This part of IEC 62442 defines a measurement and calculation method of the total input power
for controlgear-lamp circuits when operating with their associated fluorescent lamp(s). The
calculation method for the efficiency of the lamp controlgear is also defined. This document
applies to electrical controlgear-lamp circuits consisting only of the controlgear and the lamp(s).
It is intended for use on DC supplies up to 1 000 V and/or AC supplies up to 1 000 V at 50 Hz
or 60 Hz.
NOTE Requirements for testing individual controlgear during production are not included.
This document specifies the measurement method for the total input power and the calculation
method of the controlgear efficiency for all controlgear used for domestic and normal
commercial purposes operating with the following fluorescent lamps:
– double-capped fluorescent lamps (IEC 60081);
– single-capped fluorescent lamps (IEC 60901);
– other general purpose low-pressure mercury fluorescent lamps.
This document does not apply to:
– controlgear which form an integral part of the lamp;
– controllable wire-wound magnetic controlgear.

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This part of IEC 62442 defines measurement and calculation methods for specifying the
efficiency and the standby power of controlgear for tungsten-halogen lamps and LED light
sources.
NOTE 1 This includes electromagnetic transformers and electronic convertors for tungsten-halogen lamps, as well
as electronic controlgear for LED light source(s).
NOTE 2 The term "LED light sources" includes LED modules and LED lamps.
This document is applicable for controlgear designed for use on DC supplies up to 1 000 V
and/or AC supplies up to 1 000 V at 50 Hz or 60 Hz.
For multipurpose power supplies only the lighting part will be considered.
NOTE 3 Requirements for testing individual controlgear during production are not included.
This document does not apply to:
– controlgear which form an integral part of lamps (LED light sources);
– controlgear circuits with capacitors connected in series;
– controllable electromagnetic controlgear.

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This part of IEC 62442 defines a measurement method of the power losses of electromagnetic
controlgear, the total input power and the standby power of electronic controlgear for discharge
lamps (excluding low-pressure mercury fluorescent lamps). A calculation method of the
efficiency of controlgear for discharge lamp(s) is also defined.
It is assumed that the controlgear are designed for use on DC supplies up to 1 000 V and/or
AC supplies up to 1 000 V at 50 Hz or 60 Hz.
This document applies to electrical controlgear-lamp circuits comprised solely of the controlgear
and of the lamp(s).
NOTE Requirements for testing individual controlgear during production are not included.
This document specifies the measurement method for the total input power, the standby power
and the calculation method of the lamp controlgear efficiency for all controlgear sold for
domestic and normal commercial purposes operating with discharge lamps.
This document does not apply to:
– controlgear which form an integral part of lamps;
– controlgear circuits with capacitors connected in series;
– controllable electromagnetic controlgear.

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IEC PAS 63422:2022(E) Book 20 defines a smart interface between an indoor LED luminaire and a sensing/communication module. The module connects to the LED driver and control system, and typically can provide sensory inputs or enable communication between network components. Modules can be installed and replaced in the field. Book 1 defines the common concepts that underlie the Zhaga interface specifications. In addition, this Book 1 specifies general requirements for Zhaga compliant components of LED Luminaires.

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IEC PAS 63421:2022(E) This Book 18 defines a standardized interface between a LED Luminaire and a sensing/communication module (Luminaire Extension Module, LEX-M) that can be attached to the Luminaire. The interface is intended to be used in outdoor applications with high IP rating. The LEX-M may provide for example sensory inputs to the Luminaire or communication between the Luminaire and a network. This Book 1 defines the common concepts that underlie the Zhaga interface specifications. In addition, this Book 1 specifies general requirements for Zhaga compliant components of LED Luminaires.

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IEC 62442-3:2022 is available as IEC 62442-3:2022 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.IEC 62442-3:2022 defines measurement and calculation methods for specifying the efficiency and the standby power of controlgear for tungsten-halogen lamps and LED light sources. This third edition cancels and replaces the second edition published in 2018. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition:
- this edition has been harmonized with IEC 62442-1 and IEC 62442-­2;
- the reference to and use of the measurement methods for non-active power consumption in accordance with IEC 63103 have been added.

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IEC 62442-2:2022 is available as IEC 62442-2:2022 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.IEC 62442-2:2022 defines a measurement method of the power losses of electromagnetic controlgear, the total input power and the standby power of electronic controlgear for discharge lamps (excluding low-pressure mercury fluorescent lamps). A calculation method of the efficiency of controlgear for discharge lamp(s) is also defined. It is assumed that the controlgear are designed for use on DC supplies up to 1 000 V and/or AC supplies up to 1 000 V at 50 Hz or 60 Hz. This third edition cancels and replaces the second edition published in 2018. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition:
- the title of Part 2 has been modified;
- this edition has been harmonized with IEC 62442-1 and IEC 62442-­3;
- the reference to and use of the measurement methods for non-active power consumption in accordance with IEC 63103 have been added.

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IEC 62442-1:2022 is available as IEC 62442-1:2022 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.IEC 62442-1:2022 defines a measurement and calculation method of the total input power for controlgear-lamp circuits when operating with their associated fluorescent lamp(s). The calculation method for the efficiency of the lamp controlgear is also defined. This document applies to electrical controlgear-lamp circuits consisting only of the controlgear and the lamp(s). It is intended for use on DC supplies up to 1 000 V and/or AC supplies up to 1 000 V at 50 Hz or 60 Hz. This third edition cancels and replaces the second edition published in 2018. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition:
- this edition has been harmonized with IEC 62442-2 and IEC 62442­-3;
- the reference to and use of the measurement methods for non-active power consumption in accordance with IEC 63103 have been added.

  • Standard
    41 pages
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2021-05-26: This A11 includes the updated Annexes ZA & ZZ, it will allow citation of EN IEC 62031:2020, published without the link to LVD directive

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This part of IEC 62868 specifies the safety requirements for flexible organic light emitting diode
tiles and panels for use on supplies up to 120 V ripple free DC for indoor and similar general
lighting purposes and designed for being bent during the manufacturing process of curved
luminaires.

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2021-04-13: This A11 is created to allow citation in OJEU of EN IEC 61347-2-14:2018

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This part of IEC 62868 specifies safety requirements for semi-integrated organic light emitting
diode modules operating with an external controlgear connected to the mains voltage, and
which, in addition, have a control means inside ("semi-integrated") for operation under
constant voltage, constant current or constant power and have a rated voltage up to 120 V
ripple free DC or 50 V AC RMS at 50 Hz or 60 Hz.

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This part of IEC 62868 specifies the safety requirements for integrated organic light-emitting
diode (OLED) modules for use on ripple free DC supplies up to 1 000 V or AC supplies up to
1 000 V RMS at 50 Hz or 60Hz.

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This part of IEC 62868 specifies general safety requirements of OLED products for use on DC
supplies up to 1000 V or AC supplies up to 1000 V at 50 Hz or 60 Hz for indoors and similar
general lighting purposes.
This document applies to any OLED light sources which are not covered by IEC 62868-2 (all
parts).
NOTE 1 Only test methods for DC operated OLED light sources are provided in this document. Provisions for AC
operated OLED products are under consideration.
NOTE 2 The construction of OLED tiles and panels is illustrated in Figure A.1 to Figure A.4 in Annex A.
NOTE 3 The OLED lighting system consisting of OLED panels or modules is illustrated in Annex D.
NOTE 4 This document applies to OLED light sources (tiles, panels, modules) which are composed of OLED
luminaires or OLED lamps, and it is intended so that the OLED light source in accordance with this document fits in
IEC 60598 (all parts) as a component of lighting equipment, in combination with other components.
NOTE 5 Where an appropriate Part 2 of IEC 62868 for an OLED light source does not exist, the nearest
applicable Part 2 of IEC 62868 can be used as a guide to the requirements and tests.

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IEC 62868-2-3:2021 specifies the safety requirements for flexible organic light emitting diode tiles and panels for use on supplies up to 120 V ripple free DC for indoor and similar general lighting purposes and designed for being bent during the manufacturing process of curved luminaires.

  • Standard
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2020-08-05 NEXT ACTION: CCMC action by 2020-08-31
2020-08-03 CCMC to prepare request for BT
2020-08-03 since no 2nd assessment allowed, EC confirmed that TC met requirements for pos. ass.  
2019-02-20 PC: "lack of compliance" for LVD, TC to adress comments
2019-01-30 PC: Sent for LVD assessment
2018-03-22 - missing Annex ZZ - on hold
2017-10-05 - Cannot allocate for publication due to missing assessment from Consultant.

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IEC TS 63105:2021(E) establishes terms and definitions in the field of lighting systems and related equipment.
Terminological literature for other fields of lighting is listed in the bibliography.

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IEC PAS 63228:2020(E) This Book 12 defines LED Arrays with a rectangular shape and a circular light emitting surface. For each LED Array, this Book 12 also defines the mechanical interface between the LED Array and the corresponding Holder. The mechanical interface between the Holder and the Luminaire (e.g. outline, OCA and mounting holes) is defined in [Book-10]. This Book 1 defines the common concepts that underlie the Zhaga interface specifications. In addition, this Book 1 specifies general requirements for Zhaga compliant components of LED Luminaires.

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IEC PAS 63324:2020(E) This Book 10 defines interfaces between LED Modules, associate components (Holders) and luminaires. Not all interface descriptions are applicable to LED Modules or Holders, but where applicable they are identical. This Book 1 defines the common concepts that underlie the Zhaga interface specifications. In addition, this Book 1 specifies general requirements for Zhaga compliant components of LED Luminaires.

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IEC PAS 63329:2020(E) This Book 14 defines three socketable LED Light Engines (with integrated Electronic Control Gears) and three socketable LED Modules (without integrated Electronic Control Gears). These LED Modules and LLEs have a rectangular shape and are typically applied in general lighting applications. These products are intended to be installed and replaced by professionals and non-professionals. This Book 1 defines the common concepts that underlie the Zhaga interface specifications. In addition, this Book 1 specifies general requirements for Zhaga compliant components of LED Luminaires.

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IEC 62868-2-2:2020 specifies the safety requirements for integrated organic light-emitting diode (OLED) modules for use on ripple free DC supplies up to 1000 V or AC supplies up to 1 000 V RMS at 50 Hz or 60Hz.

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IEC 62868-2-1:2020 specifies safety requirements for semi-integrated organic light emitting diode modules operating with an external controlgear connected to the mains voltage, and which, in addition, have a control means inside ("semi-integrated") for operation under constant voltage, constant current or constant power and have a rated voltage up to 120 V ripple free DC or 50 V AC RMS at 50 Hz or 60 Hz.

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IEC 63103:2020 specifies methods of measurement of electrical power consumption in non-active mode(s), as applicable for electrical lighting equipment. This includes electrical lighting equipment incorporating non-illumination components.
This document specifies neither performance requirements nor limits on power consumption.
This document applies to lighting equipment connected to a supply voltage up to 1 500 V DC or up to 1 000 V AC.
This document is intended to be referenced by lighting equipment product standards for the measurement of non-active mode power consumption. Details for the non-active mode power consumption measurement and data presentation are specified in the product standards.

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  • Standard
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This document specifies performance requirements for electronic controlgear for use on DC or
AC supplies up to 1 000 V (alternating current at 50 Hz or 60 Hz) and with an output
frequency which can deviate from the supply frequency, associated with LED modules
according to IEC 62031. Controlgear for LED modules specified in this document are
designed to provide constant voltage or current. Deviations from the pure voltage and current
types do not exclude the gear from this document.
NOTE 1 The tests in this document are type tests. Requirements for testing individual controlgear during
production are not included.
NOTE 2 Requirements for controlgear which incorporate means for varying the output power are under
consideration.
NOTE 3 It can be expected that controlgear complying with this document will ensure satisfactory operation
between 92 % and 106 % of the rated supply voltage, taking into account the specifications of the LED module
manufacturer.

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This document describes a method, based on measurements combined with calculations, to
determine specific characteristics of the inrush current of single and/or multiple lighting products
of the same type. Lighting products include the following:
• light sources with integrated controlgear,
• controlgear,
• luminaires.
The inrush current characteristics that are determined are
• the peak inrush current,
• the inrush current pulse duration.
This document applies to lighting products connected to low-voltage 230 V AC 50/60 Hz
electrical supply networks.
NOTE In Clause 6 it is stated that the methodology applies reference values for the reference (line) inductance and
the reference (short circuit) peak current which reflect the typical situation in a 230 V AC installation.

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IEC 62868-1:2020 specifies general safety requirements of OLED products for use on DC supplies up to 1000 V or AC supplies up to 1000 V at 50 Hz or 60 Hz for indoors and similar general lighting purposes.
This document applies to any OLED light sources which are not covered by IEC 62868-2 (all parts).
This first edition cancels and replaces IEC 62868 published in 2014.

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IEC 62384:2020 is available as IEC 62384:2020 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.
IEC 62384:2020 specifies performance requirements for electronic controlgear for use on DC or AC supplies up to 1 000 V (alternating current at 50 Hz or 60 Hz) and with an output frequency which can deviate from the supply frequency, associated with LED modules according to IEC 62031. Controlgear for LED modules specified in this document are designed to provide constant voltage or current. Deviations from the pure voltage and current types do not exclude the gear from this document. This second edition cancels and replaces the first edition published in 2006 and Amendment 1:2009. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition:
- scope extension (direct current from 250 V to 1 000 V);
- new specifications for measuring the power factor for controlgear with settable/non-constant output (for instance, to allow for constant light output);
- deletion of audio frequency requirements;
- selection of current test circuit by module capacitance (instead of selecting by having or not having logic circuitry) plus test circuit setup changes.

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IEC 63129:2020 describes a method, based on measurements combined with calculations, to determine specific characteristics of the inrush current of single and/or multiple lighting products of the same type. Lighting products include the following:
light sources with integrated controlgear,
controlgear,
luminaires.

  • Standard
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EN-IEC 62031 specifies general and safety requirements for light-emitting diode (LED) modules: • non-integrated LED modules (LEDni modules) and semi-integrated LED modules (LEDsi modules) for operation under constant voltage, constant current or constant power; • Integrated LED modules (LEDi modules) for use on DC supplies up to 250 V or AC supplies up to 1 000 V at 50 Hz or 60 Hz. LED modules within the scope of this document can be integral, built-in or independent. This document is not applicable for LED lamps.

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IEC 62386-105:2020 applies to control gear and control devices.
Typically, a bus unit according to IEC 62386 (all parts) contains firmware. There are circumstances where it might be necessary to change the firmware after production or shipping of the product. For example if the bus unit does not operate as intended. In such a case, a firmware update of a bus unit via the interface is beneficial.
This firmware update process is primarily designed to be a bug fix process, not a feature extension process. Nevertheless the firmware update process can be used for feature extensions. But it is important that the risk of negative effects to the complete system is considered in detail.

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NEW!IEC 62031:2018 is available as IEC 62031:2018 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.IEC 62031:2018 specifies general and safety requirements for light-emitting diode (LED) modules: - non-integrated LED modules (LEDni modules) and semi-integrated LED modules (LEDsi modules) for operation under constant voltage, constant current or constant power; - Integrated LED modules (LEDi modules) for use on DC supplies up to 250 V or AC supplies up to 1 000 V at 50 Hz or 60 Hz. This second edition cancels and replaces the first edition published in 2008, Amendment 1:2012 and Amendment 2:2014. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: a. the scope was clarified as well as the wording in several other clauses; b. the normative references were updated; c. the definitions for "replaceable LED module", "non-replaceable LED module" and "non-user replaceable LED module" were introduced while other definitions covered by IEC 62504 have been removed; d. the marking clause was restructured and a table added to provide an informative overview; e. the marking requirements for built-in LED modules were changed; f. the entry for the marking with the working voltage was revised; g. the provisions for terminals and heat management were revised; h. Annex B was deleted; i. information for luminaire design with regard to working voltage and water contact was introduced; j. an abnormal temperature test was introduced.

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EN-IEC 63013 is applicable to LED packages for general lighting services. It specifies procedures and conditions for measuring the luminous flux maintenance of LED packages. It also provides the procedures and conditions (criteria) of projecting the long-term luminous flux maintenance based on limited luminous flux maintenance test data collected. Within the context of this document, wherever luminous flux measurement data is specified, radiant flux measurement data can also be used. These projection methods employ data collected as per ANSI/IES LM-80-15 (LM-80). The long-term projection is based on the exponential-fit-function procedure of IES TM-21-11 (TM-21), and gives an alternative border function procedure in the case where the exponential-fit-function of IES TM-21-11 is not applicable.

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IEC 63013:2017 is applicable to LED packages for general lighting services. It specifies procedures and conditions for measuring the luminous flux maintenance of LED packages. It also provides the procedures and conditions (criteria) of projecting the long-term luminous flux maintenance based on limited luminous flux maintenance test data collected. Within the context of this document, wherever luminous flux measurement data is specified, radiant flux measurement data can also be used.

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This European Standard specifies the requirements for measurement of electrical, photometric, and colorimetric quantities of LED lamps, modules, light engines and luminaires, for operation with AC or DC supply voltages, possibly with associated control gear. Photometric and colorimetric quantities covered in this standard include total luminous flux, luminous efficacy, partial luminous flux, luminous intensity distribution, centre-beam intensities, luminance and luminance distribution, chromaticity coordinates, correlated color temperature (CCT), Color Rendering Index (CRI), and spatial uniformity of chromaticity.
This standard does not cover LED packages and products based on OLEDs (organic LEDs).
NOTE   Where the term "LED product, LED device or DUT (device under test)" is used, the term covers LED lamps, modules, light engines or luminaires.

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NEXT Action: CCMC to make available
2019-03-06 - Sent to BT for approval of A nnex ZA/ZZ (approved=D162/C075)
2018-12-13 PeC: "Compliant" for LVD
2018-11-20 PeC: sent to BT to keep ratification pending in order to fix harmonization (approved D161/C072)
2018-11-12 PeC: submitted for HAS assessment
2017-11-21 - Negative assessment is received during CDV stage. Consultant assessment request is missing for FDIS.

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IEC 62386-104:2019 The IEC 62386 series specifies a bus system for control by digital signals of electronic lighting equipment. This part of IEC 62386 applies to a system with wireless or alternative wired communication between its units, instead of a wired bus system, where the meaning of “wireless or alternative wired communication”, or in short “telecommunication”, is any type of communication network different from the wired system described in IEC 62386-101. Where the electronic lighting equipment is covered by the scope of IEC 61347 (all parts), it is in line with the requirements of IEC 61347 (all parts), with the addition of DC supplies.

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IEC 63128:2019 specifies the analogue control interface of controlgear which has the function of controlling the output of the controlgear. The output of the controlgear is controlled between minimum/off and maximum values by the voltage control device sinking the controlgear current source. This document does not specify safety requirements for the analogue interface of controlgear. Safety requirements are given in IEC 61347 (all parts).

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IEC TR 63037:2019 is available as IEC TR 63037:2019 RLV which contains the International Standard and its Redline version, showing all changes of the technical content compared to the previous edition.
IEC TR 63037:2019 provides guidance to controlgear/integrated lamp designers for the development of products suitable to operate with future phase-cut dimmers. It describes the possible voltage signals and the expected response of the controlgear/integrated lamps. This document describes the expected response of controlgear during all operation states of a phase-cut lighting system and provides a complete understanding of the requirements for phase-cut dimmers. The response of a phase-cut dimmer is described in IEC 60669-2‑1:—, Annex EE. This document specifies the system performance aspects and test procedures for the control by mains voltage phase-cut dimming of the brightness of mains operated electronic lighting equipment intended to be controlled by mains voltage phase-cut dimmers, such as LED integrated lamps and light sources with external controlgear. Safety requirements are not covered by this document, but by respective product standards. This second edition cancels and replaces the first edition published in 2016. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition:
- emission of audible noise;
- ghosting caused by issues that are not related to the power supply of the dimmer or synchronization;
- stability of phase angle waveform (for the dimmer), including symmetry and stability tests;
- flicker of light loads;
- repetitive ring up voltage;
- dimming range; and
- number of switching cycles have been added.

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IEC 63146:2019 establishes requirements for specification sheets relating to light emitting diode (LED) packages designed for the emission of white light for general lighting applications. This document does not contain compliance criteria.

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NEXT Action: CCMC to make available
2019-01-21 PeC: "Compliant" for LVD, sent to BT for integration (approved=D162/C043)
2018-11-21 PeC: sent to BT to keep ratification pending in order to fix harmonization (approved=D161/C073)
2018-11-12 PeC: submitted for HAS assessment
2017-07-31 - Cannot allocate for publication due to negative assessment from Consultant.

  • Amendment
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This European Standard specifies the requirements for measurement of electrical, photometric, and colorimetric quantities of LED lamps, modules, light engines and luminaires, for operation with AC or DC supply voltages, possibly with associated control gear. Photometric and colorimetric quantities covered in this standard include total luminous flux, luminous efficacy, partial luminous flux, luminous intensity distribution, centre-beam intensities, luminance and luminance distribution, chromaticity coordinates, correlated color temperature (CCT), Color Rendering Index (CRI), and spatial uniformity of chromaticity.
This standard does not cover LED packages and products based on OLEDs (organic LEDs).
NOTE   Where the term "LED product, LED device or DUT (device under test)" is used, the term covers LED lamps, modules, light engines or luminaires.

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This document defines selection ranks for LED Luminaires, and LEDs including OLEDs for the use in aircraft lighting. The size of these ranks is defined by the use of grades. This European Standard is valid for photopic light levels only.

  • Standard
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NEXT Action: CCMC to make available
2019-03-06 - Sent to BT for approval of A nnex ZA/ZZ (approved=D162/C075)
2018-12-13 PeC: "Compliant" for LVD
2018-11-20 PeC: sent to BT to keep ratification pending in order to fix harmonization (approved D161/C072)
2018-11-12 PeC: submitted for HAS assessment
2017-11-21 - Negative assessment is received during CDV stage. Consultant assessment request is missing for FDIS.

  • Amendment
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NEXT Action: CCMC to make available
2019-01-21 PeC: "Compliant" for LVD, sent to BT for integration (approved=D162/C043)
2018-11-21 PeC: sent to BT to keep ratification pending in order to fix harmonization (approved=D161/C073)
2018-11-12 PeC: submitted for HAS assessment
2017-07-31 - Cannot allocate for publication due to negative assessment from Consultant.

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