BS EN IEC 60809:2021

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Lamps and light sources for road vehicles. Dimensional, electrical and luminous requirements

Published By	Publication Date	Number of Pages
BSI	2021	100

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Categories: 43.040.20 - Lighting, signalling and warning devices, BSI

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PDF Pages	PDF Title
2	undefined
5	Annex ZA(normative)Normative references to international publicationswith their corresponding European publications
7	CONTENTS
13	FOREWORD
15	1 Scope 2 Normative references
17	3 Terms and definitions
20	4 Requirements and test conditions for filament lamps 4.1 General requirements 4.2 Lamp marking 4.3 Bulbs 4.4 Colour 4.4.1 Colour of light
22	4.4.2 Colour endurance 4.4.3 Coated bulb 4.5 Lamp dimensions
23	4.6 Caps and bases 4.7 Initial electrical and luminous requirements 4.8 Check on optical quality 4.8.1 General 4.8.2 12 V lamps emitting white light 4.8.3 6 V and 24 V lamps emitting white light
24	4.8.4 Lamps emitting selective-yellow light 4.9 UV radiation 4.10 Standard (étalon) filament lamps
25	4.11 Non-replaceable filament lamps 4.11.1 General
26	4.11.2 Fixation 4.11.3 Lifetime Tables Table 1 – Lifetime of non-replaceable light sources used in devices (luminaires)
27	4.11.4 Colour endurance 4.11.5 Luminous flux and colour maintenance 4.11.6 Vibration and shock resistance 5 Requirements and test conditions for discharge lamps 5.1 General requirements 5.2 Lamp marking
28	5.3 Bulbs 5.4 Caps 5.5 Position and dimensions of electrodes, arc and black stripes 5.5.1 Measurements 5.5.2 Electrodes 5.5.3 Arc 5.5.4 Black stripes
29	5.6 Starting, run-up and hot-restrike characteristics 5.6.1 Starting 5.6.2 Run-up 5.6.3 Hot-restrike 5.6.4 Compliance
30	5.7 Electrical and photometric characteristics 5.7.1 Voltage and wattage 5.7.2 Luminous flux 5.7.3 Compliance 5.8 Colour
31	5.9 UV radiation Table 2 – Spectral weighting function
32	5.10 Standard (étalon) discharge lamps 6 Requirements and test conditions for LED light sources 6.1 General requirements 6.2 Light source marking 6.3 Optical surfaces 6.4 Colour of light 6.5 Lamp dimensions
33	6.6 Caps and bases 6.7 Initial electrical and photometrical requirements 6.8 Red content
34	6.9 UV radiation 6.10 Standard (étalon) light sources 7 Sampling and conditions of compliance 8 Lamp data sheets 8.1 General
35	8.2 List of specific lamp types Table 3 – List of specific lamp types
39	8.3 Data sheets not transferred to UN R.E.5
59	Annexes Annex A (normative)Filament shape, length and position A.1 General A.2 Filaments shown as points A.3 Line filaments A.4 Coiled-coil filaments A.5 Extreme filament turns A.6 Filament extremities A.6.1 General A.6.2 Axial filaments A.6.3 Transverse filaments
60	A.7 Determination of filament length A.8 Filament offsets A.9 Lateral deviation A.10 Filament location check system (box system)
61	Figures Figure A.1 – Determination of apexes, filament length and filament offsets (A and B) Figure A.2 – Determination of filament centre
62	Figure A.3 – Determination of lateral deviations (A and B) andtolerance on the light centre length (C)
63	Annex B (normative)Measurement method of the colour of filament lamps B.1 General B.2 Colour B.3 Measuring directions B.3.1 General B.3.2 Filament lamps used in headlamps
64	B.3.3 Filament lamps used in light signalling devices Figure B.1 – Positions of the colorimetric receiverwhen measuring lamps used in headlamps Figure B.2 – Positions of the colorimetric receiverwhen measuring lamps used in light signalling devices
65	Annex C (normative)Test conditions for electrical and luminous characteristics C.1 Filament lamps C.1.1 Ageing C.1.2 Test conditions C.1.3 Electrical instrumentation C.1.4 Photometry C.2 LED light sources C.2.1 Test conditions C.2.2 Luminous flux
66	C.2.3 Normalized luminous intensity C.2.4 Colour C.2.5 Power consumption Table C.1 – Luminous flux tolerance limits
67	C.2.6 Luminous flux and colour at elevated temperature
68	Figure C.1 – Schematic representation of the set-up to measurethe luminous flux and colour at elevated temperature
69	Figure C.2 – Schematic representation of the set-up to measurethe luminous flux and colour at elevated temperature
70	Annex D (normative)Measurement method of internal elements of R2 lamps D.1 General test conditions D.1.1 Measurement position D.1.2 Ageing D.1.3 Test conditions D.2 Reference axis, reference plane and planes for measurements D.2.1 Reference axis D.2.2 Reference plane D.2.3 Plane V-V D.2.4 Plane H-H D.2.5 Plane X-X D.2.6 Plane Y1-Y1 D.2.7 Plane Y2-Y2
71	D.3 Viewing directions (see Figure D.1) D.3.1 Viewing direction ① D.3.2 Viewing direction ② D.3.3 Viewing direction ③ D.4 Measuring points (MP)
72	D.5 Dimensions to be measured Table D.1 – Dimensions to be measured for R2 lamps
73	Figure D.1 – Viewing directions, seen from the top of the lamp
74	Figure D.2 – Position of measuring points of R2 lamps
75	Annex E (normative)Measurement method of internal elements of H4 and HS1 lamps E.1 General test conditions E.1.1 Measurement position E.1.2 Ageing E.1.3 Test conditions E.2 Reference axis, reference plane and planes for measurement E.2.1 Reference axis E.2.2 Reference plane E.2.3 Plane V-V E.2.4 Plane H-H E.2.5 Plane X-X E.2.6 Plane Y1-Y1
76	E.2.7 Plane Y2-Y2 E.2.8 Plane Y3-Y3 E.2.9 Plane Y4-Y4 E.2.10 Plane Y5-Y5 E.3 Viewing directions (see Figure E.1) E.3.1 Viewing direction ① E.3.2 Viewing direction ② E.3.3 Viewing direction ③ E.3.4 Viewing direction ④ E.4 Measuring points (MP) E.4.1 General
77	E.4.2 Shield and filaments (see Figure E.2) E.4.3 Top obscuration (see Figure E.3) E.5 Dimensions to be measured
78	Table E.1 – Dimensions to be measured for H4, H17, H19 and HS1 lamps
79	Figure E.1 – Viewing directions, seen from the top of the lamp
80	Figure E.2 – Position of measuring points of H4, H17, H19 and HS1 lamps
81	Figure E.3 – Top obscuration
82	Annex F (normative)Measurement method of internal elements of HB1 lamps F.1 General test conditions F.1.1 Measurement position F.1.2 Ageing F.1.3 Test conditions F.2 Dipped-beam filament location F.2.1 Horizontal location F.2.2 Vertical location F.2.3 Axial location F.3 Main-beam filament location F.3.1 Horizontal location F.3.2 Vertical location
83	F.3.3 Axial location Figure F.1 – Side view, view from ③ab Figure F.2 – Plan view, view from ④a
84	Annex G (informative)Optical set-up for the measurement of the position and form of the arcand of the position of the electrodes of discharge lamps Figure G.1 – Optical system
85	Annex H (normative)Measurement method of electrical and photometriccharacteristics of discharge lamps H.1 General H.2 Ballast H.3 Burning position H.4 Ageing H.5 Supply voltage H.6 Starting test H.7 Run-up test H.8 Hot restrike test
86	H.9 Electrical and photometric test H.10 Colour
87	Annex I (informative)Overview of lamp types and their applications Table I.1 – Overview of lamp types and their applications
90	Annex J (normative)Test conditions for colour endurance measurements J.1 General J.2 Calibration and ageing Table J.1 – Applicable switching modes Table J.2 – Applicable boxes of the test racks
91	J.3 Test voltage J.4 Operating position J.5 Test rack J.6 Operating cycles Figure J.1 – Side view of box Figure J.2 – Front view of box Table J.3 – Dimensions of the applicable boxes and the relative positionof the centre of the filament
92	Figure J.3 – Temperature in the climate chamber during one operating cycle Figure J.4 – Relative humidity in the climate chamber during one operating cycle Table J.4 – Timing during one operating cycle
93	Figure J.5 – Switching modes of filament lamps for intermittent operationduring one operating cycle Figure J.6 – Switching modes of filament lamps for intermittentand continuous operation during one operating cycle Table J.5 – Switching modes of the filament lamps
94	J.7 Closure Figure J.7 – Switching modes of filament lamps for continuous operationduring one operating cycle Figure J.8 – Switching modes of filament lamps for intermittentand continuous operation during one operating cycle
95	Annex K (informative)Method(s) to determine the value of the light centre length for Lx3A, Lx3B, Lx4A, Lx4B, Lx5A, Lx5B, L1A/6 and L1B/6 K.1 Measurement and calculation method based on ray tracing Figure K.1 – Set-up to measure the luminance distribution ofthe A versions of the LED light sources
96	K.2 Alternative method Figure K.2 – Set-up to measure the luminance distribution ofthe B versions of the LED light sources
97	Annex L (informative)Method to determine the maximum luminancegradient of LED light sources L.1 Measuring the luminance L.2 Calculating the maximum luminance gradient
98	Figure L.1 – Example of a luminance image andthe calculated average luminance values L(x) Figure L.2 – Example for 1 µm-interpolation and positionof maximum luminance gradient
99	Bibliography

Additional information

Status	Definitive
Pages	100
Publication Date	2021-06-10
ISBN	978 0 539 13645 6
Standard Number	BS EN IEC 60809:2021
Title	Lamps and light sources for road vehicles. Dimensional, electrical and luminous requirements
Identical National Standard Of	EN IEC 60809:2021, IEC 60809:2021
Replaces	BS EN IEC 60809:2015+A3:2019
Descriptors	Indicator lights, Position, Filaments (lamps), Lamps, Dimensional measurement, Incandescent lamps, Vehicle lights, Rated power, Electric lamps, Voltage, Filament lamps, Headlamps, Rated voltage, Road vehicle components, Colour, Shape, Marking, Electric power (wattage), Fog lights, Testing conditions
Publisher	BSI
Committee	CPL/34/1
ICS Codes	43.040.20 - Lighting, signalling and warning devices

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