BS EN 62532:2011+A1:2017:2018 Edition
$167.15
Fluorescent induction lamps. Safety specifications
| Published By | Publication Date | Number of Pages |
| BSI | 2018 | 36 |
This International Standard specifies the safety requirements for fluorescent induction lamps for general lighting purposes.
It also specifies the method a manufacturer should use to show compliance with the requirements of this standard on the basis of whole production appraisal in association with his test records on finished products. This method can also be applied for certification purposes.
Details of a batch test procedure, which can be used to make limited assessment of batches, are also given in this standard.
The schematic drawings of the systems are shown in Annex A.
NOTE Self-ballasted induction lamps (where the discharge vessel, the power coupler and the control gear are integrated in the same product) are excluded from the scope of this standard.
This standard covers photobiological safety according to IEC 62471 and IEC TR 62471-2 . Blue light and infrared hazards are below the level which requires marking.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 2 | undefined |
| 11 | CONTENTS |
| 13 | FOREWORD |
| 15 | 1 Scope 2 Normative references 3 Terms and definitions |
| 17 | 4 Safety requirements 4.1 General 4.2 Marking |
| 18 | 4.3 Requirements for mechanical and electrical connections 4.4 Insulation resistance |
| 19 | 4.5 Electric strength 4.6 Parts which can become accidentally live Tables Table 1 – Requirements for the electric strength |
| 20 | 4.7 Resistance to heat and fire 4.8 Creepage distances and clearances for lamps 4.9 Temperature rise of the measuring points 4.10 Endurance 4.11 UV radiation 4.12 Information for luminaire design 4.13 Information for ballast design 5 Assessment |
| 21 | Annex A (informative)Schematic drawings of induction lamps Figures Figure A.1 – Schematic drawing of an internal coupled induction lamp (operating frequency 2 500 kHz to 3 000 kHz) |
| 22 | Figure A.2 – Schematic drawing of an internal coupled induction lamp (operating frequency 120 kHz to 145 kHz) |
| 23 | Figure A.3 – Schematic drawing of an external coupled induction lamp (operating frequency 225 kHz to 275 kHz) |
| 24 | Annex B (informative)Information for luminaire design Table B.1 – Maximum temperature at measurement point(s) under operating condition |
| 25 | Annex C (normative)Schematic drawings for insulation resistance test Figure C.1 – Test set up for measurement insulation resistance of internal coupled induction lamp Figure C.2 – Test set up for measurement of insulation resistance externalcoupled induction lamp |
| 26 | Annex D (informative)Information for ballast design Table D.1 – Maximum operating voltage of induction lampsbetween lamp terminals and between lamp terminals and ground |
| 27 | Table D.2 – Maximum voltage between lamp terminals |
| 28 | Annex E (normative)Information for thermal test Table E.1 – Heating test temperature levels |
| 30 | Annex F (normative)Values and method of measurement of the maximum temperature rise of the measurement points Table F.1 – Maximum temperature rise of the lamp temperature test points |
| 31 | Figure F.1 – Temperature test point of internal coupled induction lamp(operating frequency 2 500 kHz to 3 000 kHz) |
| 32 | Figure F.2 – Temperature test point of internal coupled induction lamp (operating frequency 120 kHz to 145 kHz) Table F.2 – Dimensions of the heat sink of internally coupled induction lamps |
| 33 | Figure F.3 – Temperature test points of external coupled induction lamp(operating frequency 225 kHz to 275 kHz) |
| 34 | Bibliography |
