29.140.30 - Fluorescent lamps. Discharge lamps

SIST EN 62554:2012/A2:2025(Amendment)

Sample preparation for measurement of mercury level in fluorescent lamps and low-pressure mercury UV radiation sources (IEC 62554:2011/AMD2:2025)

EN 62554:2011/A2:2025

Amendment
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31-Jul-2024
08-May-2025
29.140.30
IESV

EN 62554:2011/A2:2025(Amendment)

Sample preparation for measurement of mercury level in fluorescent lamps and low-pressure mercury UV radiation sources

SIST EN 62554:2012/A2:2025

Amendment
5 pages
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10-Apr-2025
29.140.30
CLC/TC 34

IEC 62554:2011/AMD2:2025(Amendment)

Amendment 2 - Sample preparation for measurement of mercury level in fluorescent lamps and low-pressure mercury UV radiation sources

Standard
5 pages
English and French language
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10-Feb-2025
29.140.30
SC 34A

Sample preparation for measurement of mercury level in fluorescent lamps

IEC 62554:2011(Main)

IEC 62554:2011 specifies sample preparation methods for determining mercury levels in new tubular fluorescent lamps (including single capped, double capped, self-ballasted and CCFL for backlighting) containing 0,1 mg mercury or more. The intended resolution of the methods described in this standard is of the order of 5 %. Mercury level measurement of spent lamps is excluded, as during lamp operation, mercury gradually diffuses into the glass wall and reacts with the glass materials. The test method of this standard does not recover mercury that is diffused into or reacted with or otherwise incorporated irreversibly with the glass wall of discharge tubes. This standard does not contain information on measurement. Measurement is specified in IEC 62321.

Standard
44 pages
English language
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Standard
42 pages
English and French language
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Standard
86 pages
English and French language
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10-Feb-2025
29.140.30
SC 34A

ASTM

ASTM G224-23(Practice)

Standard Practice for Operating UVC Lamp Apparatus for Exposure of Materials

SIGNIFICANCE AND USE
5.1 Material resistance to photodegradation caused by exposure to artificial UVC light sources is a growing concern due to the use of ultraviolet germicidal irradiation (UVGI) to mitigate the spread of infectious diseases.
5.2 Materials and products intended for direct sunlight exposure are typically designed to resist the effects of the UVA and UVB light reaching the earth’s surface, but generally they are not tested to determine the effects of exposure to UVC, which is filtered out by the atmosphere.
5.3 Compared to light in the UVA and UVB regions of the electromagnetic spectrum, UVC light, when absorbed by a material, can cause photodegradation to proceed at different rates and by different mechanisms as well as confining degradation to a thinner surface layer.
5.4 Indoor materials and products, which typically are not designed to withstand significant ultraviolet light exposure, are at even greater risk of premature degradation when subjected to UVC exposure.
5.5 This practice is intended to induce property changes consistent with those experienced by materials exposed to artificial UVC light sources with a similar spectral irradiance distribution to those specified in this practice.
SCOPE
1.1 This practice is limited to the basic principles for operating a low-pressure mercury lamp apparatus to assess degradation of materials due to exposure to UVC light; on its own, it does not deliver a specific result.
1.2 It is intended to be used in conjunction with a practice or method that defines specific exposure conditions for an application along with a means to evaluate changes in material properties. This practice is intended to reproduce the photodegradation effects that occur when materials are exposed to artificial light sources that emit radiation primarily in the UVC wavelength band, particularly in the range of 240 nm to 280 nm. This practice is limited to the procedures for obtaining, measuring, and controlling conditions of exposure.
Note 1: Practice G151 describes general procedures to be used when exposing materials in accelerated test devices that use laboratory light sources.
Note 2: A common use of UVC light sources is for the disinfection of surfaces and air, a process known as ultraviolet germicidal irradiation (UVGI). Water disinfection applications using UVC light sources have been in use for many decades.
1.3 This practice does not cover other light sources (e.g. LEDs, excimer lamps, etc.) or any lamps that emit wavelengths primarily outside the range in 1.2.
1.4 Specimens are exposed to UVC light controlled to a specified irradiance level under controlled temperature conditions.
1.5 Specimen preparation and evaluation of the results are covered in ASTM methods or specifications for specific materials. General guidance is given in Practice G151.
1.6 Units—The values stated in SI units are to be regarded as standard. No other units of measurement are included in this standard.
1.7 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.
1.8 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard
6 pages
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31-Jan-2023
29.140.30
G03

EN 62035:2014/A1:2019(Amendment)

Discharge lamps (excluding fluorescent lamps) - Safety specifications

SIST EN 62035:2015/A1:2019

2019-02-26 PC: BT approved the European elements, standard can be published
2019-01-22SW: Waiting for BT document to approve annex ZZ.
2019-01-18; GEM: EY quality review confirmation to consider as 'compliant'
2018-09-26: PEC: LVD assessment 'compliant', can be cited for LVD
2018-07-13 - GEM: [assessment received:2018-07-13] [ref:CLCTC34_61527_PUB_M511_20180601_AR] [outcome:inconclusive] - CCMC/TC to advise how to adress this
2018-04-27: Annex zz recieved - waiting for consultant assessment - shall go to BT
2017-04-26 OD: Publication pending, missing annexZ and missing consultant assessment

Amendment
16 pages
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EN 60662:2012/A11:2019(Amendment)

High-pressure sodium vapour lamps - Performance specifications

SIST EN 60662:2012/A11:2019

2021: CLC legacy converted by DCLab NISOSTS

Amendment
14 pages
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EN 62560:2012/A11:2019(Amendment)

Self-ballasted LED-lamps for general lighting services by voltage > 50 V - Safety specifications

SIST EN 62560:2013/A11:2019

2019-01-22 - after TC 34 input
- LVD (NAC) assessment positive on 2018-03-28
- no relation to RED
publication to proceed
2021: CLC legacy converted by DCLab NISOSTS

Amendment
9 pages
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EN 60188:2001/A11:2019(Amendment)

High-pressure mercury vapour lamps - Performance specifications

SIST EN 60188:2002/A11:2019

2021-03-29FM: CCMC decided not to offer for citation as linked to Directives that have been updated since this standard has been made available.
2021: CLC legacy converted by DCLab NISOSTS

Amendment
12 pages
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ASTM

ASTM D5071-06(2021)(Practice)

Standard Practice for Exposure of Photodegradable Plastics in a Xenon Arc Apparatus

SIGNIFICANCE AND USE
4.1 Materials made from photodegradable plastics are intended to deteriorate rapidly when exposed to solar radiation, oxygen, heat, moisture and other degrading elements of the weather. This practice is used for evaluating the photodegradability of plastics when exposed in an apparatus that produces simulated daylight (1,2)6 and controlled temperature and moisture. The exposure used in this practice is not intended to simulate the deterioration caused by localized weather phenomena such as atmospheric pollution, biological attack, and salt water exposure. There can be no positive correlation of exposure results between this and other laboratory weathering devices.
4.2 Variations in results can be expected when operating conditions are varied within the accepted limits of this practice. Therefore, all test results using this practice must be accompanied by the specific operating conditions required in Section 9. Refer to Practice G151 for detailed information on the caveats applicable to use of results obtained in accordance with this practice.
4.3 The results of laboratory exposure cannot be directly extrapolated to estimate absolute rate of deterioration by the environment because the acceleration factor is material dependent and can be significantly different for each material and for different formulations of the same material. However, exposure of a similar material of known outdoor performance, a control, at the same time as the test specimens allows comparison of the durability relative to that of the control under the test conditions. Evaluation in terms of relative durabilities also greatly improves the agreement in test results among different laboratories (3).
4.4 Test results will depend on the care that is taken to operate the equipment in accordance with Practice G155. Significant factors include regulation of line voltage, freedom from salt or other deposits from water, temperature and humidity control and condition and age of the burners and ...
SCOPE
1.1 This practice covers specific procedures and test conditions that are applicable for xenon arc exposure of photodegradable plastics conducted in accordance with Practices G151 and G155. This practice also covers the preparation of test specimens, the test conditions best suited for photodegradable plastics, and the evaluation of test results.
1.2 This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.
Note 1: This practice is technically equivalent to ISO 4892-2 and Practice D2565 which cover xenon arc exposures of plastics intended for long term use in outdoor applications.
1.3 This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

Standard
6 pages
English language
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30-Nov-2021
13.030.99
29.140.30
D20

EN 61167:2018/A1:2018(Amendment)

SIST EN 61167:2019/A1:2019

This document specifies the performance requirements for metal halide lamps for general lighting purposes. For some of the requirements given in this document, reference is made to "the relevant lamp data sheet". For some lamps, these data sheets are contained in this document. For other lamps, falling under the scope of this document, the relevant data are supplied by the lamp manufacturer or responsible vendor. The requirements of this document relate only to type testing. The requirements and tolerances specified in this document correspond to testing of a type test sample submitted by the manufacturer for that purpose. In principle this type test sample consists of units having characteristics typical of the manufacturer’s production and being as close to the production centre point values as possible. It can be expected that with the tolerances given in this document, the product manufactured in accordance with the type test sample will comply with this document for the majority of production. Due to the production spread however, it is inevitable that there will sometimes be products outside the specified tolerances. For guidance on sampling plans and procedures for inspection by attributes, see ISO 2859-10.

Amendment
4 pages
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EN 61167:2018(Main)

SIST EN 61167:2019

IEC 61167:2018 specifies the performance requirements for metal halide lamps for general lighting purposes. This fourth edition cancels and replaces the third edition published in 2015. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition. a) A set of new lamp data sheets has been introduced for lamp types designed for replacing high pressure sodium lamps. b) A set of new lamp data sheets has been introduced for 4 200 K versions of 3 000 K lamp types already in the standard. c) A set of new lamp data sheets has been introduced for new lamp types where high frequency ignition data is important. d) Annex G has been revised to incorporate high frequency ignition. As a consequence of this change, all data sheets in the standard have been revised to a new format. e) A new informative Annex K has been introduced, giving recommended methods of making lamp temperature measurements.

Standard
415 pages
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EN 60081:1998/A11:2018(Amendment)

Double-capped fluorescent lamps - Performance specifications

SIST EN 60081:1999/A11:2018

2016-01-19: If the vote is accepted update directive information in mother standard.
Common modifications intended for merge with PR=60123 & then transformed to homegrown AMD, as mother EN published as IEC identical
2021: CLC legacy converted by DCLab NISOSTS

Amendment
8 pages
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SIST EN IEC 61228:2021(Main)

Fluorescent ultraviolet lamps used for tanning - Measurement and specification method (IEC 61228:2020)

EN IEC 61228:2020

IEC 61228:2020 is available as IEC 61228:2020 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.

IEC 61228:2020 describes the method of measuring, evaluating and specifying the UV irradiation characteristics of fluorescent ultraviolet lamps that are used in appliances for tanning purposes. It includes specific requirements regarding the marking of such lamps. This third edition cancels and replaces the second edition published in 2008. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition:
- maintenance code: description of the depreciation of the UV irradiance lamp during operation;
- operating position: information added for single capped lamps;
- spectroradiometric measuring system: new information about distance between sensor and lamp axis;
- measurement and evaluation procedure: separated detailed information for double capped fluorescent UV lamps and single capped fluorescent UV lamps;
- Annex C (normative), Method of test for irradiance maintenance: new information added;
- Annex D (normative), Reflector gauge: new information added;
- Annex E (normative), Lamp datasheets for measurement: complementary information added.

Standard
22 pages
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EN IEC 62554:2011/A1:2018(Amendment)

Sample preparation for measurement of mercury level in fluorescent lamps

SIST EN IEC 62554:2012/A1:2018

This International Standard specifies sample preparation methods for determining mercury levels in new tubular fluorescent lamps (including single capped, double capped, self-ballasted and CCFL for backlighting) containing 0,1 mg mercury or more. The intended resolution of the methods described in this standard is of the order of 5 %. Mercury level measurement of spent lamps is excluded, as during lamp operation, mercury gradually diffuses into the glass wall and reacts with the glass materials. The test method of this standard does not recover mercury that is diffused into or reacted with or otherwise incorporated irreversibly with the glass wall of discharge tubes. This standard does not contain information on measurement. Measurement is specified in IEC 62321.

Amendment
6 pages
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08-Feb-2018
21-Nov-2020
29.140.30
CLC/TC 34

EN 60081:1998/A6:2017(Amendment)

Double-capped fluorescent lamps - Performance specifications

SIST EN 60081:1999/A6:2018

Incorporates Common Modifications PR=61095.

Amendment
71 pages
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EN 60901:1996/A6:2017(Amendment)

Single-capped fluorescent lamps - Performance specifications

SIST EN 60901:2001/A6:2019

CMs required - WI=58957
Work started in CLC/SR 34A then transferred in the newly created CLC/TC 34A (D145/097)

Amendment
107 pages
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SIST EN 62035:2015/A1:2019(Amendment)

Discharge lamps (excluding fluorescent lamps) - Safety specifications (IEC 62035:2014/A1:2016)

EN 62035:2014/A1:2019

Amendment
16 pages
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SIST EN 61167:2019/AC:2019(Corrigendum)

Metal halide lamps - Performance specification (IEC 61167:2018/COR1:2019)

EN 61167:2018/AC:2019-06

Corrigendum
4 pages
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SIST EN 60901:2001/A6:2019(Amendment)

Single-capped fluorescent lamps - Performance specifications (IEC 60901:1996/A6:2014)

EN 60901:1996/A6:2017

CMs required - WI=58957
Work started in CLC/SR 34A then transferred in the newly created CLC/TC 34A (D145/097)

Amendment
107 pages
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EN 61167:2018/AC:2019-06(Corrigendum)

SIST EN 61167:2019/AC:2019

Corrigendum
4 pages
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IEC 61167:2018/COR1:2019(Corrigendum)

Corrigendum 1 - Metal halide lamps - Performance specification

Standard
1 page
English and French language
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03-Apr-2019
29.140.30
SC 34A

SIST EN 62560:2013/A11:2019(Amendment)

Self-ballasted LED-lamps for general lighting services by voltage > 50 V - Safety specifications

EN 62560:2012/A11:2019

2019-01-22 - after TC 34 input
- LVD (NAC) assessment positive on 2018-03-28
- no relation to RED
publication to proceed
2021: CLC legacy converted by DCLab NISOSTS

Amendment
9 pages
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EN 60929:2011/A1:2016(Amendment)

AC and/or DC-supplied electronic control gear for tubular fluorescent lamps - Performance requirements

SIST EN 60929:2011/A1:2016

This international Standard specifies performance requirements for electronic control gear for use on a.c. at 50 Hz or 60 Hz and/or d.c. supplies, both up to 1 000 V, with operating frequencies deviating from the supply frequency, associated with fluorescent lamps as specified in IEC 60081 and IEC 60901, and other fluorescent lamps for high-frequency operation.
NOTE 1 Tests in this standard are type tests. Requirements for testing individual control gear during production are not included.
NOTE 2 There are regional standards regarding the regulation of mains current harmonics and immunity for endproducts like luminaires and independent control gear. In a luminaire, the control gear is dominant in this respect. Control gear, together with other components, should comply with these standards.

Amendment
34 pages
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10-Mar-2016
10-Mar-2019
29.140.30
CLC/TC 34

SIST EN 60662:2012/A11:2019(Amendment)

High-pressure sodium vapour lamps - Performance specifications

EN 60662:2012/A11:2019

2021: CLC legacy converted by DCLab NISOSTS

Amendment
14 pages
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SIST EN 60188:2002/A11:2019(Amendment)

High-pressure mercury vapour lamps - Performance specifications

EN 60188:2001/A11:2019

2021-03-29FM: CCMC decided not to offer for citation as linked to Directives that have been updated since this standard has been made available.
2021: CLC legacy converted by DCLab NISOSTS

Amendment
12 pages
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1 day

SIST EN 61167:2019/A1:2019(Amendment)

Metal halide lamps - Performance specification (IEC 61167:2018/A1:2018)

EN 61167:2018/A1:2018

This document specifies the performance requirements for metal halide lamps for general lighting purposes.
For some of the requirements given in this document, reference is made to "the relevant lamp data sheet". For some lamps, these data sheets are contained in this document. For other lamps, falling under the scope of this document, the relevant data are supplied by the lamp manufacturer or responsible vendor.
The requirements of this document relate only to type testing.
The requirements and tolerances specified in this document correspond to testing of a type test sample submitted by the manufacturer for that purpose. In principle this type test sample consists of units having characteristics typical of the manufacturer’s production and being as close to the production centre point values as possible.
It can be expected that with the tolerances given in this document, the product manufactured in accordance with the type test sample will comply with this document for the majority of production. Due to the production spread however, it is inevitable that there will sometimes be products outside the specified tolerances. For guidance on sampling plans and procedures for inspection by attributes, see ISO 2859-10.

Amendment
4 pages
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Metal halide lamps - Performance specification (IEC 61167:2018)

SIST EN 61167:2019(Main)

EN 61167:2018

IEC 61167:2018 specifies the performance requirements for metal halide lamps for general lighting purposes.
This fourth edition cancels and replaces the third edition published in 2015. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the previous edition.
a) A set of new lamp data sheets has been introduced for lamp types designed for replacing high pressure sodium lamps.
b) A set of new lamp data sheets has been introduced for 4 200 K versions of 3 000 K lamp types already in the standard.
c) A set of new lamp data sheets has been introduced for new lamp types where high frequency ignition data is important.
d) Annex G has been revised to incorporate high frequency ignition. As a consequence of this change, all data sheets in the standard have been revised to a new format.
e) A new informative Annex K has been introduced, giving recommended methods of making lamp temperature measurements.

Standard
415 pages
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IEC 61167:2018(Main)

IEC 61167:2018 specifies the performance requirements for metal halide lamps for general lighting purposes.
This fourth edition cancels and replaces the third edition published in 2015. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the previous edition.
a) A set of new lamp data sheets has been introduced for lamp types designed for replacing high pressure sodium lamps.
b) A set of new lamp data sheets has been introduced for 4 200 K versions of 3 000 K lamp types already in the standard.
c) A set of new lamp data sheets has been introduced for new lamp types where high frequency ignition data is important.
d) Annex G has been revised to incorporate high frequency ignition. As a consequence of this change, all data sheets in the standard have been revised to a new format.
e) A new informative Annex K has been introduced, giving recommended methods of making lamp temperature measurements.
The contents of the corrigendum of April 2019 have been included in this copy.

Standard
1618 pages
English and French language
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Standard
809 pages
English and French language
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22-Oct-2018
29.140.30
SC 34A

IEC 61167:2018/AMD1:2018(Amendment)

Amendment 1 - Metal halide lamps - Performance specification

Standard
4 pages
English and French language
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22-Oct-2018
29.140.30
SC 34A

SIST EN 60081:1999/A11:2018(Amendment)

Double-capped fluorescent lamps - Performance specifications

EN 60081:1998/A11:2018

2016-01-19: If the vote is accepted update directive information in mother standard.
Common modifications to be merged with PR=60123

Amendment
8 pages
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1 day

EN 62560:2012/A1:2015(Amendment)

Self-ballasted LED-lamps for general lighting services by voltage > 50 V - Safety specifications

SIST EN 62560:2013/A1:2015

The contents of the corrigendum of June 2015 have been included in this copy.

Amendment
19 pages
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Self-ballasted fluorescent lamps for general lighting services - Safety requirements

EN 60968:2015(Main)

SIST EN 60968:2015

IEC 60968:2015 specifies the safety and interchangeability requirements, together with the test methods and conditions required to show compliance of tubular fluorescent lamps with integrated means for controlling starting and stable operation (self-ballasted fluorescent lamps). This third edition cancels and replaces the second edition published in 2012. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition, where additions have been made to the following: a) caps and prevention of cap misuse; b) interchangeability; c) mechanical and electrical strength; d) creepage distances and clearances; e) end of lamp life precaution; f) abnormal operation; g) test conditions for dimmable and three-way lamps; h) water contact related marking; i) verification, and assessment; j) information for luminaire design in the form of annexes.

Standard
33 pages
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SIST EN IEC 62554:2012/A1:2018(Amendment)

Sample preparation for measurement of mercury level in fluorescent lamps (IEC 62554:2011/A1:2017)

EN IEC 62554:2011/A1:2018

Amendment
6 pages
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28-Feb-2018
29.140.30
IESV

SIST EN 62838:2016/AC:2018(Corrigendum)

LEDsi lamps for general lighting services with supply voltages not exceeding 50 V a.c. r.m.s. or 120 V ripple free d.c. - Safety specifications (IEC 62838:2015/COR1:2017)

EN 62838:2016/AC:2017-11

IEC 62977-3-9:2023 specifies standard measurement conditions and methods for determining the sparkle contrast of direct-view displays which comprise display matrix elements to render real 2D images on a flat panel and an anti-glare layer. This document excludes measurement of sparkle, which is intentionally obtained by the specular reflection from reflecting flakes in coatings and paints.

Corrigendum
3 pages
English and French language
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SIST EN 60081:1999/A6:2018(Amendment)

Double-capped fluorescent lamps - Performance specifications (IEC 60081:1997/A6:2017)

EN 60081:1998/A6:2017

Incorporates Common Modifications PR=61095.

Amendment
71 pages
English language
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EN 61195:1999/A2:2015(Amendment)

Double-capped fluorescent lamps - Safety specifications

SIST EN 61195:2000/A2:2015

PWI created for possible future // procedrues

Amendment
5 pages
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IEC 62554:2011/AMD1:2017(Amendment)

Amendment 1 - Sample preparation for measurement of mercury level in fluorescent lamps

Standard
5 pages
English and French language
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17-Oct-2017
29.140.30
SC 34A

Discharge lamps (excluding fluorescent lamps) - Safety specifications

EN 62035:2014(Main)

SIST EN 62035:2015

IEC 62035:2014 specifies the safety requirements for discharge lamps (excluding fluorescent lamps) for general lighting purposes. This International Standard is applicable to low-pressure sodium vapour lamps and to high-intensity discharge (HID) lamps, i.e. high-pressure mercury vapour lamps (including blended lamps), high-pressure sodium vapour lamps and metal halide lamps. It applies to single- and double-capped lamps, having caps as listed in Annex A. This standard only concerns safety criteria and does not take into account performance. The performance standards IEC 60188, IEC 60192, IEC 60662, IEC 61167 and IEC 61549 should be referred to for such characteristics. It may be expected that lamps which comply with this standard will operate safely at supply voltages between 90 % and 110 % of rated supply voltage and when operated with a ballast complying with IEC 61347-2-9 and IEC 60923, with a starting device complying with IEC 61347-2-1 and IEC 60927, and in a luminaire complying with IEC 60598-1. This second edition cancels and replaces the first edition published in 1999, AMD1:2003 and AMD2:2012. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition. Photobiological safety requirements are taken care of on basis of the risk group concept of IEC 62471 and the technical report IEC TR 62778 on blue light hazard. This has consequences for terms, marking, structure of 4.6, and introduction of a new symbol "Caution, do not stare at light source". Special attention is given to blue light hazard.

Standard
52 pages
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EN 61199:2011/A2:2015(Amendment)

Single-capped fluorescent lamps - Safety specifications

SIST EN 61199:2011/A2:2015

DOP = DAV + 6 months (D139/C142)

Amendment
5 pages
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IEC 60081:1997/AMD6:2017(Amendment)

Amendment 6 - Double-capped fluorescent lamps - Performance specifications

Standard
138 pages
English and French language
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24-Aug-2017
29.140.30
SC 34A

SIST EN 62532:2011/A1:2017(Amendment)

Fluorescent induction lamps - Safety specifications (IEC 62532:2011/A1:2016)

EN 62532:2011/A1:2017

2021-04-13 FM: BT approved request to permanently remove link to LVD
2017-05-02: D156/C084 - Ratified standards not being made available.
Published following BT156/DG10475/DV

Amendment
5 pages
English language
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Electrical equipment for measurement, control and laboratory use - EMC requirements - Part 3-2: Immunity requirements for safety-related systems and for equipment intended to perform safety-related functions (functional safety) - Industrial applications with specified electromagnetic environment

IEC 61326-3-2:2017(Main)

IEC 61326-3-2:2017 covers all equipment within the scope of IEC 61326-1, but is limited to systems and equipment for industrial applications within a specified electromagnetic environment and intended to perform safety functions as defined in IEC 61508 with SIL 1-3.
This second edition cancels and replaces the first edition published in 2008. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition:
- extension of the frequency range up to 6 GHz for the radio-frequency electromagnetic field test according to IEC 61000-4-3,
- replacement of the performance criterion FS with DS according to the generic standard IEC 61000-6-7,
- adding Table 1 - Aspects to be considered during application of performance criterion DS,
- including immunity tests for devices with current consumption > 16 A according to IEC 61000-4-34,
- updating Figure A.1 and Figure 1 for better readability,
- adding tests according to IEC 61000-4-16 to replace the tests according to IEC 61000-4-6 in the frequency range between 10 kHz and 150 kHz.

Standard
117 pages
English language
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Standard
74 pages
English and French language
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EN 62532:2011/A1:2017(Amendment)

Fluorescent induction lamps - Safety specifications

SIST EN 62532:2011/A1:2017

2021-04-13 FM: BT approved request to permanently remove link to LVD
2017-05-02: D156/C084 - Ratified standards not being made available.
Published following BT156/DG10475/DV

Amendment
5 pages
English language
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Adjustable speed electrical power drive systems - Part 3: EMC requirements and specific test methods

IEC 61800-3:2017(Main)

IEC 61800-3:2017 is also available as IEC 61800-3:2017 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.
IEC 61800-3:2017 specifies electromagnetic compatibility (EMC) requirements for power drive systems (PDSs, defined in 3.1). These are adjustable speed AC or DC motor drives. Requirements are stated for PDSs with converter input and/or output voltages (line-to-line voltage), up to 35 kV AC RMS.
This third edition cancels and replaces the second edition published in 2004 and Amendment 1:2011. This edition constitutes a technical revision.
This edition includes the following significant technical changes with respect to the previous edition:
a) clarification of requirements for the test report, particularly when a number of alternative test methods exist;
b) introduction of a more detailed test setup for radiated emission measurements, along with the introduction of a 3 m measurement distance for small size equipment;
c) general updates in the informative annexes.

Standard
386 pages
English language
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Standard
250 pages
English and French language
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IEC 60969:2016/COR1:2017(Corrigendum)

Corrigendum 1 - Self-ballasted compact fluorescent lamps for general lighting services - Performance requirements

Standard
1 page
English and French language
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26-Jan-2017
29.140.30
SC 34A

IEC 62035:2014/AMD1:2016(Amendment)

Amendment 1 - Discharge lamps (excluding fluorescent lamps) - Safety specifications

Standard
20 pages
English and French language
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23-Nov-2016
29.140.30
SC 34A

IEC 60335-2-34:2012/AMD2:2016(Amendment)

Amendment 2 - Household and similar electrical appliances - Safety - Part 2-34: Particular requirements for motor-compressors

Standard
20 pages
English and French language
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EN 60927:2007/A1:2013(Amendment)

Auxiliaries for lamps - Starting devices (other than glow starters) - Performance requirements

SIST EN 60927:2008/A1:2014

34C/977/RVC established on 2011-05-20: To be published without FDIS stage*20130930: Publication allocated to odessy@cencenelec.eu

Amendment
5 pages
English language
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28-Nov-2013
20-Oct-2016
29.140.30
CLC/TC 34