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This document provides a maturity model addressing the environmental impact (energy management and environmental sustainability) of the facilities, infrastructures and the information and communication technology (ICT) equipment accommodated by the data centre.

This document 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 document 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. 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 impact performance requirements for a vehicle security barrier (VSB) and a test method for rating its performance when subjected to a single impact by a test vehicle not driven by a human being. It is applicable to test methods for vehicle penetration distances not exceeding 25 m. This document is applicable to all manufacturers and procurers of VSBs, where they are used to protect people in any public or private location from the impact of vehicle attacks. This document does not apply to the performance of a VSB or its control apparatus when subjected to: — slow speed encroachment; — slow speed nudging and ramming; — blast explosion; — ballistic impact; — manual attack, with the aid of the vehicle (multiple impacts at slow speed); — manual attack, with the aid of tools (excluding vehicles); — electrical manipulation; — attack on the control systems by any means. NOTE 1 For manual attack, a variety of test methods exist. For assessing intruder resistance of building components, see LPS 1175. NOTE 2 The VSB is designed and tested on the basis of: a) vehicle type, mass and speed of the assessed vehicle-borne threat; b) its geographical application (e.g. climate conditions); c) intended site location (e.g. rigid or non-rigid soil/finished surface). It does not apply to guidance on design, the operational suitability of a VSB or other impact test methods. NOTE 3 Guidance on the selection and specification of a VSB by type and operational suitability is given in ISO 22343-2.

This document provides common installation instructions for all connectors that have adjustable stud ends and O-ring sealing. Conformance with the requirements of this document will result in a considerable reduction of leaks in hydraulic systems.

This document applies only to static watt-hour meters of accuracy classes A, B and C for the measurement of direct current electrical active energy in DC systems and it applies to their type tests.
NOTE 1   For general requirements, such as construction, EMC, safety, dependability etc., see the relevant EN 62052 series or EN 62059 series.
This document applies to electricity metering equipment designed to:
-   measure and control electrical energy on DC electrical networks with voltages up to 1 500 V;
NOTE 2   Meters for unearthed DC supplies and meters for three-wire DC networks are within the scope of this document.
-   form a complete meter including the legally relevant display of measured values;
NOTE 3   Modular meters as described in WELMEC guide 11.7 are included.
-   operate with integrated or detached legally relevant displays;
-   optionally, provide additional functions other than those for measurement of electrical energy.
They can be used for measuring DC electrical energy, amongst others, in the following application areas:
-   in EV (electrical vehicle) charging stations or in EV charging infrastructure (also called EVSE, electric vehicle supply equipment), if energy is measured on the DC side;
-   in solar PV (photovoltaic) systems where DC power generation is measured;
-   in low voltage DC networks for residential or commercial areas, if energy is measured on the DC side, including similar applications like information technology (IT) server farms or DC supply points for communication equipment;
-   in DC supply points for public transport networks (e.g., for trolleybuses);
-   in mobile applications on vehicles for e-road (electric road) systems.
Meters designed for operation with external DC instrument transformers or transducers can be tested for compliance with this document only if such meters and their transformers or transducers are tested together and meet the requirements for directly connected meters. Requirements in this document and in EN IEC 62052-11:2021/A11:2022 applying to meters designed for operation with DC LPITs also apply to meters designed for operation with external instrument transformers or transducers.
NOTE 4   Modern electricity meters typically contain additional functions such as measurement of voltage magnitude, current magnitude, power, etc.; measurement of power quality parameters; load control functions; delivery, time, test, accounting, recording functions; data communication interfaces and associated data security functions. The relevant standards for these functions could apply in addition to the requirements of this document. However, the requirements for such functions are outside the scope of this document.
NOTE 5   Product requirements for power metering and monitoring devices (PMDs) and measurement functions such as voltage magnitude, current magnitude, power, etc., are covered in EN IEC 61557 12:2022. However, devices compliant with EN IEC 61557 12:2022 are not intended to be used as billing meters unless they are also compliant with EN IEC 62052-11:2021/A11:2022 and this document.
NOTE 6   Requirements for DC power quality (PQ) instruments, DC PQ measuring techniques, and DC PQ instrument testing are under discussion and will be specified in other standards.
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This document defines terminology relating to fire safety as used in ISO and IEC International Standards.

This document gives guidance on the selection, installation and use of vehicle security barrier (VSBs) and describes the process of producing operational requirements (ORs). It also gives guidance on a design method for assessing the performance of a VSB. This document is applicable to end users, such as site owners and specifiers, of VSBs, where they are used to protect people in any public or private location from vehicle attacks. This document does not apply to the performance of a VSB or its control apparatus when subjected to: — slow speed encroachment; — slow speed nudging and ramming; — blast explosion; — ballistic impact; — manual attack, with the aid of the vehicle (multiple impacts at slow speed); — manual attack, with the aid of tools (excluding vehicles); — electrical manipulation; — attack on the control systems by any means. NOTE 1 For manual attack, a variety of test methods exist. For assessing intruder resistance of building components, see LPS 1175[53]. NOTE 2 The VSB is designed and tested on the basis of: a) vehicle type, mass and speed of the assessed vehicle-borne threat; b) its geographical application (e.g. climate conditions); c) intended site location (e.g. rigid or non-rigid soil/finished surface (paving, cobblestone, granite, asphalt). It does not apply to guidance on design, the operational suitability of a VSB or other impact test methods.

This document specifies the measurement of forces by means of load cells carried out for geotechnical monitoring. 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. This document is applicable to: — performance monitoring of geotechnical structures such as anchors, tiebacks, piles, struts, props and steel linings; — checking geotechnical designs and adjustment of construction in connection with the observational method; — evaluating stability during or after construction. This document is not applicable to 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 1 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 [2] and [3]. NOTE 2 ISO 18674-7 is intended to define the measurement of forces by means of strain or displacement gauges.

This document establishes 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, this document is also applicable to body-segment scanners (head scanners, hand scanners, foot scanners). It applies to body scanners that measure the human body in a single view. When a hand-held scanner is evaluated, 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 document 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 the performance of scanner systems and humans, including measurers and participants. This document addresses the performance of scanner systems by using artefacts rather than human participants as test objects. Traditional instruments are required to be accurate to the 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 body scanner designers and manufacturers. This document intends to provide the basis for 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.

This document: — describes frequently occurring risks during development and maintenance of custom software; — describes possible controls for frequently occurring risks; — describes the related: — activities, facilities and roles typically used for these controls; — properties of products and processes; — standards, measurements, testing and assessment of the properties of products and processes.

This document describes a method which determines the electrical parameters for compatibility of cookware and induction hobs for household use. Cookware is an integral part of the cooking system; electrical parameters can affect the cooking process regarding the required power setting, speed of heating up, sufficient power for different cooking processes etc.
For determining the compatibility of a cookware to an induction cooking zone and cooking area, a measurement device and a measurement procedure is specified in this deliverable. It allows measuring the resistivity and/or impedance of the cookware under test (CUT) in a repeatable and reproducible way. The measured electric properties indicate the compatibility characteristics of a cookware on an induction cooking zones and cooking area.
For determination the compatibility of an induction cooking zone or cooking area with a cookware, this document describes the measurement how to determine the power generated by the hob under test in combination with the selected cookware.
NOTE 1   For definitions of induction hob, induction cooking zone and cooking area EN 60350 2 is relevant.
Further performance characteristics of hobs which are of interest to the user, like energy consumption, heating up time or heat distribution are not addressed. This document does not deal with safety requirements.
NOTE 2   Further performance characteristics for hobs are covered in EN 60350 2.
NOTE 3   Further performance characteristics for cookware are covered in EN 12983 1 and EN 12983 2.
NOTE 4   This document does not deal with safety requirements (IEC 60335 2 6 and IEC 60335 2 9).
Appliances covered by this document may be built-in or portable induction hobs. The hob can also be a part of a cooking range.

This document specifies minimum requirements for breathing sets and breathing tubes intended to be used with anaesthetic breathing systems, ventilator breathing systems, humidifiers or nebulizers. It applies to breathing sets and breathing tubes and patient end adaptors supplied already assembled and to those supplied as components and assembled in accordance with the manufacturer’s instructions.
This document is applicable to breathing sets which include special components (e.g. water traps) between the patient end and machine end.
Provision is made for coaxial and related bifurcated, double-lumen, or multiple-lumen breathing sets and breathing tubes suitable for use with patient end adaptors.

This document specifies methods for the chemical analysis of zirconium oxide powders used as the raw material for fine ceramics.
It stipulates the determination methods of the zirconium, aluminium, barium, calcium, cerium, cobalt, gadolinium, hafnium, iron, magnesium, potassium, silicon, sodium, strontium, titanium and yttrium contents in zirconium oxide powders for fine ceramics. The test sample is decomposed by acid pressure decomposition or alkali fusion. Contents of zirconium and yttrium are determined by using either a precipitation and gravimetric method or an inductively coupled plasma-optical emission spectrometry (ICP-OES) method. Contents of aluminium, barium, calcium, cerium, cobalt, gadolinium, hafnium, iron, magnesium, potassium, silicon, sodium, strontium and titanium are determined by using an ICP-OES method.

This document specifies requirements for the qualification of welders and welding operators for fusion welding of metallic materials for aerospace applications. NOTE Success in the test is an essential precondition for the qualification of welders and welding operators in new production and repair work in aerospace. However, welding equipment operators do not need to be qualified according to this document.

This document specifies a framework for mass customization value chain management, including the framework model, functions and information flow of mass customization. This document does not describe interoperability at a system level or interoperability throughout the life cycle in detail.

This document specifies requirements for the safety and performance testing of general-purpose nebulizing systems intended for continuous or breath-actuated delivery of liquids, in aerosol form, to humans through the respiratory system.
This document includes gas-powered nebulizers (which can be powered by, e.g., compressors, pipeline systems, cylinders, etc.) and electrically powered nebulizers [e.g. spinning disc, ultrasonic, vibrating mesh (active and passive), and capillary devices] or manually powered nebulizers. This document does not specify the electrical requirements of electrically powered nebulizers.
This document does not specify the minimum performance of nebulizing systems.
This document does not apply to:
a)       devices intended for nasal deposition;
b)       devices intended solely to provide humidification or hydration by providing water in aerosol form.
NOTE 1        ISO 80601-2-74 and ISO 20789 cover these devices.
c)        drug-specific nebulizers or their components (e.g. metered dose inhalers, metered liquid inhalers, dry powder inhalers).
NOTE 2        ISO 20072 covers these devices.
NOTE 3        See Annex A for rationale.

This document specifies the requirements for the preparation and reproduction of design parts lists for railway applications.
This document specifies the design parts list and describes the basic principles, their structure and the minimum requirements of a design parts list.
The document applies throughout the total life span of the parts list. This document applies to all the railway organisations and partners concerned with the design parts list, and to suppliers preparing parts list on behalf of network users.

ISO 80601-2-72:2015 applies to the basic safety and essential performance of a ventilator in combination with its accessories, hereafter referred to as me equipment:
intended for use in the home healthcare environment;
intended for use by a lay operator;
intended for use with patients who are dependent on mechanical ventilation for their life support.
ISO 80601-2-72:2015 is also applicable to those accessories intended by their manufacturer to be connected to a ventilator breathing system or to a ventilator where the characteristics of those accessories can affect the basic safety or essential performance of the ventilator.
ISO 80601-2-72:2015 is a particular International Standard in the IEC 60601‑1 and ISO/IEC 80601 series of standards.