hulls of floating offshore structures and mobile offshore units that contain hydrocarbon processing, piping or storage.
This part of ISO 19901 addresses the following aspects of topsides structure:
— design, fabrication, installation and modification;
— prevention, control and assessment of fire, explosions and other accidental events.
NOTE Requirements for structural integrity management are presented in ISO 19901-9.
This part of ISO 19901 applies to structural components including the following:
— primary and secondary structure in decks, module support frames and modules;
— flare structures;

— crane pedestal and other crane support arrangements;
— helicopter landing decks (helidecks);
— permanent bridges between separate offshore structures;
— masts, towers and booms on offshore structures.

The primary purpose of this document is to provide minimum acceptable criteria required to establish a procedure for retrospective dosimetry by electron paramagnetic resonance spectroscopy and to report the results.
The second purpose is to facilitate the comparison of measurements related to absorbed dose estimation obtained in different laboratories.
This document covers the determination of absorbed dose in the measured material. It does not cover the calculation of dose to organs or to the body. It covers measurements in both biological and inanimate samples, and specifically:
a) based on inanimate environmental materials like glass, plastics, clothing fabrics, saccharides, etc., usually made at X-band microwave frequencies (8 GHz to 12 GHz);
b) in vitro tooth enamel using concentrated enamel in a sample tube, usually employing X-band frequency, but higher frequencies are also being considered;
c) in vivo tooth dosimetry, currently using L-band (1 GHz to 2 GHz), but higher frequencies are also being considered;
d) in vitro nail dosimetry using nail clippings measured principally at X-band, but higher frequencies are also being considered;
e) in vivo nail dosimetry with the measurements made at X-band on the intact finger or toe;
f) in vitro measurements of bone, usually employing X-band frequency, but higher frequencies are also being considered.
For biological samples, in vitro measurements are carried out in samples after their removal from the person or animal and under laboratory conditions, whereas the measurements in vivo are carried out without sample removal and may take place under field conditions.
NOTE The dose referred to in this document is the absorbed dose of ionizing radiation in the measured materials.

The purpose of this document is to provide minimum criteria required for quality assurance and quality control, evaluation of the performance and to facilitate the comparison of measurements related to absorbed dose estimation obtained in different laboratories applying ex vivo X-band EPR spectroscopy with human tooth enamel.
This document covers the determination of absorbed dose in tooth enamel (hydroxyapatite). It does not cover the calculation of dose to organs or to the body.
This document addresses:
a) responsibilities of the customer and laboratory;
b) confidentiality and ethical considerations;
c) laboratory safety requirements;
d) the measurement apparatus;
e) preparation of samples;
f) measurement of samples and EPR signal evaluation;
g) calibration of EPR dose response;
h) dose uncertainty and performance test;
i) quality assurance and control.

This document focuses on monitoring the activity concentrations of radioactive gases. They allow the calculation of the activity releases, in the gaseous effluent discharge from facilities producing positron emitting radionuclides and radiopharmaceuticals. Such facilities produce short-lived radionuclides used for medical purposes or research and can release gases typically including, but not limited to 18F, 11C, 15O and 13N. These facilities include accelerators, radiopharmacies, hospitals and universities. This document provides performance‑based criteria for the design and use of air monitoring equipment including probes, transport lines, sample monitoring instruments, and gas flow measuring methods. This document also provides information on monitoring program objectives, quality assurance, development of air monitoring control action levels, system optimisation and system performance verification.
The goal of achieving an unbiased measurement is accomplished either by direct (in-line) measurement on the exhaust stream or with samples extracted from the exhaust stream (bypass), provided that the radioactive gases are well mixed in the airstream. This document sets forth performance criteria and recommendations to assist in obtaining valid measurements.
NOTE 1 The criteria and recommendations of this document are aimed at monitoring which is conducted for regulatory compliance and system control. If existing air monitoring systems were not designed according to the performance criteria and recommendations of this document, an evaluation of the performance of the system is advised. If deficiencies are discovered based on a performance evaluation, a determination of the need for a system retrofit is to be made and corrective actions adopted where practicable.
NOTE 2 The criteria and recommendations of this document apply under both normal and off‑normal operating conditions, provided that these conditions do not include production of aerosols or vapours. If the normal and/or off-normal conditions produce aerosols and vapours, then the aerosol collection principles of ISO 2889 also apply.

This document specifies minimum nuclear criticality safety training requirements for operations staff, operations supervisors, and management.
This document is applicable to areas, processes or facilities containing quantities of fissile material for which nuclear criticality safety assessment is required as defined in ISO 1709.
This document is not applicable to the transport of fissile materials outside the boundaries of nuclear establishments.

This document specifies the characteristics of reference measurement standards of radioactive surface contamination, traceable to national measurement standards, for the calibration of surface contamination monitors. This document relates to alpha-emitters, beta-emitters, and photon emitters of maximum photon energy not greater than 1,5 MeV.
It does not describe the procedures involved in the use of these reference measurement standards for the calibration of surface contamination monitors. Such procedures are specified in IEC 60325[6], IEC 62363[7], and other documents.
NOTE Since some of the proposed photon standards include filters, the photon standards are to be regarded as reference measurement standards of photons of a particular energy range and not as reference measurement standards of a particular radionuclide. For example, a 241Am source with the recommended filtration does not emit from the surface the alpha particles or characteristic low-energy L X-ray photons associated with the decay of the nuclide. It is designed to be a reference measurement standard that emits photons with an average energy of approximately 60 keV.
This document also specifies preferred reference radiations for the calibration of surface contamination monitors. These reference radiations are realized in the form of adequately characterized large area sources specified, without exception, in terms of surface emission rate and activity which are traceable to national standards.

This document specifies the different leakage test methods for sealed sources. It gives a comprehensive set of procedures using radioactive and non-radioactive means.
This document applies to the following situations:
— leakage testing of test sources following design classification testing in accordance with ISO 2919[1];
— production quality control testing of sealed sources;
— periodic inspections of the sealed sources performed at regular intervals, during the working life.
Annex A of this document gives guidance to the user in the choice of the most suitable method(s) according to situation and source type.
It is recognized that there can be circumstances where special tests, not described in this document, are required.
It is emphasized, however, that insofar as production, use, storage and transport of sealed radioactive sources are concerned, compliance with this document is no substitute for complying with the requirements of the relevant IAEA regulations[17] and other relevant national regulations. It is also recognized that countries can enact statutory regulations which specify exemptions for tests, according to sealed source type, design, working environment, and activity (e.g., for very low activity reference sources where the total activity is less than the leakage test limit)

This International Standard provides requirements and guidance regarding the use of CAAS for operations. Requirements and guidance on CAAS design are provided in the IEC 60860:2014.
This International Standard is applicable to operations with fissile materials outside nuclear reactors but within the boundaries of nuclear establishments.
This International Standard applies when a need for CAAS has been established. As a consequence, the need for CAAS is not covered by this International Standard but information about the need for CAAS is
given in annex C.
This International Standard does not include details of administrative steps, which are considered as prerogatives of the management system (ISO 14943 provides details of administrative steps).
Details of nuclear accident dosimetry and personnel exposure evaluations are not within the scope of this International Standard.
This International Standard is concerned with gamma and neutron radiation rate-sensing systems.
Specific detection criteria can be met with integrating systems or with systems detecting either neutron or gamma radiation, and analogous considerations apply.

This standard provides the specification of the Common Distributed Application Protocol (CDAP).
CDAP enables distributed applications to deal with communications at an object level, rather than
forcing applications to explicitly deal with serialization and input/output operations. CDAP provides
the application protocol component of a Distributed Application Facility (DAF).[3] CDAP provides
a straightforward and unifying approach to sharing data over a network without having to create
specialized protocols. This standard describes the following: an overview of CDAP; the specification
of CDAP; a description of policies, in the specific sense introduced in the text; and some notes on CDAP
context.

This document specifies requirements and test methods for evaluation of the permanence and
durability of writing, printing, and copying on paper stored in libraries, archives, and other protected
environments for long periods of time, in which the information contents of images must be retained
but not necessarily the full artistic quality.
It is applicable to:
— images on white permanent paper in accordance with ISO 9706 or ISO 11108;
— recording obtained from pens, stamp pads, copying machines and printers (that can produce
monocoloured and/or multicoloured images)
It does not apply to:
— documents stored under harmful conditions, such as high humidity that promotes microbiological
attack, excessive heat, radiation (e.g. light), high levels of pollutants, or the influence of water.
Since documents are kept in non-protected environments before being transferred to protected
environments, resistance to water and light is, however, of importance;
— legal documentation, e.g. banking documents, where the authenticity is of primary interest;
— documents where the information contents are influenced by small colour changes;
— documents within the scope of ISO/TC 42, Photography.

This standard provides a method for evaluating the resonance vibration frequency of multi-copter UA
only. The frequency of the rotor means the frequency within the operating frequency range, and the
frequency of the main body means the global mode frequency. This standard specifies a method to
avoid design of UA that the resonance occurs generated by the coincidence of the natural frequency of
the UA body and the rotational frequency of the rotor.
This standard relates to multi-copter UA weighing less than 150kg.

This document specifies the requirements for demountable machines and trailers, including road-rail trailers – henceforward referred to as ‘machines’.
NOTE Trailers, including road-rail trailers, are considered as machines because they are moved along the track by powered machines.
This document specifies the requirements to deal with the common hazards presented by their use on the railway during transport, assembly and installation, commissioning, travelling and working on track, use including setting, programming, and process changeover, operation, cleaning, fault finding, maintenance and de-commissioning of the machines and associated equipment when they are used as intended and under conditions of misuse which are reasonably foreseeable.
These machines are not designed nor intended to operate signalling and control systems and are only designed and intended to work and travel under special operating conditions in accordance with those permitted by the infrastructure managers. These machines are not permitted to run on railway lines open to normal traffic.
NOTE Other rail mounted railway maintenance and infrastructure inspection machines are dealt with in other European standards, see Technical Report CEN/TR 17498:2020.
This document is also applicable to machines and associated equipment that in working mode are partly supported on the ballast or the formation.
The requirements in this document are based on the assumption that the machines are used, operated and maintained by skilled person(s).
This document does not apply to the following:
— requirements for quality of the work or performance of the machine;
— use of separate equipment temporarily mounted on machines;
— machines that utilize the overhead contact line system for traction purposes or as a power source;
— hazards due to air pressure caused by the passing of high-speed trains at more than 200 km/h;
— operation subject to special rules, e.g. potentially explosive atmospheres;
— hazards due to natural causes, e.g. earthquake, lightning, flooding;
— working methods;
— operation in severe working conditions requiring special measures, e.g. corrosive environments, contaminating environments, strong magnetic fields;
— hazards occurring when used to handle suspended loads which may swing freely.

This document specifies the general safety requirements for demountable machines and trailers, including road-rail trailers – henceforward referred to as ‘machines, for use when travelling and working on railway track.
NOTE Trailers, including road-rail trailers, are considered as machines because they are moved along the track by powered machines.
This document specifies the requirements to deal with the common hazards presented by their use on the railway during transport, assembly and installation, commissioning, travelling and working on track, use including setting, programming, and process changeover, operation, cleaning, fault finding, maintenance and de-commissioning of the machines and associated equipment when they are used as intended and under conditions of misuse which are reasonably foreseeable.
These machines will not run on railway lines open to normal traffic.
NOTE Other rail mounted railway maintenance and infrastructure inspection machines are dealt with in other European standards, see Technical Report CEN/TR 17498:2020.
This document is also applicable to machines and associated equipment that in working mode are partly supported on the ballast or the formation.
The requirements in this document are based on the assumption that the machines are used, operated and maintained by skilled person(s).
This document does not apply to the following:
— requirements for quality of the work or performance of the machine;
— use of separate equipment temporarily mounted on machines;
— machines that utilize external power supplies such as the overhead contact line system for traction purposes or as a power source;
— hazards due to air pressure caused by the passing of high-speed trains at more than 200 km/h;
— operation subject to special rules, e.g. potentially explosive atmospheres;
— hazards due to natural causes, e.g. earthquake, lightning, flooding;
— working methods;
— operation in severe working conditions requiring special measures, e.g. corrosive environments, contaminating environments, strong magnetic fields;
— hazards occurring when used to handle suspended loads which may swing freely.

This document specifies the requirements and testing of overhead guards, and operators leg and foot protection for industrial trucks and overturning testing of industrial variable reach trucks with operator position not protected by the boom (hereafter referred to as trucks) requiring an overhead guard according to ISO 3691-1 and ISO 3691-2.

This international standard provides an overview of the segmentation process for medical image-based
modeling of human bone. This document provides a standardized process to improve the performance
of human bone segmentation.
This document is also applicable to medical 3D printing systems that include medical 3D modeling
capabilities.

This PAS gives guidance on establishing a decision-making framework for sharing
data and information services in smart cities.
It covers:
a) types of data in smart cities;
b) establishing a data sharing culture;
c) data value chain – roles and responsibilities;
d) purposes for data use;
e) assessing data states;
f) defining access rights for data; and
g) data formats/format of transportation.
This PAS aims to support the sharing of data and information services within
cities. For some cities there will also be a need to establish specific data sharing
agreements, particularly where data is being shared by multiple organizations
at once.
This PAS supports a transparent approach to making decisions and creating
specific data sharing agreements in order to fully realise the benefits and value
of data and information services in a city.
Missing data or misinterpretation of data can lead to the wrong actions being
taken by city decision-makers. A decision-making framework for sharing data can
help ensure that they have the best overall data on which to base decisions.
This PAS does not cover:
a) national security issues;
b) good practice for use of data by the citizen;
c) existing interoperability agreements between cities;
d) defining application programming interfaces (API) networks; or
e) any data sharing rules and regulations specific to a particular jurisdiction.
It is assumed that a security-minded approach to data sharing is used by cities.
NOTE 1 Requirements on establishing and implementing a security-minded approach
to data sharing are specified in PAS 185 (in preparation).
NOTE 2 Further details on the areas not covered in this PAS, including information on
relevant standards publications, are given in Annex A.
This PAS is for use by decision-makers in smart cities from the public, private and
third sectors. It is also of interest to any city organization wishing to share data.

This document elaborates requirements and recommendations for certifications schemes based on
24773-1, which are specific to the domain of software engineering.

This part of ISO 6742 is applicable to retro-reflective devices used on cycles intended to be used on public roads and, especially, bicycles complying with ISO 4210 and ISO 8098.

This part of ISO 6742 specifies photometric and physical requirements of retro-reflective devices.

This part of ISO 6742 is applicable to lighting and retro-reflective devices used on cycles intended to be used on public roads and, especially, bicycles complying with ISO 4210 and ISO 8098. 
This part of ISO 6742 specifies the safety requirements and test methods of lighting and retro-reflective  devices for fastening devices, control, (guidelines for maintenance), instructions for mounting and use.

This part of ISO 6742 is applicable to lighting systems used on cycles intended to be used on public roads  and, especially, bicycles complying with ISO 4210 and ISO 8098. 
This part of ISO 6742 specifies requirements and test methods for the performance of lighting systems  powered by the cycle’s movement. It applies to light devices complying with ISO 6742-1. Lighting systems include lighting devices and power supplied by cycle's movement such as generator.

This part of ISO 6742 is applicable to lighting systems used on cycles intended to be used on public roads  and, especially, bicycles complying with ISO 4210 and ISO 8098. 
This part of ISO 6742 specifies requirements and test methods for the performance of lighting systems not powered by the cycle’s movement. It applies to light devices complying with ISO 6742-1. Lighting systems include lighting devices and power not supplied by cycle's movement such as battery.

This document gives requirements, guidelines and recommendations for using additive manufacturing (AM) in product design.
It is applicable during the design of all types of products, devices, systems, components or parts that are fabricated by any type of AM system. This document helps determine which design considerations can be utilized in a design project or to take advantage of the capabilities of an AM process.
General guidance and identification of issues are supported, but specific design solutions and processspecific or material-specific data are not supported.
The intended audience comprises three types of users:
— designers who are designing products to be fabricated in an AM system and their managers;
— students who are learning mechanical design and computer-aided design;
— developers of AM design guidelines and design guidance systems.

This document specifies a test method for the determination of the electrical conductivity in anhydrous fuel ethanol (volume fraction maximum of 1 % water content) and its mixtures with hydrocarbons, and for hydrous fuel ethanol (volume fraction maximum of 5 % water content), in the range of 0,3 μS cm−1 to 5 μS cm−1 at a temperature of 25 °C. The electrical conductivity is determined from the measured electrical conductance.

This document describes the procedure for determining the resistance of an organic coating on a metallic substrate to humid atmospheres containing sulfur dioxide.

This document specifies the classifications, requirements and test methods for unplasticized poly(vinyl chloride) (PVC-U) profiles covered with foils designed for external uses bonded with adhesives which are intended to be used for the fabrication of windows and doors.
NOTE 1 For editorial reasons, in this document, the term “window” is used for window/door.
NOTE 2 Profiles made from PVC-U materials with reinforcements (e.g. glass fibres) are not covered by this document.
NOTE 3 For the purpose of production control, test methods other than those specified in this document can be used.

This document covers topside systems for fixed or floating offshore projects not covered by class requirements. This document is also applicable for hull systems and onshore projects provided that there is no cost increase in its application. This document is not to be considered or confused with class
rules from classification societies. For verification of compliance with class rules, it is best to use the respective class rules from class societies.
This document was developed based on major international standards to comply with requirements of shelf regulations of UK, US, Norway and Australia. Overall the requirements outlined in this document will meet most of the specified regulatory requirements. Exemptions where requirements in common standards for tertiary items applied in offshore oil & gas projects are not met in this document are clearly stated.
This document provides requirements to dimensions of the items but does not include requirements to clearances with other structures. Material selection is limited to references with more detailed information to be found in this document, material requirement in clauses 6 and 7.
The following tertiary outfitting designs for equipment items are covered in this document:
— handrails;
— safety gate;
— stairs;
— spiral stairs;
— vertical ladder;
— grating;
— manhole;
— connection method.

This document specifies the standard shapes and dimensions of monorail beams and padeyes and provides material requirements for these bulk materials.
This document is applicable to the structures of monorail beams and padeyes for topside systems for fixed or floating offshore projects.

This document provides criteria for quality assurance and quality control, evaluation of the performance, and the accreditation of biological dosimetry by cytogenetic service laboratories using the dicentric assay performed with manual scoring.
This document addresses
a) the confidentiality of personal information, for the requestor and the service laboratory,
b) the laboratory safety requirements,
c) the calibration sources and calibration dose ranges useful for establishing the reference dose-effect curves that contribute to the dose estimation from unstable chromosome aberration frequency and the detection limit,
d) the scoring procedure for unstable chromosome aberrations used for biological dosimetry,
e) the criteria for converting a measured aberration frequency into an estimate of absorbed dose,
f) the reporting of results,
g) the quality assurance and quality control,
h) informative annexes containing sample instructions for requestor, sample questionnaire, sample report, fitting of the low dose-response curve by the method of maximum likelihood and calculating the error of the dose estimate, odds ratio method for cases of suspected exposure to a low dose, a sample calculation and sample data sheet for recording aberrations.

This document provides general terms and definitions used in the textile value chain related to environmental aspects including design, production, retail, use and reuse, recycling processes and
disposal.
This document is applicable to all stakeholders in the textile value chain regardless of size and location.
Stakeholders will benefit from a common terminology for addressing issues related to environmental aspects of textile products and processes.
The aim of this document is to enable future standardization work related to environmental sustainability in the textile value chain, taking into account the aspects and definitions provided in ISO Guide 82. Definitions are as far as possible adapted from existing standards but when the intention
or definition is unclear additional context or definitions are updated or added.

This document is applicable to the system engineering of bogies and running gear for rail vehicles, including those vehicles intended to operate under the Interoperability Directives.
It specifies the requirements to achieve:
— a satisfactory design of bogie or running gear
— validation of the design within its operating envelope
— a maintenance plan
to ensure the relevant performance and safety criteria are maintained.
The system engineering process addresses only the design, validation and maintenance of bogies and running gear. No requirements are set for other systems components that are attached to the bogies or running gear, except to establish that a satisfactory interface has been provided.
NOTE Specifications that relate to bogies and running gear can only be considered in the context of a specific vehicle application. Therefore, the performance, including safety, can relate only to the bogies and running gear as part of a vehicle configuration and not to the individual elements of the bogies or running gear.

This document specifies one method for the desalination by poultices of porous inorganic materials constituting cultural heritage. The desalination methodology can be applied to salt-loaded porous inorganic materials either affected by salt weathering and/or to allow conservation treatments incompatible with soluble salt(s) contamination, or to prevent salt damage where contamination is known to be present. In all cases the desalination aims to decrease salt content.
Furthermore, this document gives the fundamental requirements for the desalination operation and guidelines for the choice of the most appropriate poultice components according to the characteristics of the substrate and types/quantities of salt(s) present in order to optimize the desalination process.

This document specifies requirements and test methods for materials, preformed sterile barrier systems, sterile barrier systems and packaging systems that are intended to maintain sterility of terminally sterilized medical devices until the point of use.
It is applicable to industry, to health care facilities, and to wherever medical devices are placed in sterile barrier systems and sterilized.
It does not cover all requirements for sterile barrier systems and packaging systems for medical devices that are manufactured aseptically. Additional requirements can be necessary for drug/device combinations.
It does not describe a quality assurance system for control of all stages of manufacture.
It does not apply to packaging materials and/or systems used to contain a contaminated medical device during transportation of the item to the site of reprocessing or disposal.

This document gives the terminology, and basic concepts of association including objective functions and association constraints and material offset shifting.
This document is not intended to define association defaults and GPS syntax which are defined in other standards.
NOTE The association can be used to establish for example:
— a datum;
— a reference feature in link with a geometrical specification or to a surface texture specification,
— any dimensional characteristic,
— an intersection plane, an orientation plane, a collection plane or a direction feature.

This part of ISO/IEC 24789 comprises a methodology for determining a Test Plan to simulate a card's service life.
The purpose of ISO/IEC 24789 is to provide guidance on methods and their use to simulate a card's service life. This part of ISO/IEC 24789 comprises a methodology for determining a Test Plan to simulate a card's service life. The methodology defines two parameters of card service life: the expected card
service life in years and the average number of uses per day.
The two parts of ISO/IEC 24789 together along with ISO/IEC 10373-1, ISO/IEC 10373-2, and ISO/IEC 18328-2 describe the evaluation methods to be used and their criteria.
ISO/IEC 24789 was originally developed for ID-1 cards conforming to ISO/IEC 7810 but might be found useful in whole or in part for other types and form factors.
References are given to the corresponding methods of evaluation in ISO/IEC 24789-2 and elsewhere.

This part of ISO/IEC 24789 comprises methods of evaluation for ID-1 identification card service life in the applications referred to in ISO/IEC 24789-1.
NOTE 1 The listed evaluation methods represent available tests. It is not a list of mandatory tests which has to be performed. The selection of mandatory tests is done in ISO/IEC 24789-1.
NOTE 2 For the convenience of certain users, non-S.I. equivalents are given for some quantity values where these are in common use in the ID card industry. These equivalents appear in parentheses and are for information
only.

This document provides additional national and regional requirements applicable to combustion engine powered pedestrian-controlled and ride-on snow throwers. It is intended to be used with ISO 8437-1, ISO 8437-2 and ISO 8437-3 to achieve the full requirements and means for pedestrian-controlled and ride-on snow throwers.
The ISO 8437 series deals with significant hazards, hazardous situations and events relevant to snow throwers used as intended and under the conditions reasonably foreseeable by the manufacturer.
It does not apply to the following:
— electrically powered and battery powered snow throwers;
— hand-held snow throwers;
— airport or highway snow removal machines and equipment;
— machines intended for use in potentially explosive atmospheres.
It does not deal with hazards related to the following:
— battery circuits exceeding 42 V;
— mains connected starting motor;
— magneto grounding circuits;
— working environment;
— electromagnetic compatibility.
The ISO 8437 series is not applicable to machines that were manufactured before the date of its publication.

This document specifies test procedures for measuring the reference energy consumption and reference range of purely electrically propelled passenger cars and commercial vehicles of a maximum authorized total mass (in accordance with ISO 1176) of 3 500 kg and a maximum speed of 70 km/h or
more.

This document establishes requirements and test procedures for determining the performance of spark arrester exhaust systems of multi position small engines used in portable (hand-held) applications, such as chain saws, brush cutters, grass trimmers, pole pruners, edgers and similar shaft-drive machines, hedge trimmers and hand-held and back-pack blowers.
It is not applicable to spark arresters used in vehicles or stationary equipment.

This document specifies methods to evaluate the performance of a specific class of analytical instruments—known as Compliance Monitoring Devices (CMDs). CMDs are designed and intended to examine ballast water to determine whether a sample meets or exceeds limits for the concentration of
living or viable organisms, such as those limits specified by the International Maritime Organization (IMO) D-2 Discharge Standard (DS)[1] or another DS adopted by national or regional authorities. For the performance metrics trueness and precision, test methods evaluate the agreement between the
CMD and a reference method. Both trueness and precision consider only simple, categorical outcomes (e.g., “meets” or “exceeds” the DS). The performance metric reliability is quantified by the frequency of
instances when the CMD is not available or is not operating as expected.
The set of tests and trials is based upon the CMD manufacturer claims—such as the DS group(s) targeted by the CMD—and known limitations, including those based upon the salinity of the sample water.
NOTE Additional tests and trials, if required by the end-user, may follow this general test method. Guidance on determining experimental power is in the body of this text (7.5), and additional, optional factors for
consideration are included as an informative Annex.
The standard does not set or recommend success criteria of any performance metric, as these are appropriately defined by the end-users. This document provides guidance for customizing the tests and
trials necessary to evaluate the claims of the manufacturer or to address particular factors of interest to the end-users.

This document specifies methods for a benefit and risk assessment for sports, for recreational and sports facilities including equipment and gives guidelines for benefit and risk assessment within this field. It includes examples for injury thresholds

This document describes the functional requirements for pipelines for maximum operating pressure over 16 bar. This document also describes the mechanical requirements for pipework in stations with a maximum operating pressure greater than 16 bar.
NOTE Welding requirements are described in EN 12732. Functional requirements for stations are given in EN 1776, EN 1918-5, EN 12186, and EN 12583.
This document is applicable for transporting gas via onshore high-pressure steel pipeline infrastructures, where the following applies:
— onshore:
• from the point where the pipeline first crosses what is normally accepted as battery limit between onshore and offshore, and that is not located within commercial or industrial premises as an integral part of the industrial process on these premises except for any pipelines and facilities supplying such premises;
• pipeline system with a starting point onshore, also when parts of the pipeline system on the mainland subsequently cross fjords, lakes, etc.
— high pressure: gas with a maximum operating pressure over 16 bar and a design temperature between −40 °C and 120 °C.
— steel pipeline infrastructure: infrastructure consisting of pipeline components, such as pipes, valves, couplings and other equipment, restricted to components made of unalloyed or low alloyed carbon steel and joined by welds, flanges or mechanical couplings.
— gas: non-corrosive natural gas, biomethane gas, hydrogen gas and mixtures of these gases where technical evaluation has ensured that operating conditions or constituents or properties of the gas do not affect the safe operation of the pipeline.
Gas infrastructures covered by this document begin after the gas producer's metering station. The functional demarcation of the pipeline system within a plant area is usually directly after the first isolating valve of the installation, but can differ in particular situations.
A schematic representation of pipelines for gas infrastructure is given in Figure 1.
This document can also be applied to the repurposing of existing pipelines.

This document specifies common basic principles for gas infrastructure. Users of this standard are expected to be aware that more detailed national standards and/or code of practice can exist in the CEN member countries.
This document is intended to be applied in association with these national standards and/or codes of practice setting out the above-mentioned basic principles.
In the event of conflicts in terms of more restrictive requirements in national legislation/regulation with the requirements of this standard, the national legislation/regulation takes precedence as illustrated in CEN/TR 13737.
CEN/TR 13737 gives:
- clarification of all legislations/regulations applicable in a member state;
- if appropriate, more restrictive national requirements;
- a national contact point for the latest information.

This document specifies average values of leather density, depending on animal origin and thickness of finished leather, to be used for the calculation of LCA. This document is applicable to bovine, caprine and ovine types of leather, except for vegetable sole leather, which is traded by weight.

This document specifies interindustry commands which can be used for security operations. This document also provides informative directives on how to construct security mechanisms with commands defined in ISO/IEC 7816‑4.

The choice and conditions of use of cryptographic mechanism in security operations can affect card exportability. The evaluation of the suitability of algorithms and protocols is outside the scope of this document. It does not cover the internal implementation within the card and/or the outside world.
 

This document specifies safety requirements within the meaning of Directive 42/2006/EC, “Machinery Directive”.
The deviations from EN 17206 specified in this part are based on the particular operating conditions for stands and cannot be applied to other machinery installations.
This document applies to manually operated and/or power-driven stands with an Entertainment Load Limit [ELL] of more than 3 kg.
NOTE 1: The ELL is the maximum load that an item of lifting equipment is designed to raise, lower or sustain.
This document applies to stands which are used in places of assembly and in staging and production facilities for events and theatrical productions.
Stands within the scope of this document are used for the purposes of lifting, lowering and holding loads (e.g. scenic elements, trusses, lighting and audiovisual equipment). It is also possible for several stands to carry a common load.
This document does not cover installations that are used for the transportation of persons or for the movement of loads above people’s heads.
This document only covers installations with people under the load when the installations are at rest.
NOTE 2: During setup, the operator can, for operational reasons, be required to stand under the moving load for short periods of time.
This document also applies to installations with new technologies or customized designs that are not expressly named here but are being used in identical modes of operation.
This document does not apply to:
— stands with a Load Limit ≤ 3 kg;
— camera stands;
— wooden stands.
This document also specifies the information to be communicated between manufacturers and users, and the details that are to be provided with regard to the intended use of the machinery installations.
The significant hazards dealt with in this document are identified in Clause 4.

This document provides criteria for quality assurance and quality control, evaluation of the performance, and the accreditation of biological dosimetry by cytogenetic service laboratories using the dicentric assay performed with manual scoring.
This document addresses
a) the confidentiality of personal information, for the requestor and the service laboratory,
b) the laboratory safety requirements,
c) the calibration sources and calibration dose ranges useful for establishing the reference dose-effect curves that contribute to the dose estimation from unstable chromosome aberration frequency and the detection limit,
d) the scoring procedure for unstable chromosome aberrations used for biological dosimetry,
e) the criteria for converting a measured aberration frequency into an estimate of absorbed dose,
f) the reporting of results,
g) the quality assurance and quality control,
h) informative annexes containing sample instructions for requestor, sample questionnaire, sample report, fitting of the low dose-response curve by the method of maximum likelihood and calculating the error of the dose estimate, odds ratio method for cases of suspected exposure to a low dose, a
sample calculation and sample data sheet for recording aberrations.

This document focuses on automated braking at velocities below 10 km/h (2.78 m/s) and specifically aims to avoid or mitigate collisions with pedestrians, other road users (e. g. vehicles) and stationary objects including infrastructure elements (e. g. walls, pillars). These collisions mainly occur during reversing manoeuvres but this document also addresses collisions in other directions during low speed manoeuvring.
ABLS requires information about the position and motion of the object, motion of the subject vehicle and driver actions, and determines if the evaluated situation represents a collision risk. If an imminent
collision risk exists ABLS will automatically activate a brake action to avoid or at least mitigate the collision.
This standard provides minimum requirements and test procedures. The standard will not define test objects, but will refer to the ISO 19206 series for test objects to be used.
Basically, the human driver is assumed to perform or at least supervise all driving manoeuvres because the ABLS application is restricted to support only SAE Level 0 up to level 2 systems. Evasive steering manoeuvres are not part of the standard.
This standard applies to light vehicles[1] only. Vehicles equipped with trailers are not within the scope of this document.

1.1 This International Standard specifies two methods (method A and method B) for the determination of the tensile-impact strength of plastics under defined conditions. The tests can be described as tensile tests at relatively high strain rates. These methods can be used for rigid materials
(as defined in ISO 472), but are especially useful for materials too flexible or too thin to be tested with impact tests conforming to ISO 179 or ISO 180.
1.2 These methods are used for investigating the behaviour of specified specimens under specified impact velocities, and for estimating the brittleness or the toughness of specimens within the limitations
inherent in the test conditions.
1.3 These methods are applicable both to specimens prepared from moulding materials and to specimens taken from finished or semi-finished products (for example mouldings, laminates, or extruded or cast sheets).
1.4 Results obtained by testing moulded specimens of different dimensions may not necessarily be the same. Equally, specimens cut from moulded products may not give the same results as specimens of the
same dimensions moulded directly from the material. Test results obtained from specimens prepared from moulding compounds cannot be applied directly to mouldings of any given shape, because values may depend on the design of the moulding and the moulding conditions. Results obtained by method A and method B may or may not be comparable.
1.5 These methods are not suitable for use as a source of data for design calculations on components. Information on the typical behaviour of a material can be obtained, however, by testing different types of test specimen prepared under different conditions, and by testing at different temperatures. The two different methods are suitable for production control as well as for quality control.

This document specifies minimum safety requirements and test methods for protective clothing including hoods, aprons, sleeves, and gaiters that are designed to protect the wearer's body including head (hoods) and feet (gaiters) and that are to be worn during welding and allied processes with
comparable risks. For the protection of the wearer’s head and feet, this International Standard is only applicable to hoods and gaiters. This International Standard does not cover requirements for feet, hand,
face, and/or eye protectors.
This type of protective clothing is intended to protect the wearer against the following hazards:
• spatter (small splashes of molten metal) in 2 risk levels, short contact time with flame, radiant heat from an electric arc used for welding and allied processes,
• harmful UV radiation (UV-A, UV-B and especially UV-C) in 3 risk levels generated during welding and allied processes and
• minimizes the possibility of electrical shock by short-term, accidental contact with live electrical conductors at voltages up to approximately 100 V d. c. in normal conditions of welding. Sweat, soiling, or other contaminants can affect the level of protection provided against short-term accidental
contact with live electric conductors at these voltages.
The main manual welding processes are exemplified and are classified into process groups according to the maximum effectively emitted total irradiance, which have been determined and evaluated by
measurement[15] for these types of welding processes.
For adequate overall protection against the risks to which welders are likely to be exposed, personal protective equipment (PPE) covered by other International Standards should additionally be worn to protect the head, face, hands, and feet.
This standard is not applicable for laser welding processes (coherent, monochromatic radiation sources).
Guidance for the selection of protective clothing for different welding activities is detailed in Annex B.

This part of ISO 17751 specifies a method for the identification, qualitative and quantitative analysis of cashmere, wool, other specialty animal fibres, and their blends using light microscopy (LM).
This part of ISO 17751 is applicable to loose fibres, intermediate-products, and final products of cashmere, wool, other specialty animal fibres, and their blends.

This part of ISO 17751 specifies a method for the identification, qualitative, and quantitative analysis of cashmere, wool, other specialty animal fibres, and their blends using scanning electron microscopy (SEM).
This part of ISO 17751 is applicable to loose fibres, intermediate products, and final products of cashmere, wool, other specialty animal fibres, and their blends.

This document specifies requirements for the specification and qualification of brazing procedures for brazing of metallic materials.
This document specifies requirements for brazing of the test piece, testing of the test specimen, essential variables and their range of qualification, acceptance criteria, brazing procedure qualification record (BPQR) and brazing procedure specification (BPS).
This document gives general provisions on quality requirements for brazing (see Annex A).
This document does not cover testing of residual stresses, corrosion resistance and impact properties.
This document applies to the following brazing processes according to ISO 857-2 and ISO 4063:2009 with local and global heating:
— 911 Infrared brazing;
— 912 Flame brazing, torch brazing;
— 913 Laser beam brazing;
— 914 Electron beam brazing;
— 916 Induction brazing;
— 918 Resistance brazing;
— 919 Diffusion brazing;
— 921 Furnace brazing;
— 922 Vacuum brazing;
— 923 Dip-bath brazing;
— 924 Salt-bath brazing;
— 925 Flux bath brazing;
— 926 Immersion brazing;
— 972 Arc weld brazing.
The principles of this document can be applied to other brazing processes and brazing of materials not listed.
This document does not apply to brazing for aerospace applications covered by ISO 11745.

This document specifies three methods (i.e. one dolly or two dollies on a painted panel and two dollies, one as painted substrate) for determining the adhesion by carrying out a pull-off test on a single coating or a multi-coat system of paint, varnish or related product.
These test methods have been found useful in comparing the adhesion behaviour of different coatings.
It is most useful in providing relative ratings for a series of coated panels exhibiting significant differences in adhesion.
The test may be applied using a wide range of substrates. Different procedures are given according to whether the substrate is deformable, for example thin metal, plastics and wood, or rigid, for example thick concrete and metal plates. To avoid distortion of the substrate during the tensile test, it is common to use a sandwich construction. For example, for special purposes, the coating may be applied directly to the face of a test dolly.

This document specifies a method for assessing the amount of filiform corrosion developed from a scribed mark by measuring the length of the longest filament L and the most frequent length M of filaments.
Pictorial examples provided in Annex A of this document illustrate different ratings for the degree of filiform corrosion. A comparison of the test panels with the 12 pictures in Annex A does not supersede the obligatory numerical assessment (method 1 or 2).
ISO 4628-1 defines a system used for designating the quantity and size of defects and the intensity of uniform changes in appearance of coatings and outlines the general principles of the system. This system is intended to be used, in particular, for defects caused by ageing and weathering, and for
uniform changes such as colour changes, for example yellowing.

This document specifies a method for the determination of the dissolved fraction of selected perfluoroalkyl and polyfluoroalkyl substances (PFAS) in non-filtrated drinking water containing less than 0,5 g/l solid particulate material (SPM) using liquid chromatography-tandem mass spectrometry (LC-MS/MS). The applicability of the method to further types of water like fresh waters (e.g. ground water, surface water) or e.g. treated waste water is be validated separately for each individual case.
For each target compound both, eventually occurring branched isomers and the respective non-branched isomer, are quantified together. The selected set of substances determined by this method is representative for a wide variety of PFAS. The analytes specified in Table 1 have been validated and can be determined by this method. The list given in this table can be modified depending on the purpose and focus of the method. The lower application range of this method can vary depending on the sensitivity of the equipment used and the matrix of the samples. For many substances to which this document applies a limit of quantification (LOQ) of 1 ng/l can be achieved. Using high volume direct injection as described in part A or SPE as described in part B of the method allows lower LOQs. Analytical limitations can occur with short-chain PFAS or PFAS with more than ten carbon atoms in the carbon chain. Actual LOQs can depend on the blank values realized by individual laboratories as well.
NOTE This document enables the analysis of those 20 PFAS which are listed in point 3 of Part B of Annex III of the EU Drinking Water Directive, EU 2020/2184, for the surveillance of the parametric limit value of 0,10 μg/l for the sum of PFAS.
Furthermore, alternatives and substitutes for these PFAS substances can be analysed using this document as well.

This document specifies the performance criteria and test procedures for the performance test of stationary automated measuring systems (AMS) that continuously measure gases and particulate matter in, and flow of, the waste gas from stationary sources.
This document supports the requirements of particular EU Directives. It provides the detailed procedures covering the QAL1 requirements of EN 14181 and, where required, input data used in QAL3.

This document specifies the general performance criteria and test procedures for the performance test of portable automated measuring systems (P-AMS) used for periodic measurements of stationary source emissions. It applies to the performance test of P-AMS based on measurement techniques specified by the standard reference method (SRM) or an alternative method (AM).
The performance test is based on the general performance criteria and test procedures specified in this document and on the specific requirements specified for the SRM or AM. This includes testing of the applicability and correct implementation of the QA/QC procedures specified for the SRM or AM.
This document supports the requirements of particular EU Directives.

This document specifies the requirements and gives recommendations for the design, sizing, installation, identification, commissioning and maintenance of rainwater harvesting systems for the use of rainwater on-site as non-potable water. This document also specifies the minimum requirements for these systems.
Excluded from the scope of this document are:
• the use as drinking water and for food preparation;
• the use for personal hygiene purposes;
• attenuation;
• infiltration.
NOTE Conformity with the document does not exempt from compliance with the obligations arising from local or national regulations.

This document specifies performance requirements for voice prostheses including requirements for marking, packaging and information to be provided by the manufacturer as well as test methods for the evaluation of physical characteristics of voice prostheses.
NOTE There is guidance or rationale for this list item contained in A.2.

This International Standard specifies general requirements for anthropometric databases and their associated reports that contain measurements taken in accordance with ISO 7250-1.
It provides necessary information, such as characteristics of the user population, sampling methods, measurement items and statistics, to make international comparison possible among various population segments. The population segments specified in this International Standard are people who
are able to hold the postures specified in ISO 7250-1.
NOTE The traditional anthropometry defined in ISO 7250-1 is considered to be a necessary complement to 3-D methods which are used in some countries. It is important that scanned data are verified according to
the definitions given in ISO 7250-1 (see ISO 20685-1). State-of-the-art software allows integration of traditional anthropometric measures with those obtained by 3-D imaging.

This document specifies requirements for the safety, strength and durability of all types of non-domestic seating intended to be used by adults with a weight of not more than 110 kg, including office visitor chairs.
This document does not apply to ranked seating, office work chairs, chairs for educational institutions, outdoor seating and to links for linked seating for which European Standards or drafts exist. It does also not apply to work chairs for industrial use.
This document does not include requirements for the durability of upholstery materials, castors, reclining and tilting mechanisms and seat height adjustment mechanisms.
This document does not include requirements for the resistance to ageing, degradation and flammability.
This document does not include requirements for electrical safety.
Annex A contains additional tests.
Annex B contains information on the level of test severity in relation to applications.
Annex C contains dimensional requirements for office visitor chairs.
Annex D contains a seat side-to-side durability test in D-G points.
Annex E contains a rationale for single column seating.
Annex F contains test methods for finger entrapment and shear and compression.
Annex G describes rolling resistance of the unloaded chair.
Annex H contains a test method for durability “Leg rest”.

This document specifies minimum requirements of performance characteristics for the detection of nucleic acid sequences (DNA) by molecular methods, such as the polymerase chain reaction (PCR), including different post-PCR detection methods, real-time PCR, single and/or multiple probe-based detection techniques as well as the combination of such methods.
The document is applicable to the detection, identification and quantification of DNA from animal species of higher and lower taxonomic groups in foodstuffs, and the validation of applicable methods.
It is applicable to mammals, birds, reptiles, amphibians, fishes, molluscs, crustaceans and insects. Typical examples for each are listed in Annex A.

This document specifies a test method simulating practical conditions for establishing whether a product for hygienic handrub reduces the release of virus contamination on hands when rubbed onto the artificially contaminated hands of volunteers.
NOTE 1 Attention is drawn to the fact that tests on human volunteers are the subject of legal provisions in certain European countries/regions.
This document applies to products for hygienic handrub for use in areas and situations where disinfection is medically indicated. Such indications occur in patient care, for example:
– in hospitals, in community medical facilities and in dental institutions;
– in clinics of schools, of kindergardens and of nursing homes;
and can occur in the workplace and in the home. It can also include services such as laundries and kitchens supplying products directly for the patient.
EN 14885 specifies in detail the relationship of the various tests to one another and to “use recommendations”.
NOTE 2 This method corresponds to a phase 2, step 2 test.

This document describes the test methods for characteristics of identification cards according to ISO/IEC 7810 and other standards, such as those listed in the Introduction. NOTE 1 Criteria for acceptability do not form part of this document but are found in other International Standards including those mentioned in the introduction. NOTE 2 Test methods described in this document are intended to be performed separately. A given card is not required to pass through all the tests sequentially.

This document defines system engineering and management requirements for the life cycle of websites, including strategy, design, engineering, testing and validation, and management and sustainment for
Intranet and Extranet environments. This document applies to those using web technology to present information and communications technology (ICT) information, such as information for users of systems and services, plans and reports for systems and software engineering projects, and documentation of policies, plans, and procedures for IT service management. This document provides requirements for website owners and website providers, managers responsible for establishing guidelines for website development and operations, website engineers, designers, developers, and operations and maintenance staff, who may be external or internal to the website owner's organization. It applies to websites for
public access and for limited access, such as for users, customers, and subscribers seeking information on IT systems, products and services.
The goal of this document is to improve the usability of informational websites and ease of maintenance of managed Web operations in terms of:
a) locating relevant and timely information,
b) applying information security management,
c) facilitating accessibility and ease of use,
d) providing for consistent and efficient development and maintenance practices.
This document is not aimed at websites used primarily for marketing or sales, or to deliver instructional material (tutorials), or to provide Graphical User Interfaces (GUI) for business or consumer transactional
application processing. However, this document can provide useful insights for managing such sites.
This document is independent of vendor and product considerations. It does not include specifications for application development tools, programming and scripting languages used for websites, metadata tags, or protocols for network communications. It does not address tools or systems used for
management or storage of information content (data, documents) that may be presented on websites.
This document does not address the design and architecture of software and systems supporting the Internet.

1.2 Word usage
The word shall indicates mandatory requirements strictly to be followed in order to conform to the standard and from which no deviation is permitted (shall equals is required to).1) 2)
1) The word must is deprecated and cannot be used when stating mandatory requirements; must is used only to describe unavoidable situations.
2) The word will is deprecated and cannot be used when stating mandatory requirements; will is only used in statements of fact.

The word should indicates that among several possibilities one is recommended as particularly suitable, without mentioning or excluding others; or that a certain course of action is preferred but not
necessarily required (should equals is recommended that).
The word may is used to indicate a course of action permissible within the limits of the standard (may equals is permitted to).
The word can is used for statements of possibility and capability, whether material, physical, or causal (can equals is able to).

This document prescribes requirements for the classification of nickel and nickel-alloy covered electrodes for manual metal arc welding and overlaying. The classification of the covered electrodes is based on the chemical composition of their deposited all-weld metal. It includes those compositions in
which the nickel content exceeds that of any other element.

The requirements contained in this document apply to the brake pad holders with which the rail vehicles of main-line railways, regional and suburban railways are fitted. Brake pad holders pursuant to this document are to be made from ferrous materials e.g. cast iron, cast steel or forged steel. Brake pad holders made of non-ferrous materials are not subject of this document.

In respect of 112-eCall (pan-European eCall) (operating requirements defined in EN 16072), this document defines the additional high level application protocols, procedures and processes required to provide the eCall service whilst there are still both circuit switched and packet switched wireless communication networks in operation.
NOTE The objective of implementing the pan-European in-vehicle emergency call system (eCall) is to automate the notification of a traffic accident, wherever in Europe, with the same technical standards and the same quality of services objectives by using a PLMN (such as ETSI prime medium) which supports the European harmonized 112/E112 emergency number (TS12 ETSI TS 122 003 or IMS packet switched network) and to provide a means of manually triggering the notification of an emergency incident.

This document specifies the conceptual and logical data model and physical encoding formats for geographic databases for Intelligent Transport Systems (ITS) applications and services. It includes a specification of potential contents of such databases (data dictionaries for Features, Attributes and Relationships), a specification of how these contents shall be represented, and of how relevant information about the database itself may be specified (metadata).
The focus of this document is on ITS applications and services and it emphasizes road and road-related information. ITS applications and services, however, also require information in addition to road and road-related information.
EXAMPLE 1 ITS applications and services need information about addressing systems in order to specify locations and/or destinations. Consequently, information about the administrative and postal subdivisions of an area is essential.
EXAMPLE 2 Map display is an important component of ITS applications and services. For proper map display, the inclusion of contextual information such as land and water cover is essential.
EXAMPLE 3 Point-of-Interest (POI) or service information is a key feature of traveller information. It adds value to end-user ITS applications and services.
Typical ITS applications and services targeted by this document are in-vehicle or portable navigation systems, traffic management centres, or services linked with road management systems, including public transport systems.
The Conceptual Data Model has a broader focus than ITS applications and services. It is application independent, allowing for future harmonization of this document with other geographic database standards.

This document specifies the conceptual and logical data model in addition to the physical encoding formats for geographic databases for Intelligent Transport Systems (ITS) applications and services. This document includes a specification of potential contents of such databases (data dictionaries for Features, Attributes and Relationships), a specification of how these contents are to be represented, and how relevant information about the database itself can be specified (metadata). This document further defines map data used in automated driving systems, Cooperative-ITS, and Multi-modal transport.
The focus of this document is firstly on emerging ITS applications and services, such as Cooperative-ITS and automated driving systems, and it emphasizes road, lane and relevant information on road and lane. However, ITS applications and services also require other information in addition to road and road-related information, which are provided as external databases to connect with GDF and to complement each other. Highly defined public transport databases, for instance, are indispensable in multi-modal transport applications and services in particular. Thus, this document focuses secondly on an expansion of the specification to connect with externally existing databases. It is particularly designed to connect a Transmodel (EN 12896-1 and EN 12896-2) conformant public transport database.
Typical ITS applications and services targeted by this document are in-vehicle or portable navigation systems, traffic management centres, or services linked with road management systems, including public transport systems.
The conceptual data model specified here has a broader focus than ITS applications and services. It is application independent, allowing for future harmonization of this model with other geographic database standards.

This document specifies a method of testing the resistance of the upper assembly of inspection chambers and manhole components against surface and traffic loading.
It is not applicable to requirements for testing the cover and frame. Those requirements are specified in EN 124-1 or other standards, depending on the material.
NOTE Upper assembly components normally include shafts or risers, cones, telescopic adapters and near surface components.

This document specifies methods of test for the resistance of the base of thermoplastics inspection chambers and manholes to external soil and ground-water pressure after installation.

This document specifies a test method for assessing the initial (short-term) tangential ring stiffness of riser shafts for thermoplastics inspection chambers or manholes.

This document specifies requirements for materials used in vulcanized rubber seals for the following:
a) cold drinking-water supplies (up to 50 °C);
b) drainage, sewerage, and rainwater systems (continuous flow up to 45 °C and intermittent flow up to 95 °C).
The different designations of seals specified are defined according to their type, application, and requirements (see Table 5).
General requirements for finished joint seals are also given; any additional requirements called for by the particular application are specified in the relevant product standards, taking into account that the performance of pipe joints is a function of the seal material properties, seal geometry, and pipe joint design. This document is intended to be used, where appropriate, with product standards which specify performance requirements for joints.
This document is applicable to joint seals for all pipeline materials, including iron, steel, clay, fibre cement, concrete, reinforced concrete, plastics, and glass-reinforced plastics.
It is applicable to elastomeric components of composite or non-composite seals. In the case of composite seals for materials of hardness ranges from 76 IRHD-M to 95 IRHD-M, the requirements for elongation
at break, compression set, and stress relaxation apply only when the material is participating in the sealing function or in the long-term stability of the seal.
Joint seals made with an enclosed void as part of their design are included in the scope of this document.

This International Standard is applicable to all types of libraries in all countries. However, not all performance indicators apply to all libraries. Limitations on the applicability of individual performance
indicators are listed in the scope clause of the description of each indicator (see Annex A).
Performance indicators can be used for comparison over time within the same library. Comparisons between libraries can also be made, but only with caution. Comparisons between libraries will need to consider any differences in the constituencies of the libraries and library attributes, with a good
understanding of the indicators used, limitations to comparisons, and careful interpretation of the data.
There are other limitations to the performance indicators in this International Standard that depend on local factors, such as the community the library serves, service mandates, and the technological and financial infrastructure. Results from the use of performance indicators in this International Standard
are intended to be interpreted with regard to these factors.
Performance indicators are not specified for all services, activities, and types of use of the library, either because such indicators have not been proposed and tested at the time of formulation of this International Standard, or because they did not fulfil the criteria specified (see 5.2).
The performance indicators included in this International Standard do not reflect all possible measures or evaluation techniques. This International Standard offers accepted, tested, and publicly accessible (i.e. non-proprietary) methodologies and approaches to measuring a range of library service performance.
This International Standard is not intended to exclude the use of performance indicators not specified in it.

This document specifies methods and means of monitoring for inadvertent movement and illicit trafficking of radioactive material. It provides guidelines on the use of both stationary and portable (e.g., hand-held) instruments to monitor for radiation signatures from radioactive material. Emphasis is
placed on the operational aspects, i.e., requirements derived for monitoring of traffic and commodities mainly at border-crossing facilities. Although the term border is used repeatedly in this document, it is meant to apply not only to international land borders but also maritime ports, airports, and similar
locations where goods or individuals are being checked. This document does not specifically address the issue of detection of radioactive materials at recycling facilities, although it is recognized that
transboundary movement of metals for recycling occurs, and that monitoring of scrap metals might be done at the borders of a state.
This document is applicable to regulatory bodies and other competent authorities seeking guidance on implementation of action plans to combat illicit trafficking; law enforcement agencies (e.g., border guards) to obtain guidelines on recommended monitoring procedures; and to equipment manufacturers in order to understand minimum requirements derived from operational necessities according to this document.
NOTE The general term “dose” refers to ambient dose equivalent if not stated otherwise in this document.

The purpose ISO 23316 series is to provide design and application standards covering implementation of an electrical high-power interface with a nominal voltage of 700VDC/480VAC for agricultural and
forestry machinery.
The ISO 23316 series specifies physical and logical interface requirements that provide interoperability and cross compatibility for systems and equipment operating at nominal voltages of 700V DC/480V AC.
The following are not within the scope of ISO 23316:
— Service, maintenance, and related diagnostics;
— Functional safety;
— Control strategies for high-power supplies and loads;
— Application-specific strategies and operational modes;
— Component design;
— Energy storage systems, e. g. supercapacitors or batteries;
— Multiple electrical power supplies to a common DC-link;
ISO 23316-2 specifies direction for the design of the physical interface between a supply system and a consumer system. Electrical, geometrical and test requirements are defined within this part of ISO 23316 series.

This document describes the general safety requirements and guidance for the HPI in the ISO 23316
series.
The following topics are not within the scope of this document:
— service, maintenance, and related diagnostics;
— functional safety;
— control strategies for high power supply systems (PS) and load consumption systems;
— application-specific strategies and operational modes;
— component design;
— energy storage systems, e. g. supercapacitors or batteries;
— multiple electrical power supplies to a common DC-link.

The purpose of the ISO 23316 series is to provide design and application standards covering implementation of electrical high-power interface with a nominal voltage of 700 V DC/480 V AC for agricultural and forestry machinery. The ISO 23316 series specifies the physical and logical interface
requirements that provide interoperability and cross compatibility for systems and equipment.
In order to state compliance to ISO 23316 series all applicable requirements from ISO 23316 Parts 1-7 shall be met.
It is permitted for partial systems or components to be compliant to the ISO 23316 series by applying all applicable requirements e.g. for the plug, receptacle or inverters, on a tractor or implement.
Note 1 to entry e.g. if a DC-mode only HPI is provided, it is not necessary to comply with part 4 describing AC-mode, as it is not applicable. If an AC-mode only HPI is provided, it is not necessary to comply with part 5 describing DC-mode, as it is not applicable.
The following are not within the scope of ISO 23316:
— Service, maintenance, and related diagnostics;
— Functional safety;
— Control strategies for high-power supplies and loads;
— Application-specific strategies and operational modes;
— Component design;
— Energy storage systems, e. g. supercapacitors or batteries;
— Multiple electrical power supplies to a common DC-link;
ISO 23316-4 specifies required measures applicable to the HPI AC Interface between a supply system (typically located on an agricultural tractor) and detachable electrical consumption system (typically located on an agricultural implement).
ISO 23316-4 covers the following:
— HPI system topologies;
— Interface relevant characteristics of the HPI providing AC or combined AC & DC;
— Interface relevant characteristics of the HPI AC load (for relevant characteristics of a DC load see ISO 23316-5);
— Logical, operational and electrical characteristics of the HPI:
— Operating mode aspects, and
— Communication parameters

NOTE The document contains simplified electrical diagrams showing specific aspects of the required functionality.

This document provides an understanding of the nature of measurement uncertainty and its significance in estimating the "quality" of a measurement or a determination in hydrometry.
This document is applicable to flow measurements in natural and man-made channels. Rainfall measurements are not covered.

This document specifies requirements for the seamless integration with other microfluidic components and systems to facilitate the process of designing new microfluidic devices (e.g. microfluidic chips, sensors, actuators, connectors).
This document is applicable to devices in the field of “microfluidics” needing microfluidic interconnections.

(1) This document provides general rules for the design and verification of geotechnical structures.
(2) This document is applicable for the design and verification of geotechnical structures outside the scope of prEN 1997-3:2022.
NOTE In this case, additional or amended provisions can be necessary.
1.2 Assumptions
(1) In addition to the assumptions given in prEN 1990:2021, the provisions of prEN 1997:2022 (all parts) assume that:
— ground investigations are planned by personnel or enterprises knowledgeable about potential ground and groundwater conditions;
— ground investigations are executed by personnel having appropriate skill and experience;
— evaluation of test results and derivation of ground properties from ground investigation are carried out by personnel with appropriate geotechnical experience and qualifications;
— data required for design are collected, recorded, and interpreted by appropriately qualified and experienced personnel;
— geotechnical structures are designed and verified by personnel with appropriate qualifications and experience in geotechnical design;
— adequate continuity and communication exist between the personnel involved in data-collection, design, verification and execution.
(2) This document is intended to be used in conjunction with prEN 1990:2021, which establishes principles and requirements for the safety, serviceability, robustness, and durability of structures, including geotechnical structures, and other construction works.
(3) This document is intended to be used in conjunction with prEN 1997-2, which gives provisions rules for determining ground properties from ground investigations.
(4) This document is intended to be used in conjunction with prEN 1997-3, which gives specific rules for the design and verification of certain types of geotechnical structures.
(5) This document is intended to be used in conjunction with the other Eurocodes for the design of geotechnical structures, including temporary geotechnical structures.

(1) This document provides rules for determining ground properties for the design and verification of geotechnical structures.
(2) This document covers guidance for planning ground investigations, collecting information about ground properties and groundwater conditions, and preparation of the Ground Model.
(3) This document covers guidance for the selection of field investigation and laboratory test methods to obtain derived values of ground properties.
(4) This document covers guidance on the presentation of the results of ground investigation, including derived values of ground properties, in the Ground Investigation Report.
1.2 Assumptions
(1) The provisions in prEN 1997-2:2022 are based on the assumptions given in prEN 1990:2021 and prEN 1997-1:2022.
(2) This document is intended to be used in conjunction with prEN 1997-1:2022, which provides general rules for design and verification of all geotechnical structures.
(3) This document is intended to be used in conjunction with prEN 1997-3:2022, which provides specific rules for design and verification of certain types of geotechnical structures.
(4) This document is intended to be used in conjunction with prEN 1998-1-1 which provides the requirements for the ground properties needed to define the seismic action.
(5) This document is intended to be used in conjunction with prEN 1998-5 which provides rules for the design of geotechnical structures in seismic regions.

1.1 Scope of prEN 1997-3 (1) This document provides specific rules to be applied for design and verification of geotechnical structures. 1.2 Assumptions (1) This document is intended to be used in conjunction with prEN 1990:2021, which establishes principles and requirements for the safety, serviceability, robustness, and durability of structures, including geotechnical structures, and other construction works. (2) This document is intended to be used in conjunction with prEN 1997-1:2022, which provides general rules for design and verification of geotechnical structures. (3) This document is intended to be used in conjunction with prEN 1997-2:2022, which gives provisions rules for determining ground properties from ground investigation. (4) This document is intended to be used in conjunction with the other Eurocodes for the design of geotechnical structures, including temporary geotechnical structures.

This document provides guidance to furniture manufacturers on the criteria to be considered in the design of a product in order to maximize the dis-/reassembly capability, and thus extend the lifespan of the product or its parts.
It does not contain requirements for different types of furniture, or their associated end use, but does offer a methodology that can be used to assess different designs, materials or construction methods when designing a product.

This part of ISO 20685 addresses protocols for testing of 3-D surface-scanning systems in the acquisition of human body shape data and measurements. It does not apply to instruments that measure the motion
of individual landmarks.
While mainly concerned with whole-body scanners, it is also applicable to body-segment scanners (head scanners, hand scanners, foot scanners). This International Standard applies to body scanners that measure the human body in a single view. When a hand-held scanner is evaluated, it has to be noted that the human operator can contribute to the overall error. When systems are evaluated in which the participant is rotated, movement artefacts can be introduced; these can also contribute to the overall
error. This part of ISO 20685 applies to the landmark positions determined by an anthropometrist. It does not apply to landmark positions automatically calculated by software from the point cloud.
The quality of surface shape of the human body and landmark positions is influenced by performance of scanner systems and humans including measurers and participants. This part of ISO 20685 addresses
the performance of scanner systems by using artefacts rather than human participants as test objects.
Traditional instruments are required to be accurate to millimetre. Their accuracy can be verified by comparing the instrument with a scale calibrated according to an international standard of length. To verify or specify the accuracy of body scanners, a calibrated test object with known form and size is used.
The intended audience is those who use 3-D body scanners to create 3-D anthropometric databases, the users of these data, and scanner designers and manufacturers. This part of ISO 20685 intends to provide the basis for the agreement on the performance of body scanners between scanner users and scanner providers as well as between 3-D anthropometric database providers and data users.

(1) This document gives rules for the design of masonry structures for the accidental situation of fire exposure. This document only identifies differences from, or supplements to, normal temperature design.
(2) This document applies to structures, or parts of structures, that are within the scope of EN 1996-1-1 or EN 1996-3 and are designed accordingly.
(3) This document gives rules for the design of structures for specified requirements in respect of the aforementioned functions and the levels of performance.
(5) This document does not cover masonry built with natural stone units according to EN 771-6.
(6) This document deals with:
— non-loadbearing internal walls;
— non-loadbearing external walls;
— loadbearing internal walls with separating or non-separating functions;
— loadbearing external walls with separating or non-separating functions.
1.2 Assumptions
(1) The assumptions of EN 1990 and EN 1996-1-1 apply to this document.
(2) This document is intended to be used together with EN 1990, EN 1991-1-2, EN 1996-1-1, EN 1996-2 and EN 1996-3.
(3) In addition to the general assumptions of EN 1990 and EN 1996-1-1, the following assumptions apply:
— the choice of the relevant design fire scenario is made by appropriate qualified and experienced personnel, or is given by the relevant national regulation;
— any fire protection measure taken into account in the design will be adequately maintained.

(1) This document gives basic rules for the selection of materials and execution of masonry to enable it to comply with the design assumptions of the other parts of Eurocode 6.
(2) This document deals with ordinary aspects of masonry design and execution including:
— selection of masonry materials;
— factors affecting the performance and durability of masonry;
— masonry detailing, joint finishes, movement joints, resistance of buildings to moisture penetration;
— storage, preparation and use of materials on site;
— execution of masonry;
— masonry protection during execution;
(3) This document does not cover the following items:
— aesthetic aspects;
— applied finishes;
1.2 Assumptions
(1) The assumptions of EN 1990 apply to this document.
(2) This document is intended to be used together with EN 1990, EN 1991, EN 1996-1-1, EN 1996-1-2 and EN 1996-3.
(3) The design of masonry is carried out in accordance with EN 1996-1-1.

This document specifies liquid chromatography tandem mass spectrometry method (LC-MS/MS) for the determination of fipronil and metabolites residues in eggs and egg products.

This document is applicable to eggs and egg products.

This document specifies a reference method for the determination of the nitrogen content of meat and meat products.
This document is applicable to meat and meat products.

This document specifies a test method (phase 2/step 2) and the minimum requirements for bactericidal and/or fungicidal or yeasticidal activity of chemical disinfectants that form a homogeneous physically stable preparation in hard water or - in the case of ready-to-use products - with water in food, industrial, domestic and institutional areas, excluding areas and situations where disinfection is medically indicated and excluding products used on living tissues. The scope of this document applies at least to the following: a) processing, distribution and retailing of: 1) food of animal origin: i) milk and milk products; ii) meat and meat products; iii) fish, seafood and products; iv) eggs and egg products; v) animal feeds; vi) etc. 2) food of vegetable origin: i) beverages; ii) fruits, vegetables and derivatives (including sugar distillery); iii) flour, milling and backing; iv) animal feeds; v) etc. b) institutional and domestic areas: 1) catering establishments; 2) public areas; 3) public transports; 4) schools; 5) nurseries; 6) shops; 7) sports rooms; 8) waste container (bins); 9) hotels; 10) dwellings; 11) clinically non sensitive areas of hospitals; 12) offices; 13) etc. c) other industrial areas: 1) packaging material; 2) biotechnology (yeast, proteins, enzymes...); 3) pharmaceutical; 4) cosmetics and toiletries; 5) textiles; 6) space industry, computer industry; 7) etc. Using this document, it is possible to determine the bactericidal or fungicidal or yeasticidal activity of the undiluted product. As three concentrations are tested, in the active to non-active range, dilution of the product is required and, therefore, the product forms a homogeneous stable preparation in hard water. EN 14885 specifies in detail the relationship of the various tests to one another and to use recommendations. NOTE 1 The method described is intended to determine the activity of commercial formulations or active substances on bacteria and/or fungi in the conditions in which they are used. NOTE 2 This method cannot be used to evaluate the activity of products against mycobacteria.

This document provides requirements for the development, validation and routine control of moist heat sterilization processes for medical devices. The standard also contains guidance which is intended to explain the requirements set forth in the normative sections. The guidance given is intended to promote good practice related to moist heat sterilization processes according to this document. The application within industrial and health care settings is considered.

This document identifies the information required to be marked on heavy rail freight wagons, or parts of heavy rail freight wagons, relating to their technical, operational and maintenance characteristics. It defines the characteristics of these markings, the requirements pertaining to their presentation, their shape and position on a vehicle and their meaning. Some markings are accompanied with a note(s) where appropriate.
Tank barrel manufacturers’ design criteria, test and product specification plates have not been considered in this document as they are specified in EN 12561-1:2011, Railway applications — Tank wagons — Part 1: Identification plates for tank wagons for the carriage of dangerous goods.
Where fully specified in RID (Regulations concerning the International Carriage of Dangerous Goods) Dangerous Goods markings have not been considered in this document (dimensions, colour, location and form). Where markings are not fully specified in RID they are included in this document.

This document specifies a procedure for static strength assessment of rail vehicle structures.
It is part of a series of standards that specifies procedures for strength assessments of structures of rail vehicles that are manufactured, operated and maintained according to standards valid for railway applications.
This document is applicable for exceptional load cases and ultimate load cases.
The assessment procedure of the series is restricted to ferrous materials and aluminium.
This document series does not define design load cases.
This document series is not applicable for corrosive conditions or elevated temperature operation in the creep range.
This series of standards is applicable to all kinds of rail vehicles. However, it does not define in which cases or for which kinds of rail vehicles a static strength assessment is to be applied.

This document specifies a test method for the evaluation of protection against corrosion of edges and stamping burrs by electro-deposition coatings.
It applies to electro-deposition coatings for automotive industries and other general industrial applications, e.g. chiller units, consumer products, radiators, aerospace, agriculture.

This part of ISO 8536 specifies the requirements for infusion sets that use light-protective agents in the fluid path materials (abbreviated as "light-protective infusion sets” henceforth).
This document also provides guidelines for performance and quality specifications of materials used in light-protective infusion sets.

This standard specifies the composition, functional and performance requirements of payload interface for civil small and light unmanned aircraft system (hereinafter referred to as "UAS"), the maximum take-off mass ranged from 0.25 kg to 25 kg which applies to Level II through IV according to ISO 21895-6.
This standard is applicable to the design and manufacture of physical independent payload interface for an unmanned aircraft/UA, which connects an external payload to a UA.

This document specifies the minimum training to be given to trainee crane slingers and crane signallers to develop the basic slinging skills and to impart the requisite knowledge for competency required for slingers and signallers as defined in ISO 15513.

ISO 23316-1 describes the general purpose and structure of standards in the ISO 23316 series, including common elements and definitions shared within all parts of the ISO 23316 series.
The purpose of the ISO 23316 series is to provide design and application standards covering implementation of electrical high power interface with a nominal voltage of 700VDC/480VAC for agricultural and forestry machinery.
The ISO 23316 series specifies physical and logical interface requirements that provide interoperability and cross compatibility for systems and equipment operating at nominal voltages of 700VDC/480VAC.
The following are not within the scope of ISO 23316:
— Service, maintenance, and related diagnostics;
— Functional safety;
— Control strategies for high power sources and loads;
— Application-specific strategies and operational modes;
— Component design;
— Energy storage systems, e. g. super-capacitors or batteries;
— Multiple electrical power sources supplying a common DC-link
ISO 23316-5 specifies measures applicable to the class B2 voltage DC bus of a supply system which is
intended to power detachable electrical CS(s).
— Electrical specification of the high power interface
— Operating modes (e. g. initialization, normal operation, energy feedback, connect/disconnect procedures and disconnect in case of malfunction)
— Communication parameters (basic framework: signals, ranges, units, states of supply system and CS)
NOTE 1 The document contains simplified electrical diagrams showing specific aspects of the required functionality.

This part of ISO 23316 specifies the communication interface, so that the transmitted parameters, signals and objects between a Supply System (SS), with Power Converter / Switch (PC/S) and High Power Interface – Master Control (HPI-MC) including the Tractor Implement Management (TIM) server, and a Consumer System (CS), with Application (APP) and High Power Interface – Control (HPI-C) including the TIM client and the task controller, can be used is in the agricultural industry. The mentioned signals are used during identification, initialization, operation, and shutdown modes of operation.
The document is intended to be used in conjunction with ISO 11783 and the other parts of ISO 23316.
NOTE 1 E.g. if a DC-mode only High Power Interface (HPI) is provided, it is not necessary to comply with part 4 describing AC-mode, as it is not applicable. If an AC-mode only HPI is provided, it is not necessary to comply with part 5 describing DC-mode, as it is not applicable.
Out of scope of this part are the definitions of Suspect Parameter Numbers (SPNs) for the signals, within the Parameter Group Numbers (PGNs) for messages and the message setup. These definitions will be defined in ISO 11783.
NOTE 2 Annex B defines a proposal for the message sets (proprietary approach) based on the definitions for TIM (Tractor / Implement Management); see ISO 11783 where this content will ultimately reside.
The following are not within the scope of ISO 23316:
— Service, maintenance, and related diagnostics;
— Functional safety;
— Control strategies for high-power supplies and loads;
— Application-specific strategies and operational modes;
— Component design;
— Energy storage systems, e. g. supercapacitors or batteries;
— Multiple electrical power supplies to a common DC-link.

ISO 23316-1 describes the general purpose and structure of standards in the ISO 23316 series, including common elements and definitions shared within all parts of the ISO 23316 series.
The purpose of the ISO 23316 series is to provide design and application standards covering implementation of electrical high power interface with a nominal voltage of 700VDC/480VAC for agricultural and forestry machinery.
In order to state compliance to ISO 23316 series all applicable requirements from ISO 23316 Parts 1-7 shall be met.
It is permitted for partial systems or components to be compliant to the ISO 23316 series by applying all applicable requirements e.g. for the plug, receptacle or inverters, on a tractor or implement.
Note to entry: e.g. if a DC-mode only HPI is provided it is not necessary to comply with part 4 describing AC-mode, as it is not applicable. If an AC-mode only HPI is provided it is not necessary to comply with 33part 5 describing DC-mode, as it is not applicable.
The ISO 23316 series specifies physical and logical interface requirements that provide interoperability and cross compatibility for systems and equipment operating at nominal voltages of 700VDC/480VAC.
The following are not within the scope of ISO 23316:
• Service, maintenance, and related diagnostics;
• Functional safety;
• Control strategies for high power sources and loads;
• Application-speci333fic strategies and operational modes;
• Component design;
• Energy storage systems, e. g. supercapacitors or batteries;
• Multiple electrical power sources supplying a common DC-link
ISO 23316 Part 7 provides help to the manufacturers of tractors and implements how to integrate and use the HPI.
NOTE 1 The terms „tractor“ and „implement” are used instead of “supply system” and “consumer system” for better understanding in this part.

This ISO 19337 describes characteristics of working suspensions of nano-objects to be considered when conducting in vitro assays to evaluate inherent nano-object toxicity. In addition, the document identifies applicable measurement methods for these characteristics.
This document is applicable to nano-objects, and their aggregates and agglomerates greater than 100 nm.
NOTE This ISO19337 intends to help clarify whether observed toxic effects come from tested nano-objects themselves or from uncontrolled sources.

This document provides a system for classifying the location and depth of human tooth restorations preparations.

This document specifies the cloud computing reference architecture (CCRA).

This document specifies requirements for the safety, strength and durability of bunk beds and high beds for domestic and non-domestic use.
It applies to bunk beds and high beds with an internal length greater than 1 400 mm and a maximum bed base width of 1 200 mm, and with the upper surface of a bed base of 600 mm or more above the floor. Safety requirements for other products included in a bunk bed/high bed, for example a table or storage furniture, are not included in this document.
This document does not apply to bunk beds and high beds used for special purposes, including but not limited to prisons, the military and fire brigades.
The document contains one annex:
— Annex A (informative) – Rationales.

The following documents are referred to in the text in such a way that some or all of their content constitutes requirements of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies.
prEN 747-1:2022, Furniture — Bunk beds and high beds — Part 1: Safety, strength and durability requirements
EN ISO 2439:2008, Flexible cellular polymeric materials — Determination of hardness (indentation technique) (ISO 2439:2008)

This document sets out the general principles for, and provides guidance on, the design of sampling programmes and sampling techniques for all aspects of sampling of water (including waste waters, sludges, effluents, suspended solids and sediments).
This document does not include detailed instructions for specific sampling situations, which are covered in various other parts of ISO 5667 and in ISO 19458.

This document defines terms and establishes an organized set of concepts and relationships to understand the competency requirements for information security assurance conformance-testing and evaluation specialists, thereby establishing a basis for shared understanding of the concepts and principles central to the ISO/IEC 19896 series across its user communities. It provides fundamental information to users of the ISO/IEC 19896 series.

This document provides the specialized requirements to demonstrate competence of individuals in performing IT product security evaluations in accordance with ISO/IEC 15408 (all parts) and ISO/IEC 18045.

This document provides the minimum requirements for the knowledge, skills and effectiveness requirements of individuals performing testing activities for a conformance scheme using ISO/IEC 19790 and ISO/IEC 24759.

This document specifies general requirements for non-active surgical implants, hereafter referred to as implants. This document is not applicable to dental implants, dental restorative materials,
transendodontic and transradicular implants, intra-ocular lenses, the viable animal or human tissue components of implants containing viable animal or human tissue and implants intended to remain in place for less than 30 days after being implanted.
With regard to safety, this document specifies requirements for intended performance, design attributes, materials, design evaluation, manufacture, sterilization, packaging and information supplied by the manufacturer, and tests to demonstrate compliance with these requirements.
Additional requirements applicable to specific implants or implant families are given or referred to in Level 2 and Level 3 standards.
NOTE 1 This document does not require that the manufacturer have a quality management system in place.
However, many regulatory authorities require the application of a quality management system, such as that described in ISO 13485, to ensure that the implant achieves its intended performance and safety.
NOTE 2 In this document, when not otherwise specified, the term "implant" refers to each individual component of a system or a modular implant, provided separately or as a set of components, as well as to all ancillary implants or associated implants designed for improving the intended performance.