Document Number:
NL EN 60309 1 : 2010
Sector:
Electrical Engineering
Status:
C
Production Year:
2010
Price:
50000.0000
This European Standard applies to products intended to be used with cable with metric sizes (mm²) only. Reference and requirements to AWG and MCM cables and voltages not used in Europe are present in the relevant IEC publication and they are reported in this standard for information only. See Annex ZB for a list of references to AWG/MCM cables or non-European voltages which are excluded from this standard. In this standard delete all reference to products of Series II. Values and corresponding requirements listed as Series II ratings are to be considered as "Other ratings
Document Number:
NL EN 60309 2 : 2010
Sector:
Electrical Engineering
Status:
C
Production Year:
2010
Price:
50000.0000
This standard applies to accessories with screwless type terminals or insulation piercing terminals, with a rated current up to and including 16 A for Series I and 20 A for Series II . NOTE In the following countries, this standard applies to accessories with screwless type terminals or insulation piercing terminals, with a rated current up to and including 32 A for Series I and 30 A for Series II : DE, IT.
Document Number:
NL IEC 60439 1 : 2010
Sector:
Electrical Engineering
Status:
C
Production Year:
2010
Price:
50000.0000
This International Standard applies to low-voltage switchgear and controlgear ASSEMBLIES (type-tested ASSEMBLIES (TTA) and partially type-tested ASSEMBLIES (PTTA)), the rated voltage of which does not exceed 1 000 V a.c. at frequencies not exceeding 1 000 Hz, or 1 500 V d.c. This standard also applies to ASSEMBLIES incorporating control and/or power equipment, the frequencies of which are higher. In this case, appropriate additional requirements will apply. This standard applies to stationary or movable ASSEMBLIES with or without enclosure. NOTE Additional requirements for certain specific types of assemblies are given in supplementary IEC standards. This standard applies to ASSEMBLIES intended for use in connection with the generation, transmission, distribution and conversion of electric energy, and for the control of electric energy consuming equipment. It also applies to ASSEMBLIES designed for use under special service conditions, for example in ships, in rail vehicles, for hoisting equipment or in explosive atmospheres, and for domestic (operated by unskilled persons) applications, provided that the relevant specific requirements are complied with. This standard applies also to ASSEMBLIES designed for electrical equipment of machines. However, where applicable the additional requirements of IEC 60204-1 have to be fulfilled. This standard does not apply to individual devices and self-contained components, such as motor starters, fuse switches, electronic equipment, etc. complying with their relevant standards. The object of this standard is to lay down the definitions and to state the service conditions, construction requirements, technical characteristics and tests for low-voltage switchgear and controlgear ASSEMBLIES.
Document Number:
NL IEC 60439 2 : 2010
Sector:
Electrical Engineering
Status:
C
Production Year:
2010
Price:
50000.0000
Add the following paragraphs: This International Standard applies to busbar trunking systems (BTS) and their accessories for feeding and distributing electrical power in residential, retail, public, agricultural and industrial premises. It also applies to busbar trunking systems which are designed to incorporate communication and/or control systems or intended to supply luminaires through tap-off units but does not apply to supply track systems in accordance with IEC 60570. The busbar trunking systems considered in this standard are type-tested ASSEMBLIES (TTA) when tested in accordance with clause 8 of this standard; variations in length and angles of bends are considered to be covered. Tap-off units may be partially type-tested ASSEMBLIES (PTTA).
Document Number:
NL IEC 60439 3 : 2010
Sector:
Electrical Engineering
Status:
C
Production Year:
2010
Price:
35000.0000
This standard gives supplementary requirements for such enclosed distribution boards (DBU), which are stationary, type tested assemblies (TTA) for indoor use, containing protective devices and intended for use either in domestic (household) applications or in other places where unskilled persons have access for their use. Control and/or signalling devices may also be included. They are for use on a.c., with a nominal voltage to earth not exceeding 300 V. The outgoing circuits contain short-circuit protective devices, each having a rated current not exceeding 125 A with a total incoming load current not exceeding 250 A. NOTE The nominal voltage to earth in an IT system is taken as the nominal voltage of the system. Unskilled persons normally have access to these assemblies, e.g. for switching operations and for replacing fuse-links
Document Number:
NL IEC 60439 4 : 2010
Sector:
Electrical Engineering
Status:
C
Production Year:
2010
Price:
35000.0000
Replace the last three paragraphs by the following: This standard applies to type-tested ASSEMBLIES (TTA) intended for use on construction sites, i.e. temporary places of work to which the public do not generally have access and where building construction, installation, repairs, alteration or demolition of property (buildings) or civil engineering (public works) or excavation or any other similar operations are carried out. These ASSEMBLIES may be transportable (semi-fixed) or mobile. This standard does not apply to ASSEMBLIES for use in the administrative centres of construction sites (offices, cloakrooms, ASSEMBLY rooms, canteens, restaurants, dormitories, toilets, etc.). The nominal primary voltage and the nominal secondary voltage of transformers incorporated in ACS shall be within the limits specified in IEC 60439-1. Requirements for electrical protection provided by equipment manufactured according to this International Standard shall comply with the requirements given in IEC 60364-7-704. NOTE This standard may be used as a guide to partially type-tested ASSEMBLIES (PTTA) constructed according to agreement between manufacturer and user taking into account the nature of supply and/or distribution network and relevant installation requirements
Document Number:
NL EN 60730 2 7 : 2010
Sector:
Electrical Engineering
Status:
C
Production Year:
2010
Price:
25000.0000
This clause of Part 1 is replaced as follows: 1.1 In general, this standard applies to timers and time switches for household and similar use that may use electricity, gas, oil, solid fuel, solar thermal energy, etc. or a combination thereof, including heating, air conditioning and similar applications. Throughout this standard the word “timers” means timers and time switches, unless the type is specifically mentioned. Devices which only indicate time or passage of time are not included. This standard does not apply to multi-functional controls having an integrated timing function which is not capable of being tested as a separate timing device. This standard does not apply to time-delay switches (T.D.S.) within the scope of IEC 669-2-3. This standard is also applicable to individual timers utilized as part of a control system or timers which are mechanically integral with multifunctional controls having non-electrical outputs. 1.1.1 This standard applies to the inherent safety, to the operating values, operating sequences where such are associated with equipment protection, and to the testing of timers used in, on or in association with household and similar equipment. This standard is also applicable to timers for appliances within the scope of IEC 335. 1.1.2 This standard applies to manual controls when such are electrically and/or mechanically integral with timers. Manual switches not forming part of an automatic control shall comply with IEC 1058-1. 1.2 This standard applies to controls with a rated voltage not exceeding 660 V and a rated current not exceeding 63 A. 1.3 This standard does not take into account the response value of an automatic action of a control, if such a response value is dependent upon the method of mounting the control in the equipment. If a response value is of significant purpose for the safety of the user or surroundings, the value defined in the appropriate household equipment standard or as determined by the manufacturer shall apply. 1.4 This standard applies also to timers incorporating electronic devices, requirements for which are contained in Annex H. 1.5 Normative references This subclause of part 1 applies except as follows: Add the following IEC standard. IEC 669-2-3:1984, Switches for household and similar fixed electrical installations —Part 2: Particular requirements for time-delay switches (T.D.S.).
Document Number:
NL EN 60730 1 : 2010
Sector:
Electrical Engineering
Status:
C
Production Year:
2010
Price:
50000.0000
1.1 In general, this standard applies to automatic electrical controls for use in, on, or in association with equipment for household and similar use, including controls for heating, air-conditioning and similar applications. The equipment may use electricity, gas, oil, solid fuel, solar thermal energy, etc., or a combination thereof. 1.1.1 This standard applies to the inherent safety; to the operating values, operating times, and operating sequences where such are associated with equipment safety; and to the testing of automatic electrical control devices used in, or in association with, household or similar equipment. This standard is also applicable to controls for appliances within the scope of IEC 60335-1. Throughout this standard the word "equipment" means "appliance and equipment." This standard does not apply to automatic electrical controls intended exclusively for industrial applications unless explicitly mentioned in the relevant Part 2. This standard is also applicable to individual controls utilized as part of a control system or controls which are mechanically integral with multifunctional controls having non-electrical outputs. Automatic electrical controls for equipment not intended for normal household use, but which nevertheless may be used by the public, such as equipment intended to be used by laymen in shops, in light industry and on farms, are within the scope of this standard. See also annex J. 1.1.2 This standard applies to automatic electrical controls, mechanically or electrically operated, responsive to or controlling such characteristics as temperature, pressure, passage of time, humidity, light, electrostatic effects, flow, or liquid level, current, voltage, acceleration, or combinations thereof. 1.1.3 This standard applies to starting relays, which are a specific type of automatic electrical control, intended to switch the starting winding of a motor. Such controls may be built into, or be separate from, the motor. 1.2 This standard applies to controls with a rated voltage not exceeding 690 V and with a rated current not exceeding 63 A. 1.3 This standard does not take into account the response value of an automatic action of a control, if such a response value is dependent upon the method of mounting the control in the equipment. Where a response value is of significant purpose for the protection of the user, or surroundings, the value defined in the appropriate household equipment standard or as determined by the manufacturer shall apply. 1.4 This standard applies also to controls incorporating electronic devices, requirements for which are contained in annex H. This standard applies also to controls using NTC or PTC thermistors, requirements for which are contained in annex J NOTE Starting relays are tested as voltage sensing or current sensing controls. 1.1.4 This standard applies to manual controls when such are electrically and/or mechanically integral with automatic controls. Requirements for manual switches not forming part of an automatic control are contained in IEC 61058-1. ‰This standard is also applicable to the safety and operating values of relays when used as controls for EN 60335 appliances. Additional requirements for the safety and operating values of relays, when used as controls in appliances within the scope of EN 60335, are contained in Annex ZE. NOTE 1 These requirements are referred to in Clause 1 of EN 61810-1. NOTE 2 This standard is not intended to be used as a standalone standard for the testing of relays other than those used in appliances within the scope of EN 60335. Š
Document Number:
NL EN 1337 5 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
50000.0000
This part of EN 1337 specifies the requirements for the design and manufacture of pot bearings which will be used for operating temperatures between – 40 °C and 50 °C. This part of EN 1337 does not apply to pot bearings made with other materials than those specified in clause 5. Bearings which are subjected to rotation αd greater than 0,030 rad (see Figure 2) under the characteristic combination of actions or which incorporate elastomeric pads larger than 1500 mm in diameter are beyond the scope of this document. Depending on the climatic region where the construction work is located the bearings can be designed to one of the following classes related to minimum operating temperatures (the minimum shade air temperatures): - 25 °C or – 40 °C. When required to accommodate translational movements, pot bearings may be combined with sliding elements in accordance with EN 1337-2. NOTE The minimum shade air temperature for a location should be obtained from meteorological data appropriate to a 120 year return period. Consideration should be given to adjustment of this temperature for height and local divergence such as frost pockets and sheltered low-lying areas if the data obtained applies to a general area rather than to a specific location.
Document Number:
NL EN 13362 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
35000.0000
This European Standard specifies the relevant characteristics of geosynthetic barriers, including polymeric geosynthetic barriers, clay geosynthetic barriers and bituminous geosynthetic barriers, when used as fluid barriers in the construction of canals, and the appropriate test methods to determine these characteristics. The intended use of these products is to control the leakage of water through the construction. This European Standard is not applicable to geotextiles or geotextile-related products. This European Standard provides for the evaluation of conformity of the product to this European Standard. This European Standard defines requirements to be met by manufacturers and their authorised representatives with regard to the presentation of product properties. This European Standard does not cover applications where the geosynthetic barrier is to be in contact with water that has been treated for human consumption. NOTE Where potable water is or may be in direct contact
Document Number:
NL EN 14399 1 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
35000.0000
This document specifies the general requirements for the components of bolt/nut/washer(s) assemblies for highstrength structural bolting, which are suitable for preloading, and for the assemblies themselves. Examples for components which fulfil the requirements of this document are specified in EN 14399-3, EN 14399-4, EN 14399-5 and EN 14399-6. NOTE For clauses of this document addressing the provisions of the EU Construction Products Directive, see Annex ZA.
Document Number:
NL EN 13491 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
35000.0000
This document specifies the relevant characteristics of geosynthetic barriers, including polymeric geosynthetic barriers, clay geosynthetic barriers and bituminous geosynthetic barriers, when used as fluid barriers in the construction of tunnels and underground structures, and the appropriate test methods to determine these characteristics. The intended use of these products is to control the leakage of water through the construction wall. This document is not applicable to geotextiles or geotextile-related products. This document provides for the evaluation of conformity of the product to this document. This document defines requirements to be met by manufacturers and distributors with regard to the presentation of product properties. This document does not cover applications where the geosynthetic barrier is to be in contact with water that has been treated for human consumption. NOTE: Where potable water is or may be in direct contact with the product the designer should also refer to other relevant standards, requirements and/or regulations.
Document Number:
NL EN 682 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
25000.0000
This European Standard specifies requirements for elastomeric materials used in seals for supply pipes and fittings, ancillaries and valves at operating temperatures in general from - 5 °C up to 50 °C and in special cases from - 15 °C up to 50 °C, for the following: General applications (see Table 4, type G) a) gaseous fuel (manufactured, natural and liquefied petroleum gas [LPG] in gaseous phase); b) hydrocarbon fluids with aromatic content up to 30 % ( V / V ), including LPG in liquid phase. Special applications (see Table 4, type H) Materials suitable for carrying gaseous fuels containing gas condensates and hydrocarbon fluids of unrestricted aromatic content. 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 European Standard should be used where appropriate with product standards which specify performance requirements for joints. This European Standard is applicable to joint seals for all pipeline materials including iron, steel, copper and plastics. In the case of composite seals requirements in 4.2.8 and 4.2.9 apply only when the materials used for any elastomeric parts come into contact with gaseous fuel or hydrocarbon fluid. Elongation at break, tensile strength, compression set and stress relaxation requirements for materials of hardness categories 80 and 90 apply only when they constitute that part of the seal which participates directly in the sealing function or in long term stability. This standard is not applicable to the following: a) seals made from cellular materials; b) seals with enclosed voids as part of their design; c) seals with requirements of resistance to flame or to thermal stress; d) seals which contain splices joining pre-vulcanized profile ends.
Document Number:
NL EN 12150 2 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
35000.0000
This document covers the evaluation of conformity and the factory production control of flat thermally toughened soda lime silicate safety glass for use in buildings. Note: For glass products with electrical wiring or connections for, e.g. alarm or heating purposes, other directives, e.g. Low Voltage Directive, may apply.
Document Number:
NL EN 14904 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
35000.0000
This European Standard specifies requirements for surfaces for indoor facilities for multi-sports use. It also covers surface systems which include both their supporting and upper layers whether prefabricated, produced in situ or a combination of the two. It also provides for the evaluation of conformity of products to the requirements of this European Standard. This European Standard is not applicable to indoor tennis halls. NOTE "Multi-sports" will be defined by appropriate national provisions
Document Number:
NL EN 14246 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
35000.0000
This European Standard specifies the characteristics and performance of factory made cast gypsum elements, for which the main intended uses are the construction of suspended ceilings under universal substrates. It covers the following product performance characteristics: reaction to fire, water vapour permeability, flexural strength (expressed as breaking load) and thermal resistance (expressed as thermal conductivity). The following performance characteristics are linked to systems assembled with gypsum elements for suspended ceilings: fire resistance, direct airborne sound insulation and acoustic absorption, which can be measured according to the corresponding European test methods. If required, tests should be done on assembled system simulating the end use conditions. This European Standard describes the reference tests for technical specifications. This European Standard also covers additional technical characteristics that are of importance for the use and the acceptance of the product by the construction industry and the reference tests for these characteristics. It provides for the evaluation of conformity of the product to this European Standard. This European Standard does not cover metal ceiling grids or plasterboard products. This European Standard excludes stiffening timber roof truss structure applications.
Document Number:
NL EN 13454 1 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
35000.0000
This document applies to calcium sulphate binders and composite binders made of calcium sulphate used for the manufacture of floor screeds for interior use in buildings. It also includes requirements for factory made mixtures made of calcium sulphate used for the manufacture of floor screeds which are given in EN 13813. This document does not cover the application of floor screeds. Floor screeds made with products covered by this document may contribute to thermal and sound insulation and fire protection of the floor.
Document Number:
NL EN 13658 1 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
35000.0000
This European Standard specifies the requirements and test methods of metal lath and beads for internal plaster-ing. This European Standard covers metal lath intended to be used for fixing to structures or solid backgrounds to pro-vide a key to hold the plaster in position. Metal lath is used vertically to support linings for walls, partitions and col-umns and horizontally to support linings for ceilings and beams. Used in this way it enables fire protecting plaster-ing systems to be provided. This European Standard covers metal beads intended to be used to improve the protection of corners and also provide features to the internal finish of the construction as well as metal beads intended to be used as depth gauge beads and movement or expansion beads. They also contribute to fire protection.
Document Number:
NL EN 13815 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
50000.0000
This European Standard specifies the characteristics and performance requirements for fibrous gypsum plaster cast-sections, rigid sheets, rigid tiles - made by various techniques in factories or workshops. This European Standard is applicable to: - conventional series produced products; - series produced products with varying properties ; - individual (and non-series) produced products, insofar required to be CE marked. See 4.1 and annex D concerning the classification of the fibrous gypsum plaster casts. This European Standard covers the following performance characteristics of the fibrous gypsum plaster casts : reaction to fire, thermal resistance, as well as resistance to impact by a hard steel ball and cohesion. The following performance characteristics are linked to systems assembled with fibrous gypsum plaster casts : fire resistance, impact resistance, direct airborne sound insulation, acoustic absorption to be measured according to the corresponding European test methods. If required, tests have to be done on assembled systems simulating the end use conditions. This European Standard defines the reference test methods for the technical specifications. This European Standard also covers additional technical characteristics of fibrous gypsum plaster casts that are of importance for use and acceptance of the products by the building industry and the reference tests for these characteristics. It provides for assessment of conformity of the products to this standard. This standard does not apply to: i) fibre reinforced gypsum sheet products (see pr EN 15283); ii) gypsum elements for suspended (see EN 14246); iii) solid casts; iv) run fibre reinforced products; v) plaster based stucco casts, carton pierre decors, resin decors; vi) moulds, models and mock-ups made of fibrous gypsum plaster; vii) fibrous gypsum plaster casts that, by nature, are not intended to be fastened in position
Document Number:
NL EN 14209 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
35000.0000
This European Standard specifies the characteristics and performance of preformed plasterboard cornices intended to be used in building construction works either as part of the original specification or subsequently for improved decorative enrichment of the wall/ceiling angle in rooms. This standard covers the performance characteristics: reaction to fire and flexural strength. This standard covers also additional technical characteristics that are of importance for the use and acceptance of the product by the Construction Industry and the reference tests for these characteristics. It provides the assessment and verification of constancy of performance of the products. This standard does not cover plain plaster and gypsum fibrous plasterwork cornices.
Document Number:
NL EN 12860 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
25000.0000
This European Standard specifies the characteristics and performance of gypsum based adhesives used for assembling gypsum blocks or other gypsum units. It covers the following performance characteristics related to the essential requirements : reaction to fire ; release of dangerous substances ; measured according to the corresponding European test methods. It defines the reference tests for technical specifications. It provides for the evaluation of conformity of the product to this European Standard. This European Standard covers also additional technical characteristics that are of importance for the use and acceptance of the product by the Building Industry : direct airborne sound insulation ; bond strength ; thermal resistance calculated with thermal conductivity values from the Table 1 (see 5.3.2).
Document Number:
NL EN 13279 1 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
35000.0000
This European Standard specifies the characteristics and performance of powder products based on gypsum binder for building purposes. This includes premixed gypsum building plasters for plastering of walls and ceilings inside buildings where they are applied as a finishing material which can be decorated. These products are specially formulated to meet their application requirements by the use of additives/admixtures, aggregates and other binders. Gypsum and gypsum based building plasters for manual and mechanical applications are included. This European Standard also applies to gypsum binders both for direct use on site and for further processing into gypsum blocks, gypsum plasterboards, gypsum boards with fibrous reinforcement, gypsum fibrous plasterwork and gypsum ceiling elements. Gypsum mortar for internal not load bearing partitions not exposed to water is also included. Calcium sulfate used as binder for floor screeds is not covered by this European Standard. This European Standard defines the reference tests for technical characteristics and provides for the evaluation of conformity of the products covered by this European Standard. Building lime, as calcium hydroxide, can be used as an additional binder together with gypsum binder. If gypsum binder is the principle active binding component in a plaster then this plaster is covered by this European Standard. If building lime is the principle active binding component in a plaster then the plaster is covered by EN 998-1.
Document Number:
NL EN 60065 : 2010
Sector:
Electrical Engineering
Status:
C
Production Year:
2010
Price:
50000.0000
This International Safety Standard applies to electronic apparatus designed to be fed from the MAINS, from a SUPPLY APPARATUS, from batteries or from REMOTE POWER FEEDING and intended for reception, generation, recording or reproduction respectively of audio, video and associated signals. It also applies to apparatus designed to be used exclusively in combination with the above-mentioned apparatus. This standard primarily concerns apparatus intended for household and similar general use but which may also be used in places of public assembly such as schools, theatres, places of worship and the workplace. PROFESSIONAL APPARATUS intended for use as described above is also covered unless falling specifically within the scope of other standards. This standard concerns only safety aspects of the above apparatus; it does not concern other matters, such as style or performance. This standard applies to the above-mentioned apparatus, if designed to be connected to the TELECOMMUNICATION NETWORK or similar network, for example by means of an integrated modem. Some examples of apparatus within the scope of this standard are: – receiving apparatus and amplifiers for sound and/or vision; – independent LOAD TRANSDUCERS and SOURCE TRANSDUCERS; – SUPPLY APPARATUS intended to supply other apparatus covered by the scope of this standard; – ELECTRONIC MUSICAL INSTRUMENTS, and electronic accessories such as rhythm generators, tone generators, music tuners and the like for use with electronic or non-electronic musical instruments; – audio and/or video educational apparatus; – video projectors; NOTE 1 Film projectors, slide projectors, overhead projectors are covered by IEC 60335-2-56 [5]1) – video cameras and video monitors; – video games and flipper games; NOTE 2 Video and flipper games for commercial use are covered by IEC 60335-2-82 [6] – juke boxes; – electronic gaming and scoring machines; NOTE 3 Electronic gaming and scoring machines for commercial use are covered by IEC 60335-2-82 [6] ( 1) Figures in square brackets refer to the bibliography.teletext equipment; – record and optical disc players; – tape and optical disc recorders; – antenna signal converters and amplifiers; – antenna positioners; – Citizen's Band apparatus; – apparatus for IMAGERY; – electronic light effect apparatus; – apparatus for use in alarm systems; – intercommunication apparatus, using low voltage MAINS as the transmission medium; – cable head-end receivers; – multimedia apparatus; NOTE 4 The requirements of IEC 60950 may also be used to meet the requirements for safety of multi media apparatus (see also IEC Guide 112 [16]) – professional general use amplifiers, record or disc players, tape players, recorders, and public address systems; – professional sound/video systems. 1.1.2 This standard applies to apparatus with a RATED SUPPLY VOLTAGE not exceeding – 250 V a.c. single phase or d.c. supply ; – 433 V a.c. in the case of apparatus for connection to a supply other than single-phase. 1.1.3 This standard applies to apparatus for use at altitudes not exceeding 2 000 m above sea level, primarily in dry locations and in regions with moderate or tropical climates. For apparatus with protection against splashing water, additional requirements are given in annex A. For apparatus to be connected to TELECOMMUNICATION NETWORKS, additional requirements are given in annex B. For apparatus intended to be used in vehicles, ships or aircraft, or at altitudes exceeding 2 000 m above sea level, additional requirements may be necessary. NOTE See table A.2 of IEC 60664-1. Requirements, additional to those specified in this standard, may be necessary for apparatus intended for special conditions of use. 1.1.4 For apparatus designed to be fed from the MAINS, this standard applies to apparatus intended to be connected to a MAINS supply with transient overvoltages not exceeding overvoltage category II according to IEC 60664-1. For apparatus subject to transient overvoltages exceeding those for overvoltage category II, additional protection may be necessary in the MAINS supply of the apparatus
Document Number:
NL ISO TR 13530 : 2010
Sector:
Food Technology
Status:
C
Production Year:
2010
Price:
50000.0000
This Technical Report (type 2) is a guide with the objective of providing detailed and comprehensive guidance on a coordinated programme of within-laboratory and between-laboratory quality control for ensuring the achievement of results of adequate and specified accuracy in the analysis of waters and associated materials. This Technical Report and its annexes are applicable to the chemical and physicochemical analysis of natural waters (including sea water), waste water, raw water intended for the production of potable water, and potable water. It is not intended for application to the analysis of sludges and sediments (although many of its general principles are applicable to such analysis) and it does not address the biological or microbiological examination of water. Whilst sampling is an important aspect, this is only briefly considered. I Analytical quality control as described in this Technical Report is intended for application to water analysis carried out within a quality assurance programme. This Technical Report does not address the detailed requirements of quality assurance for water analysis. The recommendations of this Technical Report are in agreement with the recommendations of established quality assurance documentation (for example IS0 Guide 25 and EN 45001). A discussion of quality systems in water analysis is provided in clause 4 to set in context the recommendations on quality control. This Technical Report is applicable to the use of all analytical methods within its field of application, although its detailed recommendations may require interpretation and adaptation to deal with certain types of determinand (for example non-specific determinands such as suspended solids or biochemical oxygen demand). In the event of any disparity between the recommendations of this Technical Report and the requirements of a standard method of analysis, the requirements of the method should prevail.
Document Number:
NL ISO 15587 1 : 2010
Sector:
Food Technology
Status:
C
Production Year:
2010
Price:
35000.0000
This part of ISO 15587 specifies a method for extracting trace elements from a water sample using aqua regia as a digestion agent. The method is applicable to all types of waters with a suspended solids mass concentration of less than 20 g/l and a mass concentration of total organic carbon (TOC) expressed as carbon of less than 5 g/l. The aqua regia digestion method is empirical and it might not release elements completely. However, for most environmental applications, the result is fit for purpose. Aqua regia digestion is suitable for the release of: Ag, Al, As, B, Ba, Be, Ca, Cd, Co, Cr, Cu, Fe, Hg, K, Mg, Mn, Mo, Na, Ni, P, Pb, Sb, Se, Sn, Sr, Tl, V, Zn. It is not suitable for the digestion of refractory compounds such as SiO 2, TiO2 and Al2O3. The presence of chloride in the digestion solution may limit the application of analytical techniques. The method is generic and may be implemented using a wide variety of equipment provided the digestion composition is unchanged, the digestion temperature is known, and the digestion duration is in accordance with this temperature.
Document Number:
NL ISO 15587 2 : 2010
Sector:
Food Technology
Status:
C
Production Year:
2010
Price:
35000.0000
This part of ISO 15587 specifies a method for extracting trace elements from a water sample using nitric acid as a digestion agent. The method is applicable to all types of waters with a suspended solids concentration of less than 20 g/l and a total organic carbon (TOC) concentration expressed as carbon of less than 5 g/l. The nitric acid digestion method is empirical and it might not necessarily release elements completely. However, for most environmental applications the result is fit for purpose. Nitric acid digestion is suitable for the release of: Al*, As, B, Ba*, Be*, Ca, Cd, Co, Cr*, Cu, Fe*, Hg, K, Mg*, Mn, Mo, Na, Ni, P, Pb, Se, Sr, Tl, V*, Zn (asterisk indicates a possible lower recovery compared to the aqua regia digestion method specified in ISO 15587-1). It is suitable for the release of Ag only if the sample is stabilized immediately after digestion. Nitric acid digestion is not suitable for Sb, Sn and for the digestion of refractory compounds such as SiO 2, TiO2 and Al2O3. The method is generic and may be implemented using a wide variety of equipment provided the digestion composition is unchanged, the digestion temperature is known, and the digestion duration is in accordance with this temperature.
Document Number:
NL EN 60335 2 68 : 2010
Sector:
Electrical Engineering
Status:
C
Production Year:
2010
Price:
35000.0000
This clause of Part 1 is replaced by the following. This European Standard deals with the safety of electrical portable, non self-propelled motor-operated spray extraction machines with or without attachments and with or without electrical heating elements, intended for commercial indoor use. NOTE Z101 Commercial use of spray extraction machines is for example their use in hotels, schools, hospitals, factories, shops and offices for other than normal housekeeping purposes and rental services for those machines. The following power systems are covered: – mains powered motors up to a rated voltage of 250 V for single-phase appliances and 480 V for other appliances, – battery powered motors. This standard applies to machines in which the pressure of the employed cleaning agent does not exceed 2,5 MPa, and in which the product of the pressure (in MPa) and the flow of cleaning agent (in litres per minute) does not exceed 100, and in which the temperature of the cleaning agent at the spray nozzle outlet does not exceed 85 ºC. NOTE Z102 Attention is drawn to the fact that in many countries additional requirements on the safe use of the equipment covered may be specified by the national health authorities, the national authorities responsible for the protection of labour, the national water supply authorities and similar authorities. This standard does not apply to – machines designed to be part of a production process; – wet and dry vacuum cleaners as covered by IEC 60335-2-69; – machines designed for picking up hazardous dusts, inflammable substances, or aflame particles; – floor treatment machines for commercial use; NOTE Z103 IEC 60335-2-67 covers floor cleaning and floor treatment machines for industrial and commercial use. IEC 60335-2-72 covers automatic floor treatment machines for industrial and commercial use. – machines designed for use in corrosive or explosive environments (dust, vapour or gas); – hand-held appliances; – hand-held and transportable motor-operated electric tools. NOTE Z104 The IEC 60745 series covers hand-held motor-operated electric tools; the IEC 61029 series covers transportable motor-operated electric tools.
Document Number:
NL EN 60335 2 69 : 2010
Sector:
Electrical Engineering
Status:
C
Production Year:
2010
Price:
50000.0000
This clause of Part 1 is replaced by the following. This European Standard deals with the safety of electrical motor-operated vacuum cleaners, including back-pack vacuum cleaners, for wet suction, dry suction, or wet and dry suction, intended for commercial indoor or outdoor use with or without attachments. NOTE Z101 Commercial use of these vacuum cleaners is for example their use in hotels, schools, hospitals, factories, shops and offices for other than normal housekeeping purposes. The following power systems are covered: – mains powered motors up to a rated voltage of 250 V for single-phase appliances and 480 V for other appliances, – battery powered motors. This standard also applies to machines handling hazardous dust, such as asbestos. NOTE Z102 Additional requirements for machines handling hazardous dust are given in Annex AA. Attention is drawn to the fact that in many countries additional requirements on hazardous substances might apply. NOTE Z103 Radioactive substances are not covered by definition of hazardous dust for the purpose of this standard. NOTE Z104 Attention is drawn to the fact that in many countries additional requirements on the safe use of the equipment covered may be specified by the national health authorities, the national authorities responsible for the protection of labour, the national water supply authorities and similar authorities. This standard does not apply to – machines designed to be part of a production process; – machines designed for use in corrosive environments; – machines designed for picking up liquids with a flash point below 55 °C; – machines designed for use in explosive environments (dust, vapour or gas), except those designed for use in zone 22; NOTE Z105 Additional requirements for vacuum cleaners designed for collecting combustible dust in zone 22 are given in Annex CC. – vacuum cleaners and water-suction cleaning appliances for household use as covered by IEC 60335-2-2 ; – spray extraction machines as covered by IEC 60335-2-68; – floor treatment machines for commercial use; NOTE Z106 IEC 60335-2-67 covers floor cleaning and floor treatment machines for industrial and commercial use. IEC 60335-2-72 covers automatic floor treatment machines for industrial and commercial use. – hand-held mains-operated electrical garden blowers, vacuums and blower vacuums as covered by IEC 60335-2-100; – centrally sited stationary vacuum cleaning systems; – hand-held appliances; NL EN 60335-2-69:2010 &<6 EN 60335-2-69:2009 – 8 – – hand-held and transportable motor-operated electric tools. NOTE Z107 The IEC 60745 series covers hand-held motor-operated electric tools; the IEC 61029 series covers transportable motor-operated electric tools.
Document Number:
NL EN 60335 2 89 : 2010
Sector:
Electrical Engineering
Status:
C
Production Year:
2010
Price:
50000.0000
This clause of Part 1 is replaced by the following. This part of IEC 60335 specifies safety requirements for electrically operated commercial refrigerating appliances that have an incorporated compressor or that are supplied in two units for assembly as a single appliance in accordance with the manufacturer’s instructions (split system). NOTE 101 Examples of appliances that are within the scope of this standard are – refrigerated display and storage cabinets; –refrigerated trolley cabinets; –s ervice counters and self-service counters; –b last chillers and blast freezers. As far as is practicable, this standard deals with the common hazards presented by these types of appliances. It does not cover those features of construction and operation of refrigerating appliances which are dealt with in ISO standards. NOTE 102 Attention is drawn to the fact that – for appliances intended to be used in vehicles or on board ships or aircraft, additional requirements may be necessary; NOTE 103 This standard does not apply to – domestic refrigerating appliances (IEC 60335-2-24) – industrial refrigerating systems ; – motor-compressors (IEC 60335-2-34); – commercial dispensing appliances and vending machines (IEC 60335-2-75); – commercial ice-cream appliances; –c ommercial ice makers; –c old temperature rooms; –m ultiple refrigerated chambers with a remote compressor. NOTE 104 Appliances with a charge of more than 150 g of flammable refrigerant in each separate refrigerant circuit are not covered by this standard. For appliances with a charge greater than 150 g of flammable refrigerant in each refrigerant circuit and for the installation, ISO 5149 may be applied. Consequently, such appliancescannot be assessed for safety using this part 2. - in many countries, additional requirements are specified by national authorities. 2010 English 35000.00 1
1662 1777 C NL EN 60335 2 90 : 2010 NL TC 3009 97.040.20 60.60 Electrical Engineering Household and similar electrical appliances - Safety - Part 2-90: Particular requirements for commercial microwave ovens This clause of Part 1 is replaced by the following. This International Standard deals with: • the safety of microwave ovens with a cavity door intended for commercial use, their rated voltage being not more than 250 V for single-phase appliances connected between one phase and neutral and 480 V for other appliances. • the safety of combination microwave ovens with a cavity door, the requirements for which are contained in Annex AA. • the safety of microwave ovens without a cavity door and with transportation means that are intended for commercial use only, for the heating of food and beverages, the requirements for which are contained in Annex BB.. Microwave ovens, covered by annex BB, have transportation means for moving the microwave load through the microwave oven. Requirements for tunnel microwave ovens and several types of microwave vending machines are covered. NOTE 101 In annex BB a microwave oven without a cavity door and with transportation means is described as a microwave oven. All clauses of this standard apply to these appliances unless otherwise specified in Annex BB. This international standard also takes into account ordinary persons having access to the removing area of the vending machine. NOTE 102 The appliance may be built into a vending machine, in which case IEC 60335-2-75 may also be applicable. NOTE 103 Appliances that use non-electrical energy are within the scope of this standard. In general, this standard does not take into account – the use of appliances by young children or infirm persons without supervision; – playing with the appliance by young children. This international standard does not take into account the use of a microwave oven without a cavity door and with transportation means by ordinary persons except in the vicinity of entrance and exit ports. NOTE 104 The rationales for particular microwave exposure conditions and measures related to microwave energy being confined by an open structure are in Annex BB. NOTE 105 Attention is drawn to the fact that – for appliances intended to be used in vehicles or on board ships or aircraft, additional requirements may be necessary; – for appliances intended to be used in tropical countries, special requirements may be necessary; NL EN 60335-2-90:2010 (1 60335-2-90:2006 – 17 – – in many countries, the national health authorities, the national authorities responsible for the protection of labour and similar authorities specify additional requirements; – in many countries, national authorities specify additional requirements to BB 22.119.1; – responsible for the protection of labour and similar authorities NOTE 106 This standard does not apply to, – household microwave ovens including combination microwave ovens (IEC 60335-2-25) – industrial microwave heating equipment (IEC 60519-6) – appliances for medical purposes (IEC 60601) – appliances intended to be used in locations where special conditions prevail, such as the presence of a corrosive or explosive atmosphere (dust, vapour or gas). "
Document Number:
NL EN 60335 2 96 : 2010
Sector:
Electrical Engineering
Status:
C
Production Year:
2010
Price:
50000.0000
This clause of Part 1 is replaced by the following. This International Standard deals with the safety of flexible sheet heating elements intended to be incorporated into the building to heat the room in which they are located, their rated voltage being not more than 250 V for single-phase installations and 480 V for other installations. Flexible sheet heating elements are converted into heating units that are incorporated in the building in accordance with the instructions after which the required level of protection against hazards is achieved. NOTE 101 Attention is drawn to the fact that – in many countries different wiring rules apply; – for heating units intended to be used in vehicles or on board ships or aircraft, additional requirements may be necessary; – in many countries additional requirements are specified by the national authorities for fire protection, the national authorities for building regulations, the national health authorities, the national authorities responsible for the protection of labour and similar authorities. NOTE 102 This standard does not apply to – heating units intended exclusively for industrial purposes; – heating units intended to be used in locations where special conditions prevail, such as the presence of a corrosive or explosive atmosphere (dust, vapour or gas); – blankets, pads and similar flexible heating appliances (IEC 60335-2-17); – heated mats and foot warmers (IEC 60335-2-81); – heating appliances intended to be used under a carpet; – flexible heating elements incorporated in other appliances.
Document Number:
NL ISO 15680 : 2010
Sector:
Food Technology
Status:
C
Production Year:
2010
Price:
35000.0000
ISO 15680:2003 specifies a general method for the determination of volatile organic compounds (VOCs) in water by purge-and-trap isolation and gas chromatography (GC). Annexes A, B and C provide examples of analytes that can be determined using ISO 15680:2003. They range from difluorodichloromethane (R-12) up to trichlorobenzene, including all non-polar organic compounds of intermediate volatility. Detection is preferably carried out by mass spectrometry in the electron impact mode (EI), but other detectors may be applied as well. The limit of detection largely depends on the detector in use and the operational parameters. Typically detection limits as low as 10 ng/l can be achieved. The working range typically is up to 100 micrograms per litre. ISO 15680:2003 is applicable to drinking water, ground water, surface water, seawater and to (diluted) waste water.
Document Number:
NL ISO 15681 1 : 2010
Sector:
Food Technology
Status:
C
Production Year:
2010
Price:
35000.0000
ISO 15681-1:2003 specifies flow injection analysis (FIA) methods for the determination of orthophosphate in the mass concentration range from 0,01 mg/l to 1,0 mg/l (P), and total phosphorus by manual digestion in accordance with ISO 6878 for the mass concentration range from 0,1 mg/l to 10 mg/l (P). The range of application can be changed by varying the operating conditions. ISO 15681-1:2003 is applicable to various types of water (such as ground, drinking, surface, leachate and waste waters). This method is also applicable to the analysis of seawater, but with changes in sensitivity, by adaptation of the carrier and calibration solutions to the salinity of the samples.
Document Number:
NL ISO 15586 : 2010
Sector:
Food Technology
Status:
C
Production Year:
2010
Price:
35000.0000
ISO 15586:2003 includes principles and procedures for the determination of trace levels of: Ag, Al, As, Cd, Co, Cr, Cu, Fe, Mn, Mo, Ni, Pb, Sb, Se, Tl, V, and Zn in surface water, ground water, drinking water, wastewater and sediments, using atomic absorption spectrometry with electrothermal atomization in a graphite furnace. The method is applicable to the determination of low concentrations of elements. The detection limit of the method for each element depends on the sample matrix as well as of the instrument, the type of atomizer and the use of chemical modifiers. For water samples with a simple matrix (i.e. low concentration of dissolved solids and particles), the method detection limits will be close to instrument detection limits. The minimum acceptable detection limit values for a 20-microlitre sample volume are specified.
Document Number:
NL ISO 15681 2 : 2010
Sector:
Food Technology
Status:
C
Production Year:
2010
Price:
35000.0000
This document specifies continuous flow analysis (CFA) methods for the determination of orthophosphate in the mass concentration range from 0,01 mg/l to 1,00 mg/l P, and total phosphorus in the mass concentration range from 0,10 mg/l to 10,0 mg/l P. The method includes the digestion of organic phosphorus compounds and the hydrolysis of inorganic polyphosphate compounds, performed either manually, as described in ISO 6878 and in References [4], [5] and [7], or with an integrated ultraviolet (UV) digestion and hydrolysis unit. This document is applicable to various types of water, such as ground, drinking, surface, leachate and waste water. The range of application can be changed by varying the operating conditions. This method is also applicable to the analysis of seawater, but with changes in sensitivity by adapting the carrier and calibration solutions to the salinity of the samples. It is also applicable to analysis using 10 mm to 50 mm cuvettes depending on the desired range. For extreme sensitivity, 250 mm and 500 mm long way capillary flow cells (LCFCs) can be used. However, the method is not validated for these two uses. Changes in sensitivity and calibration solutions could be required. Annex A provides examples of a CFA system. Annex B gives performance data from interlaboratory trials. Annex C gives information of determining orthophosphate-P and total-P by CFA and tin(II) chloride reduction.
Document Number:
NL ISO 15682 : 2010
Sector:
Food Technology
Status:
C
Production Year:
2010
Price:
35000.0000
The procedure is outlined for the analysis of chloride, in the range of 1 to 1000 mg/l, in various water samples (e.g. ground-, drinking-, surface- and waste water, and leachates). On an individual basis the range of the analysis can be changed.
Document Number:
NL ISO 15705 : 2010
Sector:
Food Technology
Status:
C
Production Year:
2010
Price:
35000.0000
Fertilizers containing the condensates of urea and specified aldehydes (with crotonaldehyde called crotonyliden diurea or CDU, with isobutyraldehyde called isobutylidene diurea or IBDU, with formaldehyde called urea formaldehyde or methylene urea or MU) are covered by Annex I of the Regulation (EC) 2003/2003 [1] as nitrogenous fertilizers. The methods described in this European Standard enable the quantitative determination of these condensates and the determination of the solubility of the MU-oligomers according to the Regulation.
Document Number:
NL ISO 15913 : 2010
Sector:
Food Technology
Status:
C
Production Year:
2010
Price:
35000.0000
This standard specifies a method for the determination of phenoxyalkanoic acids in ground and drinking water in mass concentrations > 0,05 µg/l. The single substances are listed in the above mentioned standard. The method includes a solid-liquid extraction, derivatization and gas chromatography with MS detection.
Document Number:
NL ISO 11923 : 2010
Sector:
Food Technology
Status:
C
Production Year:
2010
Price:
25000.0000
This International Standard describes a method for the determination of suspended solids in raw waters, waste waters and effluents by filtration through glass-fibre filters. The lower limit of the determination is approximately 2 mg/l. No upper limit has been established. NOTE 1 Water samples are not always stable, which means that the content of suspended solids depends on storage time, means of transportation, pH value and other factors. Results obtained with unstable samples need to be interpreted with caution. Floating oil and other immiscible organic liquids will interfere (see annex B). Samples containing more than approximately 1 000 mg/l of dissolved solids can require special treatment (see 8.6). NOTE 2 The result of the determination depends to some extent on the type of filter used, see 5.2. It is therefore necessary that the type of filter be specified. NOTE 3 The size distribution of particles in different water samples can vary widely. Therefore there is no correlation between results obtained with filters of different pore diameter, and no conversion factor can be given for the conversion of results obtained with one type of filter to another.
Document Number:
NL ISO 11969 : 2010
Sector:
Food Technology
Status:
C
Production Year:
2010
Price:
25000.0000
This International Standard specifies a method for the determination of arsenic including organically bound arsenic in drinking waters, ground waters and surface waters, in a concentration range from 1 pg/l to 10 l-m Higher concentrations can be determined by using a suitable dilution of the water sample.
Document Number:
NL ISO 14403 : 2010
Sector:
Food Technology
Status:
C
Production Year:
2010
Price:
35000.0000
This International Standard specifies methods for the determination of cyanide in various types of water (such as ground, drinking, surface, leachate and waste water) with cyanide concentrations usually above3 μg/l expressed as cyanide ions. The CFA method is applicable to a mass concentration range from 10 μg/l to 100 μg/l . The range of application may be changed by varying the operation conditions. NOTE Seawater may be analyzed with changes in sensitivity and adaptation of the reagent and calibration solutions to the salinity of the samples.
Document Number:
NL ISO 14911 : 2010
Sector:
Food Technology
Status:
C
Production Year:
2010
Price:
35000.0000
This International Standard specifies a method for the determination of the dissolved cations Li+, Na+, NH4 +, K+, Mn2+, Ca2+, Mg2+, Sr2+ and Ba2+ in water (e.g. drinking water, surface water, waste water). An appropriate pretreatment of the sample (e.g. dilution) and the application of a conductivity detector (CD) make the working ranges given in table 1 feasible. The applicability of the method for waste water samples should be proved in each case.
Document Number:
NL ISO 15061 : 2010
Sector:
Food Technology
Status:
C
Production Year:
2010
Price:
35000.0000
This International Standard specifies a method for the determination of dissolved bromate in water (e.g. drinking water, raw water, surface water, partially treated water or swimming pool water). Appropriate pretreatment of the sample, for example by elimination of chloride, sulfate, metals, preconcentration or dilution, gives a range of applicability of 0,5 μg/l to 1 000 μg/l dissolved bromate. The working range is restricted by the ion-exchange capacity of any preconcentration columns used and that of the separator column. Dilution of the sample to the working range may be necessary.
Document Number:
NL ISO 15089 : 2010
Sector:
Food Technology
Status:
C
Production Year:
2010
Price:
35000.0000
This European Standard describes the general requirements for explosion isolation systems. An explosion isolation system is a protective system, which prevents an explosion pressure wave and a flame or only a flame from propagating via connecting pipes or ducts into other parts of apparatus or plant areas. This European Standard specifies methods for evaluating the efficacy of the various explosion isolation systems, and methods for evaluating design tools for such explosion isolation systems when applying these in practice. This European Standard also sets out the criteria for alternative test methods and interpretation means to validate the efficacy of explosion isolations. It covers e.g.: a) general requirements for the explosion isolation components; b) evaluating the effectiveness of an explosion isolation system; c) evaluating design tools for explosion isolation systems. This European Standard is applicable only to the use of explosion isolation systems that are intended for avoiding explosion propagation between interconnected enclosures, in which an explosion may result as a consequence of ignition of an explosive mixtures e.g., dust-air mixtures, gas-(vapour-)air mixtures, dust-, gas-(vapour-)air mixtures and mists. In general explosion isolation systems are not designed to prevent the transmission of fire or burning powder either of which can initiate an explosion in downstream plant items. It is necessary to take this situation into account in risk assessments. This European Standard is only applicable for gas and dust explosions of chemically stable substances and mixtures of these (flame propagating at subsonic velocity). This European Standard is not applicable for explosions of materials listed below, or for mixtures containing some of those materials: i) chemically unstable substances that are liable to decompose; ii) explosive substances; iii) pyrotechnic substances.
Document Number:
NL EN 12094 8 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
35000.0000
This European Standard specifies requirements and describes test methods for flexible and rigid connectors used in CO2 - Inert Gas - or Halocarbon gas fire extinguishing systems. This European Standard is applicable to connectors used: - between container valves and the manifold (type 1 and type 5 connector); - in pneumatic pilot lines (type 3 connector); - in distribution pipework of fire extinguishing installations downstream of the manifold/selector valve (type 2 or type 4 connector).
Document Number:
NL EN 12101 1 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
50000.0000
This part of EN 12101 specifies the product performance requirements, classifications and test methods for smoke barriers, which comprise the barrier itself, with or without associated activation and drive devices, designed for use in smoke and heat control systems. It covers only barriers installed in buildings, i.e. it does not cover barriers made of part of the building's structure. This standard provides the test methods for, and evaluation of conformity of, the smoke barrier systems.
Document Number:
NL EN 12101 2 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
35000.0000
This European Standard applies to natural smoke and heat exhaust ventilators (NSHEV) operating as part of smoke and heat exhaust systems (NSHEVS), placed on the market. This standard specifies requirements and gives test methods for natural smoke and heat exhaust ventilators which are intended to be installed in smoke and heat control systems in buildings.
Document Number:
NL EN 12101 3 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
35000.0000
This European Standard specifies the products characteristics of powered smoke and heat control ventilators (fans) intended to be used as part of a powered smoke and heat control ventilation system in construction works. It provides test and assessment methods of the characteristics and the compliance criteria of the test assessment results. This European Standard applies to the following: a) fans for smoke and heat control ventilation; b) impulse/jet fans for smoke and heat control ventilation;
Document Number:
NL EN 12101 6 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
50000.0000
This document specifies pressure differential systems designed to hold back smoke at a leaky physical barrier in a building, such as a door (either open or closed) or other similarly restricted openings. It covers methods for calculating the parameters of pressure differential smoke control systems as part of the design procedure. It gives test procedures for the systems used, as well as describing relevant, and critical, features of the installation and commissioning procedures needed to implement the calculated design in a building. It covers systems intended to protect means of escape such as stairwells, corridors and lobbies, as well as systems intended to provide a protected firefighting bridgehead for the Fire Services. The systems incorporate smoke control components in accordance with the relevant Parts of EN 12101 and kits comprising these and possibly other components (see 3.1.18). This document gives requirements and methods for the evaluation of conformity for such kits.
Document Number:
NL EN 12101 10 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
50000.0000
This European Standard specifies requirements and gives test methods for primary and secondary electrical and pneumatic power supply equipment, designed for use in smoke and heat control systems in buildings. It also provides for the evaluation of conformity of such equipment to the requirements of this European Standard. NOTE A summary of functions is given in Annex A.
Document Number:
NL EN 54 3 : 2010
Sector:
Construction Materials and Building
Status:
C
Production Year:
2010
Price:
35000.0000
This European Standard specifies requirements, test methods and performance criteria for point-type multi-sensor fire detectors for use in fire detection and fire alarm systems installed in and around buildings (see EN 54 1:2011), incorporating in one mechanical enclosure at least one optical or ionization smoke sensor and at least one carbon monoxide (CO) sensor and optionally one or more heat sensors, utilizing the combination of the detected phenomena. This European Standard covers only modes of operation, where at least the signals of both smoke and carbon monoxide sensors are continuously evaluated. This European Standard provides for the assessment and verification of constancy of performance (AVCP) of point detectors using a combination of smoke, carbon monoxide and optionally heat sensors to this EN. Point detectors using a combination of smoke, carbon monoxide and optionally heat sensors, which are having special characteristics suitable for the detection of specific fire risks are not covered by this European Standard. The performance requirements for any additional functions are beyond the scope of this standard (e.g. additional features or enhanced functionality for which this European Standard does not define a test or assessment method).