Amendment 1 - Lamps, light sources and LED packages for road vehicles - Performance requirements

Amendement 1 - Lampes, sources lumineuses et LED encapsulées pour véhicules routiers - Exigences de performances

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Published
Publication Date
07-Apr-2019
Current Stage
PPUB - Publication issued
Completion Date
08-Apr-2019
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IEC 60810
Edition 5.0 2019-04
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
colour
inside
A MENDMENT 1
AM ENDEMENT 1
Lamps, light sources and LED packages for road vehicles –
Performance requirements
Lampes, sources lumineuses et LED encapsulées pour véhicules routiers –
Exigences de performances
IEC 60810:2017-09/AMD1:2019-04(en-fr)
---------------------- Page: 1 ----------------------
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---------------------- Page: 2 ----------------------
IEC 60810
Edition 5.0 2019-04
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
colour
inside
A MENDMENT 1
AM ENDEMENT 1
Lamps, light sources and LED packages for road vehicles –
Performance requirements
Lampes, sources lumineuses et LED encapsulées pour véhicules routiers –
Exigences de performances
INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
COMMISSION
ELECTROTECHNIQUE
INTERNATIONALE
ICS 29.140.99 ISBN 978-2-8322-6706-6

Warning! Make sure that you obtained this publication from an authorized distributor.

Attention! Veuillez vous assurer que vous avez obtenu cette publication via un distributeur agréé.

® Registered trademark of the International Electrotechnical Commission
Marque déposée de la Commission Electrotechnique Internationale
---------------------- Page: 3 ----------------------
– 2 – IEC 60810:2017/AMD1:2019
© IEC 2019
FOREWORD
This amendment has been prepared by subcommittee 34A: Lamps, of IEC technical
committee 24: Lamps and related equipment.
The text of this amendment is based on the following documents:
CDV Report on voting
34A/2106/CDV 34A/2129/RVC

Full information on the voting for the approval of this amendment can be found in the report

on voting indicated in the above table.

The committee has decided that the contents of this amendment and the base publication will

remain unchanged until the stability date indicated on the IEC website under

"http://webstore.iec.ch" in the data related to the specific publication. At this date, the

publication will be
• reconfirmed,
• withdrawn,
• replaced by a revised edition, or
• amended.
_____________

Replace, throughout the document, all instances of "JESD22-A101C" with "JESD22-A101D".

Replace, throughout the document, all instances of "JESD22-A108D" with "JESD22-A108F".

Replace, throughout the document, all instances of "JESD22-A113F" with "JESD22-A113H".

Replace, throughout the document, all instances of "JESD22-B101B" with "JESD22-B101C".

Replace, throughout the document, all instances of "JESD22-B106D" with "JESD22-B106E".

Replace, throughout the document, all instances of "JESD22-B116:1998", "JESD22-B116"

and "STD22-B116" with "JESD22-B116B".
2 Normative references
Add the following new references:
CIE 015:2018, Colorimetry

R.E.5, Consolidated Resolution on the common specification of light source categories

R.E.5 is published by UNECE under the reference ECE/TRANS/WP.29/1127 and is
---------------------- Page: 4 ----------------------
IEC 60810:2017/AMD1:2019 – 3 –
© IEC 2019
available at the following address (website checked on 6 March 2019)
http://www.unece.org/trans/main/wp29/wp29wgs/wp29gen/wp29resolutions.html
Delete the following two references:

Addendum 36: Regulation No. 37, Uniform provisions concerning the approval of filament

lamps for use in approved lamp units of power-driven vehicles and of their trailers

Addendum 127: Regulation No. 128, Uniform provisions concerning the approval of light

emitting diode (LED) light sources for use in approved lamp units on power-driven

Replace the reference to "JESD22-A113F" with the following new reference:

JESD22-A113H, Preconditioning of nonhermetic surface mount devices prior to reliability

testing
5 Filament lamp data
Table 3 – Rated life values for continuous operation

Delete, under the "UN" column heading, all of the references to category sheet “R37”, replace

the column heading "UN" with “R.E.5”, replace footnote "a" with a new footnote "a" and delete

footnote "b", as follows:
Table 3 – Rated life values for continuous operation
Filament lamp data
Type 12 V 24 V
sheet number
IEC 60809 R.E.5 Category Test V B /h T /h Test V B /h T /h
3 c c
Lamps for front lighting applications
2310 H1 H1 13,2 150 400 28,0 90 250
2320 - H2 13,2 90 250 28,0 90 250
2330 H3 H3 13,2 150 400 28,0 90 250
2120 H4 H4 (HB/LB) 13,2 125/250 250/500 28,0 100/200 200/400
2315 H7 H7 13,2 300 500 28,0 200 400
2365 H8 H8, H8B 13,2 400 800
2370 H9 H9, H9B 13,2 250 500
2375 H10 H10 13,2 800 1 600
2380 H11 H11, H11B 13,2 350 600 28,0 300 600
2385 H12 H12 13,2 480 970
H13,H13A
- H13 13,2 170/1 200 350/2 500
(HB/LB)
H15
- H15 13,2 250/2 000 500/4 000 28,0 200/1 500 400/3 000
(HB/DRL)
- H16 H16, H16B 13,2 500 1 000
- H17 H17 13,2 100/200 200/400
- H18 H18 13,2 300 500
H19
- H19 13,2 125/250 250/500
(HB/LB)
- H20 H20 13,2 100 200
---------------------- Page: 5 ----------------------
– 4 – IEC 60810:2017/AMD1:2019
© IEC 2019
Filament lamp data
Type 12 V 24 V
sheet number
B /h T /h B /h T /h
IEC 60809 R.E.5 Category Test V Test V 3
3 c c
H27W/1
3430 H27W 13,5 90 190
H27W/2
2325 HB3 HB3/ HB3A 13,2 250 500
2335 HB4 HB4/ HB4A 13,2 850 1 700
2420 HIR2 HIR2 13,2 300 600
HS1
2130 HS1 13,2 75/150 150/300
(HB/LB)
2340 HS2 HS2 13,2 100 250
PSX26
- PSX26W 13,2 1 000 2 000
2110 R2 13,2 30/60 90/160
(HB / LB)
2150 S1/S2 S2 13,2 50/100 100/200
Lamps for signalling applications
C5W 13,5 350 750 28,0 120 350
H6W,
3410 H6W 13,5 350 700
HY6W
- H10W H10W/1 13,5 150 400
- H10W HY10W/1 13,5 300 600
3420 H21W H21W 13,5 200 400 28,0 90 180
- HY21W HY21W 13,5 200 400 28,0 90 180
- P13W P13W 13,5 4 000 8 000
- P19W P19W 13,5 1 000 2 000
3310 P21W P21W 13,5 120 320 28,0 60 160
3120 P21/4W P21/4W 13,5 60/600 160/1 600 28,0 60/600 160/1 600
3110 P21/5W P21/5W 13,5 60/600 160/1 600 28,0 60/600 160/1 600
- P24W P24W 13,5 750 1 500
3315 P27W P27W 13,5 550 1 320
1 320/8 82
- P27/7W P27/7W 13,5 550/3 690
- PR21W PR21W 13,5 120 320 28,0 60 160
PR21/5
- PR21/5W 13,5 60/600 160/1 600
- P19W PSY19W 13,5 1 200 2 400
- P24W PSY24W 13,5 1 000 2 000
- P19W PY19W 13,5 1 200 2 400
3311 PY21W PY21W 13,5 120 320 28,0 60 160
- P24W PY24W 13,5 1 000 2 000
PY27/7 1 300/8 00
3141 PY27/7W 13,5 550/3 600
W 0
3320 R5W R5W 13,5 100 300 28,0 80 225
3330 R10W R10W 13,5 100 300 28,0 80 225
- R10W RY10W 13,5 100 300
3340 T4W T4W 13,5 300 750 28,0 120 350
4310 W3W W3W 13,5 500 1 500 28,0 400 1 100
4320 W5W W5W 13,5 200 500 28,0 120 350
---------------------- Page: 6 ----------------------
IEC 60810:2017/AMD1:2019 – 5 –
© IEC 2019
Filament lamp data
Type 12 V 24 V
sheet number
B /h T /h B /h T /h
IEC 60809 R.E.5 Category Test V Test V 3
3 c c
4340 W16W W16W 13,5 250 700
4321 W5W WY5W 13,5 200 500
4120 C21W C21W 13,5 40 110
- WY16W WY16W 13,5 250 700
- W21W W21W 13,5 120 320
W21/5
- W21/5W 13,5 60/600 160/1 600
- WY21W WY21W 13,5 120 320
W15/5
- W15/5W 13,5 120/600 320/1 600
- W10W W10W 13,5 100 300
- WY10W WY10W 13,5 100 300

The values indicated are minimum requirements. Depending on some particular customers' specifications,

different values may be obtained, i.e. shorter life/higher luminous flux or longer life/lower luminous flux. This

shall be negotiated between filament lamp manufacturers and their customers.

If there is no direct contact between the customer and supplier, the information on deviation from recommended

life time data shall be given on the package and/or in publicly available technical documentation.

If an R.E.5 sheet number is referenced, the IEC sheet number refers to the data sheet given in withdrawn

IEC 60809:1995/AMD5:2012 and is given for information only.
Table 4 – Rated luminous flux-maintenance values for continuous operation

Delete, under the "UN" column heading, all the references to category sheet “R37”, replace

the column heading "UN" with “R.E.5”, replace footnote "e" with a new footnote "e" and delete

footnote "f", as follows:
---------------------- Page: 7 ----------------------
– 6 – IEC 60810:2017/AMD1:2019
© IEC 2019
Table 4 – Rated luminous flux-maintenance values for continuous operation
Filament lamp data
Type 12 V 24 V
sheet number
Luminous flux Luminous flux
e maintenance maintenance
IEC 60809 R.E.5 Category Test V Test V
h % h %
Lamps for front lighting applications
c c
2110 R2 R2 13,2 55 85 28,0 55 85
d d
110 70 28,0 110 70
c c
2120 H4 H4 13,2 110 85 110 85
d d
225 85 28,0 225 85
2125 - H6 14,0 75 85 – – –
150 80
2305 H5 14,0 75 85 – – –
2310 H1 H1 13,2 170 90 28,0 170 90
2320 H2 13,2 170 90 28,0 170 90
2330 H3 H3 13,2 170 90 28,0 170 90
a a
3110 P21/5W 13,5 110 70 28,0 110 70
P21/5W
b b
750 70 750 70
a b
3120 P21/4W P21/4W 13,5 110 750 70 28,0
Under Under
consideration consideration
3310 P21W P21W 13,5 110 70 28,0 110 70
3320 R5W R5W 13,5 150 70 28,0 150 70
3330 R10W R10W 13,5 150 70 28,0 150 70
3340 T4W T4W 13,5 225 70 28,0 225 70
4110 C5W C5W 13,5 225 60 28,0 225 60
4120 C21W C21W 13,5 75 60 – – –
4310 W3W W3W 13,5 750 60 28,0 750 60
4320 W5W W5W 13,5 225 60 28,0 225 60

The values indicated are minimum requirements. Depending on some particular customers' specifications,

different values may be obtained, i.e. shorter life/higher luminous flux or longer life/lower luminous flux. This shall

be negotiated between filament lamp manufacturers and their customers.

Luminous flux-maintenance values for extended operation times are under consideration.

High-wattage filament.
Low-wattage filament.
Main or upper beam filament.
Dipped or lower beam filament.

If an R.E.5 sheet number is referenced, the IEC sheet number refers to a data sheet given in withdrawn

IEC 60809:1995/AMD5:2012 and is given for information only.
7.3 Luminous flux and colour maintenance
Replace the fifth paragraph with the following new paragraph:

For LED light sources which fulfil the requirements of the corresponding category sheet of

R.E.5 the L B values shall be not less than those specified in Table 5.
70 10
---------------------- Page: 8 ----------------------
IEC 60810:2017/AMD1:2019 – 7 –
© IEC 2019
Table 5 – Minimum L B values for replaceable LED light sources
70 10

Replace, in the first column heading, the reference to "UN R 128" with "R.E.5" and add below

the existing row "LY5A, LY5B", a new row "L1/6A, L1/6B", as follows:
Category according to R.E.5 Minimum L B
70 10
… …
LY5A, LY5B 500
L1/6A, L1/6B 2 000
7.7 Mass
Table 9 – Maximum mass for LED light sources
Add, in the last row, "L1/6" to the category list, as follows:
LR3, LR4, LR5, LW3, LW5, LY3, LY5, L1/6 PGJ18.5 35
7.8.2 Typical circuits for LR3, LR5, LY3, LY5, LW3 and LW5 LED light sources
Replace the existing title of Subclause 7.8.2 with the following new title:

7.8.2 Typical circuits for LR3, LR5, LY3, LY5, LW3, LW5 and L1/6 LED light sources

Replace, in the first paragraph, the introductory phrase with the following:

A typical electrical circuit for LR3, LR5, LY3, LY5, LW3, LW5 and L1/6 light source contains

Figure 8
Replace the title of Figure 8 with the following new title:

Typical electrical circuit for an LR3, LR5, LY3, LY5, LW3, LW5 and L1/6 LED light source

7.9 Maximum power consumption

Replace the existing Subclause 7.9, including its title, with the following new Subclause 7.9:

7.9 Maximum power consumption and minimum current draw

For the LED light sources listed in Table 10 the maximum power consumption at test voltages

of 9,0 V DC, 13,5 V DC and 16,0 V DC shall not exceed the values given after continuous

operation for 1 min and 30 min at 23 °C ± 5 °C.

For these electrical measurements, a temperature tolerance of ±5° C is given. For products

where it is known that the electrical characteristics depend very strongly on temperature,

tighter temperature tolerances should be considered.
---------------------- Page: 9 ----------------------
– 8 – IEC 60810:2017/AMD1:2019
© IEC 2019
Table 10 – Maximum power consumption
Test voltage
9,0 V DC 13,5 V DC 16,0 V DC
LR3 3,5 W 3,5 W 5,0 W
LR4 (minor/major function) 1,0/3,5 W 1,0/3,5 W 1,5W/5,0W
LR5 3,5 W 3,5 W 5,0 W
LW3 5,0 W 5,0 W 10,0 W
LY3 5,0 W 5,0 W 10,0 W
LW5 8,0 W 8,0 W 10,0 W
LY5 8,0 W 8,0 W 12,0 W
L1/6 6,0 W 6,0 W 10,0 W
During the ON state, tested in flashing mode, i.e. ON/OFF ratio of 1:1.

NOTE The values given in Table 10 for maximum power at 13,5 V DC are taken from UN R128.

For the LED light sources listed in Table 13, the minimum current draw at normal operation at

the specified test voltages shall not be below the values given after continuous operation for

1 min and 30 min at 23 °C ± 5 °C.

Test voltages for 12 V light sources are: between 12,0 V and 14,0 V DC, tested at

12,0 V, 13,0 V and 14,0 V DC.
Table 13 – Minimum current draw at normal operation
Minimum current draw
in mA
LR3 75
LR4 (minor function) -
LR4 (major function) 75
LR5 75
LW3 75
LY3 100
LW5 100
LY5 100
L1/6 100
During the ON state, tested in flashing mode, i.e.
ON/OFF ratio of 1:1, 90 Hz.
7.14 Electrostatic discharge test (ESD)
Replace the content of Subclause 7.14 with the following:

The purpose of this test is to evaluate the performance of the LED light source under stress

due to electrostatic discharge at the terminals of the LED light source and at the housing. The

test and classification shall be conducted according to ISO 10605 on a test quantity of at least

10 LED light sources under the following test conditions:
• ESD packing, handling tests according to the conditions described in Table 14;
• ESD power test according to the conditions described in Table 15.
The LED light sources have successfully completed the tests, if after the test

• the luminous flux has not changed by more than 10 % compared to the initial value;

---------------------- Page: 10 ----------------------
IEC 60810:2017/AMD1:2019 – 9 –
© IEC 2019

• the chromaticity values (cx, cy) remain within the colour boundaries of UN Regulation

No. 48;

• the electrical current at test voltage has not changed by more than 10 % compared to the

initial value.
Values are based on a non-compliance level of 10 %.
• Pin P1: Ground;
• Pin P2: V+.
Table 14 – ESD packaging, handling (light source not connected)
Test Test settings Test applied to
ESD1 Pin P1 grounded, wire length max. 200 mm Pin P2
Discharge network: 2 kΩ / 150 pF
Test level: ±4 kV (contact)
Number of discharges: 3
Discharge interval: ≥ 3 s
ESD2 Pin P1 and Pin P2 not grounded Pin P1, Pin P2
Discharge network: 2 kΩ / 150 pF
Test level: ±4, ±6, ±8 kV (contact)
Number of discharges for each pin and for
each test level: 10
Discharge interval: ≥ 3 s
ESD3 Pin P1 and Pin P2 not grounded Housing
Discharge network: 2 kΩ/150 pF
Test level: ±4 kV, ±6 kV, ±8 kV (contact)
±6 kV, ±8 kV (air)
Number of discharges for each test level: 10
Discharge interval: ≥ 3 s
Table 15 – ESD powered test (light source connected)
Test Test settings Test applied to
ESD4 Direct discharges Housing
Discharge network: 2 kΩ / 330 pF
Test level: ±4 kV, ±8 kV (contact)
±4 kV, ±8 kV (air)
Number of discharges for each test level: 10
Discharge interval: ≥ 3 s
Test voltage as specified on the category sheet.
Add, at the end of Subclause 7.15, the following new Subclause 7.16:
7.16 White colour groups

The light source shall be marked with the applicable colour group name or its abbreviation or

its nominal CCT value as defined in Table 16.
---------------------- Page: 11 ----------------------
– 10 – IEC 60810:2017/AMD1:2019
© IEC 2019

These three white colour groups are defined with a nominal correlated colour temperature

(CCT).

The white colour space, which is sub-divided by these colour groups, is defined in UN lighting

regulations, for example UN R 128 and UN R 48 and in IEC 60809:2014 and
IEC 60809:2014/AMD1:2017, 4.4.

The three colour groups are separated by their x-coordinate value from the CIE x,y

chromaticity co-ordinates according to CIE 015, as shown in Table 16 and Figure 13.

Table 16 – Three white colour groups, their abbreviation, nominal CCT and
CIE x-coordinate boundary value
White colour group Abbreviation Nominal CCT CIE x-coordinate boundary value
Cool white CW 5 700 K x ≤ 0,345
Neutral white NW 4 500 K 0,345 < x < 0,405
Warm white WW 3 500 K x ≥ 0,405

NOTE These colour groups were chosen to allow colour matching with existing light source technologies. “neutral

white” corresponds to the typical white colour of HID light sources, “warm white” corresponds to the typical white

colour of halogen light sources.
Figure 13 – Three white colour groups

For the purpose of measuring the colour group of a white LED light source, the CIE colour

coordinates (x,y) shall be tested under the following conditions:
• integral colour measurement after 30 min operation;
• T = 23 °C ± 2,5 °C;
ambient
---------------------- Page: 12 ----------------------
IEC 60810:2017/AMD1:2019 – 11 –
© IEC 2019

• test voltage: as specified in the relevant category sheet, for example 13,2 V for

forward lighting functions, 13,5 V for signalling functions.
8.6.1 Pre- and post- electrical and photometric test
Add, after the Note, the following new paragraph:

A simple functioning test (light/no light) at minimum and at maximum temperatures (as

specified in the data sheet) shall be performed. Alternatively, a simple functioning test during

stress testing may be used.
8.6.3 High temperature operating life (HTOL) test
Replace the second list bullet with the following:
• the testing shall be done:
– at the maximum specified drive current and at a temperature T to achieve the
corresponding maximum specified temperature T and
– at the maximum specified T and at a drive current to achieve the corresponding
maximum specified T .
8.6.5 Wet high temperature operating life (WHTOL) test
Replace the last list bullet with the following:

• power cycle 30 min on/30 min off at maximum drive current (i.e. rating at T = 85 °C), and

Add the following new list bullet after the last list bullet:
• continuous on at minimum drive current (i.e. rating at T = 85 °C)
Delete the last paragraph starting with “The tests shall be…”.
8.6.9 Destructive physical analysis (DPA) test
Delete, in the first sentence of the second paragraph, the words "per lot".
8.6.10 Physical dimensions (PD) test
Add, at the end of the paragraph, the following new text:
Sample size: 3 x 10.
8.6.13 Resistance to soldering heat (RSH-TTW) test
Add, at the end of the last paragraph, the following new text:
Sample size: 3 x 10.
8.6.14 Resistance to soldering heat (RSH-reflow) test
Add, at the end of the last paragraph, the following new text:
Sample size: 3 x 10.
---------------------- Page: 13 ----------------------
– 12 – IEC 60810:2017/AMD1:2019
© IEC 2019
Annex D
Figure D.1
Replace all instances of "mn" with "min", as follows:
Figure D.1 – Superposition of on/off switching and power switching cycle
Annex M

M.5.3 High temperature operating life (HTOL) and low temperature operating life (LTOL)

tests
Replace the existing text with the following:

The purpose of this test is to evaluate the performance of the LED package under stress due

to high temperature operation. The test should be conducted according to JESD22-A108F; the

following test conditions apply:
• typical duration 2 000 h;
• over-stress parameters: T , I .
j f

As part of the robustness investigation, the following HTOL over-stress conditions should be

tested for a minimum of 1 500 h:
• T = T + 15 K
j j,max
= 125 % I mA
• I
f f,max

• 78 LEDs taken from three different batches (production lot) of 26 each should be used.

• For all surface mount solder reflowable: preconditioning shall be performed in
accordance with JESD22-A113H at the next higher moisture sensitivity level than

specified in the product datasheet followed by three Pb-Free reflow solder cycles.

Reflow cycles should be completed between 15 min and 4 h after preconditioning is

completed.

As part of the robustness investigation, the following LTOL over-stress conditions should be

tested for a minimum of 1 500 h:
• T = -40 °C
ambient
• I = 125% I mA
f f,max

• 78 LEDs taken from three different batches (production lot) of 26 each should be used.

• For all surface mount solder reflowable: preconditioning shall be performed in
accordance with JESD22-A113H at the next higher moisture sensitivity level than

specified in the product datasheet followed by three Pb-Free reflow solder cycles.

Reflow cycles should be completed between 15 min and 4 h after preconditioning is

completed.
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IEC 60810:2017/AMD1:2019 – 13 –
© IEC 2019
M.5.5 Wet high temperature operating life (WHTOL) test
Replace the existing text with the following:

The purpose of this test is to evaluate the performance of the LED package under stress due

to temperature and humidity. The LED package should be tested according to JESD22-A101D.

The following test conditions apply:
• Typical duration: 2 000 h.

• The LED should be operated either continuously on direct current or with a power cycle

of 30 min on/30 min off (power duty factor = 50 %).

• Other currents, chamber temperatures, and chamber relative humidities RH or moisture

contents MC (absolute humidity absorbed by LED package), with or without a power cycle,

may be chosen to develop WHTOL models. All other test provisions should be in
accordance with JESD22-A101D.

• Efforts should be made to estimate the relative humidty RH and/or moisture content MC

values near the LED during the power-on and during the power-off cycles.
• The tests should be performed at the minimum and maximum rated drive currents
corresponding to the T of the LED during the power-on operation.
• Over-stress parameters: RH or MC , I , T , power duty factor.
chamber chamber f chamber

As part of the robustness investigation, the following over-stress conditions should be tested

for a minimum of 1 500 h:
• 85 °C / 85 % RH ambient
• I = 125 % I mA
f f,max

• 78 LEDs taken from three different batches (production lot) of 26 each should be used.

• For all surface mount solder reflowable: preconditioning shall be performed in accordance

with JESD22-A113H at the next higher moisture sensitivity level than specified in the

product datasheet followed by three Pb-Free reflow solder cycles. Reflow cycles should be

completed between 15 min and 4 h after preconditioning is completed.
M.5.6 Power temperature cycling (PTMCL) test
Replace the existing text with the following:

The purpose of this test is to evaluate the performance of the LED package under stress due

to temperature cycles during operation of the LED package. The LED package should be

tested according to JESD 22-A105C; the following test conditions apply:
• Typical duration: 1 000 temperature cycles.

• Power cycle 5 min on/5 min off operated at the corresponding maximum rated drive

current.
• Other T than the ones specified in JESD 22-A105C (test conditions A and B in
s,max
Table 1) may be chosen.
• Over-stress parameters: T , T , I , transition time, dwell time.
s,min s,max f
• T and T should be reported for both on and off cycles.
j,min j,max

As part of the robustness investigation, the following over-stress conditions should be tested

for 1 500 temperature cycles:
• T = -40 °C; T = 125 °C.
s,min s,max
• 10 min dwell, 30 min transfer (1:20 h cycle).
• 5 min on/5 min off.
---------------------- Page: 15 ----------------------
– 14 – IEC 60810:2017/AMD1:2019
© IEC 2019
• T = T + 15 K shall not be exceeded at T ; I = 125 % I mA or I shall be
j j,max s,max f f,max f
chosen to meet T = T + 15 K at T .
j j,max s,max

• 78 LEDs taken from three different batches (production lot) of 26 each should be used.

• For all surface mount solder reflowable: preconditioning shall be performed in accordance

with JESD22-A113H at the next higher moisture sensitivity level than specified in the

product datasheet followed by three Pb-Free reflow solder cycles. Reflow cycles should be

completed between 15 min and 4 h after preconditioning is completed.
M.5.7 Thermal shock (TMSK) test
Replace the existing text with the following:

The purpose of this test is to evaluate the performance of the LED package under stress due

to thermal shock. The LED package should be tested according to JESD22-A106B (or
IEC 60068-2-14). The following conditions should apply:
• Typical duration: 1 000 cycles.
• Over-stress parameters: T , T .
s,min s,max
• One (or both) of the options below should be chosen:
• Option 1: liquid to liquid. Other T and T combinations tha
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