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S+ IEC 61347-2-3 Ed. 3.0 en:2024 (Redline version) Controlgear for electric light sources - Safety - Part 2-3: Particular requirements - AC or DC supplied electronic controlgear for fluorescent lamps, 2024
- Redline version (English only) [Go to Page]
- CONTENTS
- FOREWORD
- INTRODUCTION
- 1 Scope
- 2 Normative references
- 3 Terms and definitions
- 4 General requirements
- 5 General notes on tests
- 6 Classification
- 7 Marking [Go to Page]
- 7.1 Marking and information [Go to Page]
- 7.1.1 Mandatory marking
- 7.1.2 Information to be provided
- 7.2 Durability and legibility of markings
- 7.3 Built-in controlgear
- 8 Terminals
- 9 Earthing
- 10 Protection against accidental contact with live parts
- 11 Moisture resistance and insulation
- 12 Electric strength
- 13 Thermal endurance test for windings of ballasts
- 14 Fault conditions
- 15 Protection of associated components [Go to Page]
- 15.1 Maximum allowed peak voltage under normal operation conditions
- 15.2 Maximum working voltage under normal and abnormal operating conditions
- 15.3 Maximum working voltage and rectifying effect
- 15.4 Output voltage and abnormal conditions
- 15.5 Isolation of input terminals of controllable electronic controlgear
- 16 Abnormal conditions [Go to Page]
- 16.1 Abnormal conditions for AC and DC controlgear
- 16.2 Additional abnormal conditions for DC supplied electronic controlgear
- 17 Behaviour of the controlgear at end of lamp life [Go to Page]
- 17.1 End of lamp life effects
- 17.2 Asymmetric pulse test
- 17.3 Asymmetric power test
- 17.4 Open filament test [Go to Page]
- 17.4.1 Selection
- 17.4.2 Measurements to be carried out prior to test procedure A
- 17.4.3 Test procedure A
- 17.4.4 Test procedure B
- 18 Construction
- 19 Creepage distances and clearances
- 20 Screws, current-carrying parts and connections
- 21 Resistance to heat, fire and tracking
- 22 Resistance to corrosion
- 23 Applicable annexes of IEC 61347-1
- Annexes [Go to Page]
- Annex A (normative) Measurement of high-frequency leakage current
- Annex B (normative) Additional requirements for centrally supplied controlgear for emergency lighting [Go to Page]
- B.1 Marking [Go to Page]
- B.1.1 Mandatory markings
- B.1.2 Information to be provided if applicable
- B.2 General statement
- B.3 Starting conditions
- B.4 Operating conditions
- B.5 Current
- B.6 Maximum current in any lead to a cathode
- B.7 Lamp operating current waveform
- B.8 EMC immunity
- B.9 Pulse voltage from central battery systems
- B.10 Tests for abnormal conditions
- B.11 Temperature cycling test and endurance test
- B.12 Functional safety (EBLF)
- Annex C (informative) Components used in the asymmetric pulse test circuit
- Annex D (informative) Schedule of more onerous requirements
- Bibliography
- Figures [Go to Page]
- Figure 1 – Asymmetric pulse test circuit
- Figure 2 – Asymmetric power detection circuit
- Figure 3 – Open filament test circuits
- Figure 4 – Circuit for testing rectifying effect
- Figure 5 – Nomographs for the capacitive leakage current limits of HF-operated fluorescent lamps
- Figure A.1 – Leakage current test arrangement for various fluorescent lamps
- Tables [Go to Page]
- Table 1 – Relation between RMS working voltage and maximum allowed peak voltage
- Table B.1 – Pulse voltages
- Table C.1 – Material specification
- Table C.2 – Transformer specification
- International Standard (Bilingual) [Go to Page]
- English [Go to Page]
- CONTENTS
- FOREWORD
- INTRODUCTION
- 1 Scope
- 2 Normative references
- 3 Terms and definitions
- 4 General requirements
- 5 General notes on tests
- 6 Classification
- 7 Marking [Go to Page]
- 7.1 Marking and information [Go to Page]
- 7.1.1 Mandatory marking
- 7.1.2 Information to be provided
- 7.2 Durability and legibility of markings
- 7.3 Built-in controlgear
- 8 Terminals
- 9 Earthing
- 10 Protection against accidental contact with live parts
- 11 Moisture resistance and insulation
- 12 Electric strength
- 13 Thermal endurance test for windings of ballasts
- 14 Fault conditions
- 15 Protection of associated components [Go to Page]
- 15.1 Maximum allowed peak voltage under normal operation conditions
- 15.2 Maximum working voltage under normal and abnormal operating conditions
- 15.3 Maximum working voltage and rectifying effect
- 15.4 Output voltage and abnormal conditions
- 15.5 Isolation of input terminals of controllable electronic controlgear
- 16 Abnormal conditions [Go to Page]
- 16.1 Abnormal conditions for AC and DC controlgear
- 16.2 Additional abnormal conditions for DC supplied electronic controlgear
- 17 Behaviour of the controlgear at end of lamp life [Go to Page]
- 17.1 End of lamp life effects
- 17.2 Asymmetric pulse test
- 17.3 Asymmetric power test
- 17.4 Open filament test [Go to Page]
- 17.4.1 Selection
- 17.4.2 Measurements to be carried out prior to test procedure A
- 17.4.3 Test procedure A
- 17.4.4 Test procedure B
- 18 Construction
- 19 Creepage distances and clearances
- 20 Screws, current-carrying parts and connections
- 21 Resistance to heat, fire and tracking
- 22 Resistance to corrosion
- 23 Applicable annexes of IEC 61347-1
- Annexes [Go to Page]
- Annex A (normative) Measurement of high-frequency leakage current
- Annex B (normative) Additional requirements for centrally supplied controlgear for emergency lighting [Go to Page]
- B.1 Marking [Go to Page]
- B.1.1 Mandatory markings
- B.1.2 Information to be provided if applicable
- B.2 General statement
- B.3 Starting conditions
- B.4 Operating conditions
- B.5 Current
- B.6 Maximum current in any lead to a cathode
- B.7 Lamp operating current waveform
- B.8 EMC immunity
- B.9 Pulse voltage from central battery systems
- B.10 Tests for abnormal conditions
- B.11 Temperature cycling test and endurance test
- B.12 Functional safety (EBLF)
- Annex C (informative) Components used in the asymmetric pulse test circuit
- Annex D (informative) Schedule of more onerous requirements
- Bibliography
- Figures [Go to Page]
- Figure 1 – Asymmetric pulse test circuit
- Figure 2 – Asymmetric power detection circuit
- Figure 3 – Open filament test circuits
- Figure 4 – Circuit for testing rectifying effect
- Figure 5 – Nomographs for the capacitive leakage current limits of HF-operated fluorescent lamps
- Figure A.1 – Leakage current test arrangement for various fluorescent lamps
- Tables [Go to Page]
- Table 1 – Relation between RMS working voltage and maximum allowed peak voltage
- Table B.1 – Pulse voltages
- Table C.1 – Material specification
- Table C.2 – Transformer specification
- Français [Go to Page]
- SOMMAIRE
- AVANT-PROPOS
- INTRODUCTION
- 1 Domaine d'application
- 2 Références normatives
- 3 Termes et définitions
- 4 Exigences générales
- 5 Généralités sur les essais
- 6 Classification
- 7 Marquage [Go to Page]
- 7.1 Marquages et informations [Go to Page]
- 7.1.1 Marquages obligatoires
- 7.1.2 Informations à fournir
- 7.2 Durabilité et lisibilité des marquages
- 7.3 Appareillage à incorporer
- 8 Bornes
- 9 Mise à la terre
- 10 Protection contre le contact accidentel avec des parties actives
- 11 Résistance à l'humidité et isolement
- 12 Rigidité diélectrique
- 13 Essai d'endurance thermique des enroulements des ballasts
- 14 Conditions de défaut
- 15 Protection des composants associés [Go to Page]
- 15.1 Tension de crête maximale admise dans des conditions normales de fonctionnement
- 15.2 Tension de service maximale dans des conditions normales et anormales de fonctionnement
- 15.3 Tension de service maximale et effet redresseur
- 15.4 Tension de sortie et conditions anormales
- 15.5 Isolation des bornes d'entrée des appareillages électroniques à gradation
- 16 Conditions anormales [Go to Page]
- 16.1 Conditions anormales pour les appareillages à courant alternatif et à courant continu
- 16.2 Conditions anormales supplémentaires pour les appareillages électroniques alimentés en courant continu
- 17 Comportement de l'appareillage en fin de vie de la lampe [Go to Page]
- 17.1 Effets de fin de vie de la lampe
- 17.2 Essai aux impulsions, mode asymétrique
- 17.3 Essai de puissance dissipée, mode asymétrique
- 17.4 Essai du filament coupé [Go to Page]
- 17.4.1 Sélection
- 17.4.2 Mesurages à effectuer avant la procédure d'essai A
- 17.4.3 Procédure d'essai A
- 17.4.4 Procédure d'essai B
- 18 Construction
- 19 Lignes de fuite et écartements
- 20 Vis, parties transportant le courant et connexions
- 21 Résistance à la chaleur, au feu et aux courants de cheminement
- 22 Résistance à la corrosion
- 23 Annexes applicables de l'IEC 61347-1
- Annexes [Go to Page]
- Annexe A (normative) Mesurage du courant de fuite à haute fréquence
- Annexe B (normative) Exigences supplémentaires pour les appareillages à alimentation centralisée pour l'éclairage de secours [Go to Page]
- B.1 Marquage [Go to Page]
- B.1.1 Marquages obligatoires
- B.1.2 Informations à fournir, le cas échéant
- B.2 Remarque d'ordre général
- B.3 Conditions d'amorçage
- B.4 Conditions de fonctionnement
- B.5 Courant
- B.6 Courant maximal aux entrées de cathode
- B.7 Forme d'onde du courant d'alimentation de la lampe
- B.8 Immunité CEM
- B.9 Tension d'impulsion provenant du système de batteries centralisé
- B.10 Essais en conditions anormales
- B.11 Essai thermique cyclique et essai d'endurance
- B.12 Sécurité fonctionnelle (EBLF)
- Annexe C (informative) Composants utilisés dans le circuit d'essai aux impulsions, mode asymétrique
- Annexe D (informative) Planification des exigences les plus importantes
- Bibliographie
- Figures [Go to Page]
- Figure 1 – Circuit d'essai aux impulsions, mode asymétrique
- Figure 2 – Circuit de détection de puissance dissipée, mode asymétrique
- Figure 3 – Circuits d'essai du filament coupé
- Figure 4 – Circuit d'essai de l'effet redresseur
- Figure 5 – Nomogrammes pour les limites des courantsde fuite capacitifs haute fréquence des lampes fluorescentes
- Figure A.1 – Montage d'essai du courant de fuite pour différentes lampes fluorescentes
- Tableaux [Go to Page]
- Tableau 1 – Relation entre la tension de service efficace et la tension de crête maximale admise
- Tableau B.1 – Tensions d'impulsion
- Tableau C.1 – Spécification du matériel
- Tableau C.2 – Spécification du transformateur [Go to Page]
