Documentación Ziel 400w - Wall Washer 150w

LUMINARIA LED HIGH MAST / SPORTS IP65 MOD: ZIEL I
400W 5000K / 90-305VAC >47600LM LEDEX
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Categoría: Proyectores LED
Código: B4839
Tipo: PROYECTOR
Color: GRIS
Potencia: 400W
Temperatura de color: 5000K
Lúmenes: 47600LM
CRI: >70
Voltaje: 90-305VAC
Frecuencia: 60Hz
Factor de protección: FP>0.9
Ángulo: Asimetrico
Horas de vida: 100000
IP: IP65
Medidas: 682x509x151mm
Empaque: 1
Dimerizable: SI
Segmento: Industrial
Profesional: SI
@ledex.ec
www.ledex.ec
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Shenzhen ZCT Technology Co., Ltd.
Report No.: 17ZCTS0213006LR
Copy of marking plate: (Representative)
LED High mast lights
Model: ST-LHM600N
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IP65
Shanghai shinetoo lighting co.,ltd
MADE IN CHINA
Note:
- Marking label was sticked on rear external enclosure. Rating label for other models is same above,
except the model name.
- The above marking are the minimum requirements required by the safety standard. For the final
production sample, the marking which do not give rise to misunderstanding may be add.
- The CE marking and WEEE symbol should be at least 5.0mm and 7.0mm respectively in height.
- The instruction sheet and marking should be translated to the language where the product will be sold.
Shenzhen ZCT Technology Co., Ltd.
Address: 3F, 5th Building, Hongsheng Industrial Zone, No.4336 Bao'an Road,
Bao'an District, Shenzhen, China.
Tel: 400-805-1899 Fax: 86-755-23702323 http://www.renzhengjiance.com
Page 2 of 14
Shenzhen ZCT Technology Co., Ltd.
Report No.: 17ZCTS0213006LR
Test item particulars
Equipment mobility........................................................... :
movable
hand-held
transportable
stationary
fixed
direct plug-in
for building-in
Connection to the mains.................................................. :
pluggable-equipment
permanent connection
system.
Operating condition.......................................................... :
continuous
Over voltage category...................................................... :
OVC I
type A
type B
considered in the final
short-time
intermittent
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Mains supply tolerance (%)
OVC II
OVCIII
OVC IV
305Vac (+10%)
Tested for IT power systems........................................... :
Yes
No
IT testing, phase-phase voltage (V)................................: N/A
Class of equipment...........................................................:
Class I
Class II
Not classified
Class III
Mass of equipment (kg)....................................................: N/A
Pollution degree................................................................ :
PD 2
PD3
IP protection class.............................................................: IP65
Possible test case verdicts
- test case does not apply to the test object.................. : N(.A.)
- test object does meet the requirement........................ : P(ass)
- test object does not meet the requirement..................: F(ail)
General remarks
The test results presented in this report relate only to the object tested.
This test report shall not be reproduced, except in full, without the written approval of the Issuing testing
laboratory.
“(see Enclosure#)” refers to additional information appended to the report.
"(see appended table)" refers to a table appended to the report.
Throughout this report a
comma /
point is used as the decimal separator.
General product information:

The equipment was general designed for using with information technology equipment.

General remarks：

This report shall not be reproduced except in full without the written approval of the testing laboratory.

The test results presented in this report relate only to the item(s) tested.

"(see Annex #)" refers to an annex appended to the report.

Clause numbers between brackets refer to clauses in EN 60529

Throughout this report a comma is used as the decimal separator.
Shenzhen ZCT Technology Co., Ltd.
Address: 3F, 5th Building, Hongsheng Industrial Zone, No.4336 Bao'an Road,
Bao'an District, Shenzhen, China.
Tel: 400-805-1899 Fax: 86-755-23702323 http://www.renzhengjiance.com
Page 3 of 14
Shenzhen ZCT Technology Co., Ltd.
Report No.: 17ZCTS0213006LR
EN 60529
Cl.
5
Requirement – Test
Result
Degrees of protection against access to hazardous parts and against solid
foreign objects indicated by the first characteristic numeral
The designation with a first characteristic numeral
implies that conditions stated in both 5.1 and 5.2
are met.
- the enclosure provides protection of persons
against access to hazardous parts by preventing
or limiting the ingress of a part of the human body
or an object held by a person; and simultaneously
- the enclosure provides protection of equipment
against the ingress of solid foreign objects.
the tests establishing compliance with any one of
the lower degrees of protection need not
necessarily be carried out provided that these
tests would obviously be met if applied.
Protection against access to hazardous parts
Protection against access solid foreign objects
First characteristic numeral is 0
IP 6X
Non-protected
First characteristic numeral is 1
IP 6X
Brief description: Protected against solid foreign
objects of 50 rnrn  and greater
Definition: The object probe, sphere of 50 rnrn  ,
shall not fully penetrate
First characteristic numeral is 2
IP 6X
Brief description: Protected against solid foreign
objects of 12.5 rnrn  and greater
Definition: The object probe, sphere of 12,5 rnrn
 , shall not fully penetrate
First characteristic numeral is 3
IP 6X
Brief description: Protected against solid foreign
objects of 2.5 rnrn  and greater
Definition: The object probe, sphere of 2,5 rnrn
 , shall not penetrate at all ')
First characteristic numeral is 4
IP 6X
Brief description: Protected against solid foreign
objects of 1.0 rnrn  and greater
Definition: The object probe of 1,0 rnrn  , shall
not penetrate at ail I)
First characteristic numeral is 5
IP 6X
Brief description: Dust-protected
Definition: Ingress of dust is not totally prevented,
but dust shall not penetrate in a quantity to
interfere with satisfactory operation of the
apparatus or to impair safety
Verdict
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5.1
5.2
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N
N
N
N
N
N
Shenzhen ZCT Technology Co., Ltd.
Address: 3F, 5th Building, Hongsheng Industrial Zone, No.4336 Bao'an Road,
Bao'an District, Shenzhen, China.
Tel: 400-805-1899 Fax: 86-755-23702323 http://www.renzhengjiance.com
Page 4 of 14
Shenzhen ZCT Technology Co., Ltd.
Report No.: 17ZCTS0213006LR
EN 60529
Cl.
Requirement – Test
First characteristic numeral is 6
Brief description: Dust-tight
Definition: No ingress of dust
Result
IP 6X
Verdict
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6
Degrees of protetion against ingress of water indicated by the second
characteristic numeral
The second characteristic numeral indicates the
degree of protection provided by enclosures with
respect to harmful effects on the equipment due to
the ingress of water.
The tests for the second characteristic numeral
are carried out with fresh water. The actual
protection may not be satisfactory if cleaning
operations with high pressure andlor solvents are
used.
Second characteristic numeral is 0
IP X5
Non-protected
Second characteristic numeral is 1
IP X5
Brief description: Protected against vertically
falling water drops
Definition: Vertically falling drops shall have no
harmful effects
Second characteristic numeral is 2
IP X5
Brief description: Protected against vertically
falling water drops when enclosure tilted up to 15”
Definition: Vertically falling drops shall have no
harmful effects when the enclosure is tilted at any
angle up to 15” on either side of the vertical
Second characteristic numeral is 3
IP X5
Brief description:Protected against spraying water
Definition: Water sprayed at an angle up to 60” on
either side of the vertical shall have no harmful
effects
Second characteristic numeral is 4
IP X5
Brief description: Protected against splashing
water
Definition: Water splashed against the enclosure
from any direction shall have no harmful effects
Second characteristic numeral is 5
IP X5
Brief description: Protected against water jets
Definition: Water projected in jets against the
enclosure from any direction shall have no harmful
effects
Second characteristic numeral is 6
IP X5
Brief description: Protected against powerful water
jets
Definition: Water projected in powerful jets
against the enclosure from any direction shall
have no harmful effects
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N
N
N
N
N
P
N
Shenzhen ZCT Technology Co., Ltd.
Address: 3F, 5th Building, Hongsheng Industrial Zone, No.4336 Bao'an Road,
Bao'an District, Shenzhen, China.
Tel: 400-805-1899 Fax: 86-755-23702323 http://www.renzhengjiance.com
Page 5 of 14
Shenzhen ZCT Technology Co., Ltd.
Report No.: 17ZCTS0213006LR
EN 60529
Cl.
Requirement – Test
Second characteristic numeral is 7
Brief description: Protected against the effects of
temporary immersion in water
Definition: Ingress of water in quantities causing
harmful effects shall not be possible when the
enclosure is temporarily immersed in water under
standardized conditions of pressure and time
Second characteristic numeral is 8
Brief description: Protected against the effects of
temporary immersion in water
Definition: ingress of water in quantities causing
harmful effects shall not be possible when the
enclosure is continuously immersed in water under
conditions which shall be agreed between
manufacturer and user but which are more severe
than for numeral 7
Result
IP X5
Verdict
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IP X5
N
10
Marking
The requirements for marking shall be specified in
the relevant product standard.
Where appropriate, such a standard should also
specify the method of marking which is to be used
when
- one part of an enclosure has a different degree
of protection to that of another part of the same
enclosure;
- the mounting position has an influence on the
degree of protection;
-the maximum immersion depth and time are
indicated.
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11
11.1
General requirements for tests
Atmospheric conditions for water or dust
Tests:
Temperature range:
Relative humidity: 25% to 75%
Air pressure:
15 "C to 35 "C
86 kPa to 106 kPa
(860 mbar to 1 060 mbar).
Test samples
The tests specified in this standard are type tests.
P
P
Tests for protection against access to hazardous parts indicated by the
first characteristic numeral
Access probes
IP6X
Access probes to test the protection of persons
against access to hazardous parts
Test conditions
IP6X
P
11.2
12
12.1
12.2
P
P
P
Shenzhen ZCT Technology Co., Ltd.
Address: 3F, 5th Building, Hongsheng Industrial Zone, No.4336 Bao'an Road,
Bao'an District, Shenzhen, China.
Tel: 400-805-1899 Fax: 86-755-23702323 http://www.renzhengjiance.com
Page 6 of 14
Shenzhen ZCT Technology Co., Ltd.
Report No.: 17ZCTS0213006LR
EN 60529
Cl.
Requirement – Test
For tests on low-voltage equipment, a low-voltage
supply (of not less than 40 V and not more
than 50 V) in series with a suitable lamp should be
connected between the probe and the hazardous
parts inside the enclosure. Hazardous live parts
covered only with varnish or paint, or protected by
oxidation or by a similar process, are covered by a
metal foil electrically connected to those parts which
are normally live in operation. The signal-circuit
method should also be applied to the hazardous
moving parts of high-voltage equipment. Internal
moving parts may be operated slowly, where this is
possible.
Acceptance conditions
:The protection is satisfactory if adequate clearance
is kept between the access probe and hazardous
parts.
For low-voltage equipment (rated voltages not
exceeding 1 000 V a.c. and I 500 V d.c.)
The access probe shall not touch hazardous live
parts.
Result
Verdict
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12.3
12.3.1
IP6X
P
IP6X
P
Shenzhen ZCT Technology Co., Ltd.
Address: 3F, 5th Building, Hongsheng Industrial Zone, No.4336 Bao'an Road,
Bao'an District, Shenzhen, China.
Tel: 400-805-1899 Fax: 86-755-23702323 http://www.renzhengjiance.com
Page 7 of 14
Shenzhen ZCT Technology Co., Ltd.
Report No.: 17ZCTS0213006LR
EN 60529
Cl.
12.3.2
Requirement – Test
Result
Verdict
For high-voltage equipment (rated voltages
exceeding 1 000 V a.c. and 1 500 V d.c.)
When the access probe is placed in the most
unfavourable position(s), the equipment shall be
capable of withstanding the dielectric tests as
specified in the relevant product standard
applicable to the equipment.
For equipment with hazardous mechanical parts:
The access probe shall not touch hazardous
mechanical parts.
N
Tests for protection against solid foreign objects indicated by the first
characteristic numeral
Test means & Test conditions
Test means and the main test conditions are given
P
For the first characteristic numeral 0: No test
required
For the first characteristic numeral 1: Rigid sphere
without handle or guard 50+05 mm diameter 50N+10%
For the first characteristic numeral 2: Rigid sphere
without handle or guard 12.5+05 mm diameter
30N+-10%
For the first characteristic numeral 3: Rigid steel
rod 2,5+05 mm diameter with edges free from burrs
3N+-10%
For the first characteristic numeral 4: Rigid steel
rod 1.0+05 mm diameter with edges free from burrs
1N+-10%
For the first characteristic numeral 5: Dust
chamber figure 2, with or without underpressure
For the first characteristic numeral 6: Dust
chamber figure 2, with under- Dressure
Acceptance conditions for first
characteristic numerals 1,2,3,4
The protection is satisfactory if the full diameter of
the probe specified in Table VII does not pass
through any opening.
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12.3.3
13
13.1&
13.2
13.3
N
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N
N
N
N
IP6X
P
N
Shenzhen ZCT Technology Co., Ltd.
Address: 3F, 5th Building, Hongsheng Industrial Zone, No.4336 Bao'an Road,
Bao'an District, Shenzhen, China.
Tel: 400-805-1899 Fax: 86-755-23702323 http://www.renzhengjiance.com
Page 8 of 14
Shenzhen ZCT Technology Co., Ltd.
Report No.: 17ZCTS0213006LR
EN 60529
Cl.
13.4
Requirement – Test
Dust test for first characteristic numerals 5 and 6
The test is nade using a dust chamber
incorporating the basic principles shown in figure 2
whereby the powder circulation pump may be
replaced by other means suitable to maintain the
talcum powder in suspension in a closed test
chamber.the talcum powder used shall be able to
pass through a square-meshed sleve the nominal
wire diameter of which is 50 um and the nominal
width of a gap bettween wires 75um.the amount of
talcum powder to be used is 2 kg per cubic metre
of the test chamber volume. It shall not have been
used for more than 20 tests.
Result
IP 6X
Verdict
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14
14.1 &
14.2
Tests for protection against water
indicated by the second characteristic
numeral
Test means & Test conditions
Test means and the main test conditions are given
P
For the first characteristic numeral 0: No test
required
For the second characteristic numeral 1: To test
for compliance with IPX1, the sample is rotatedon
the turntable at 1 rpm and 100 mm eccentricity
(thedistance between the turntable’s axis and the
test sample’scentral axis) under water dripping at a
rate of 1 mm/minfor 10 minutes.
For the second characteristic numeral 2: For IPX2
testing, the sample is tilted at15° under water
dripping at a rate of 3 mm/min for a totalof 10
minutes, 2.5 minutes in each of four positions of
tilt.
For the second characteristic numeral 3: For IPX3,
the sample is positioned under oscillating spray
tubes rotating at ±60° from the vertical for 5
minutes. Theoscillation rate is two cycles of 120° in
4 seconds.The flow rate depends upon the tube
size, which in turn is dependent upon the sample
size. Each surface of the enclosure within the
spray arch is to be tested for 1 min/m2
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N
IP X5
N
Shenzhen ZCT Technology Co., Ltd.
Address: 3F, 5th Building, Hongsheng Industrial Zone, No.4336 Bao'an Road,
Bao'an District, Shenzhen, China.
Tel: 400-805-1899 Fax: 86-755-23702323 http://www.renzhengjiance.com
Page 9 of 14
Shenzhen ZCT Technology Co., Ltd.
Report No.: 17ZCTS0213006LR
EN 60529
Cl.
Requirement – Test
For the second characteristic numeral 4: For IPX4,
the sample is positioned under oscillating spray
tubes rotating at nearly±180° from the vertical for
10 minutes. The oscillation rate is two cycles of
about360° in 12 seconds. Each surface of the
enclosure within the spray arch is to be tested for 1
min/m2, with no less than 5 minutes of total test
timeThe flow rate again depends upon the tube
size, which is itselfdependent upon the sample
size.
For the second characteristic numeral 5: To test
for compliance with IPX5, the sample issubjected
to water jetting from a nozzle with a6.3-mmdiameter opening at a flow rate of 12.5L/min. Each
surface of the enclosure is to be testedfor 1 minute
at a distance from the jet nozzle of2.5–3.0 m.
For the second characteristic numeral 6: To test
for compliance with IPX6, the sample issubjected
to water jetting from a nozzle with a 12.5-mmdiameter opening at a flow rate of 100L/min.Each
surface of the enclosure is to be tested for 1
minute at a distance from the jet nozzle of 2.5–3.0
m.
-minimum test duration: 3 min
For the second characteristic numeral 7: For IPX7
testing, thesample is submerged for 30 minutes.
The lowest pointof the enclosure should be 1000
mm below thesurface of the water, and the highest
point at least 150mm below the surface.
For the second characteristic numeral 8: For
IPX8, the test time andsubmersion depth are
according to the manufacturer’sspecifications and
must be marked on the product (forexample,
“submersible for up to 1 hour at a depth upto 2
meters”).
Result
IP X5
Verdict
N
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IP X5
P
IP X5
N
IP X5
N
IP X5
N
Shenzhen ZCT Technology Co., Ltd.
Address: 3F, 5th Building, Hongsheng Industrial Zone, No.4336 Bao'an Road,
Bao'an District, Shenzhen, China.
Tel: 400-805-1899 Fax: 86-755-23702323 http://www.renzhengjiance.com
Page 10 of 14
Shenzhen ZCT Technology Co., Ltd.
Report No.: 17ZCTS0213006LR
EN 60529
Cl.
14.3
Requirement – Test
Acceptance conditions
After testing in accordance with the appropriate
requirements of 14.2.1 to 14.2.8 the enclosure
shall be inspected for ingress of water.
It is the responsibility of the relevant Technical
Committee to specify the amount of water which
may be allowed to enter the enclosure and the
details of a dielectric strength test, if any.
In general, if any water has entered, it shall not:
-be sufficient to interfere with the correct
operation of the equipment or impair safety;
- deposit on insulation parts where it could lead
to tracking along the creepage distances;
- reach live parts or windings not designed to
operate when wet;- accumulate near the cable
end or enter the cable if any.If the enclosure is
provided with drain-holes, itshould be proved by
inspection that any water which enters does not
accumulate and that it drains away without doing
any harm to the equipment.For enclosures without
drain-holes, the relevant product standard shall
specify the acceptance conditions if water can
accumulate to reach live parts.
Result
No damage
Verdict
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Shenzhen ZCT Technology Co., Ltd.
Address: 3F, 5th Building, Hongsheng Industrial Zone, No.4336 Bao'an Road,
Bao'an District, Shenzhen, China.
Tel: 400-805-1899 Fax: 86-755-23702323 http://www.renzhengjiance.com
Page 11 of 14
Shenzhen ZCT Technology Co., Ltd.
Report No.: 17ZCTS0213006LR
ANNEX A: Test Photos
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Photo 1
Photo 2
Shenzhen ZCT Technology Co., Ltd.
Address: 3F, 5th Building, Hongsheng Industrial Zone, No.4336 Bao'an Road,
Bao'an District, Shenzhen, China.
Tel: 400-805-1899 Fax: 86-755-23702323 http://www.renzhengjiance.com
Page 12 of 14
Shenzhen ZCT Technology Co., Ltd.
Report No.: 17ZCTS0213006LR
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Photo 3
Photo 4
Shenzhen ZCT Technology Co., Ltd.
Address: 3F, 5th Building, Hongsheng Industrial Zone, No.4336 Bao'an Road,
Bao'an District, Shenzhen, China.
Tel: 400-805-1899 Fax: 86-755-23702323 http://www.renzhengjiance.com
Page 13 of 14
Shenzhen ZCT Technology Co., Ltd.
Report No.: 17ZCTS0213006LR
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Photo 5
**********************
End of report *********************
Shenzhen ZCT Technology Co., Ltd.
Address: 3F, 5th Building, Hongsheng Industrial Zone, No.4336 Bao'an Road,
Bao'an District, Shenzhen, China.
Tel: 400-805-1899 Fax: 86-755-23702323 http://www.renzhengjiance.com
Page 14 of 14
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Add: B Area, 1-2F, Building B, Zhongyu Green High-tech Industrial Park,
Wenge Road, Heshuikou, Gongming Street, Guangming New District,
Shenzhen,China
Tel: 0755-29871520
Fax: 0755-29871521
Testing Lab.
Shenzhen Southern LCS Compliance Testing Laboratory Ltd. Http: www.lcs-cert.com
E-mail: [email protected]
Report No.: LCS180712038BS
Test item
Description .......................................... : LED High mast lights
Trademark ...........................................: Shinetoo
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Model and/or type reference ............ : ST-LHM600N
Rating(s)………………………..…….: 90-305~, 50/60Hz
Test case verdicts
Test case does not apply to the test object : N(N/A)
Test item does meet the requirement ......... : P(Pass)
Test item does not meet the requirement ...: F(Fail)
Testing
Date of receipt of test item ............................: July 20, 2018
Date(s) of performance of test....................... : July 20, 2018 – July 30, 2018
General remarks
This report shall not be reproduced except in full without the written approval of the testing laboratory.
The test results presented in this report relate only to the item tested.
Throughout this report a comma is used as the decimal separator.
Modified Information
Version
Report No.
V1.0
LCS180712038BS
Version: V1.0
Revision Data
/
Summary
Original Version
Page 2 of 9
Add: B Area, 1-2F, Building B, Zhongyu Green High-tech Industrial Park,
Wenge Road, Heshuikou, Gongming Street, Guangming New District,
Shenzhen,China
Testing Lab.
Shenzhen Southern LCS Compliance Testing Laboratory Ltd.
Tel: 0755-29871520
Http: www.lcs-cert.com
Fax: 0755-29871521
E-mail: [email protected]
Report No.: LCS180712038BS
IEC 62262
Clause
Requirement – Test
Result - Remark
Verdict
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4
Designations
4.1
Arrangement of the IK code
4.2
Characteristic group numerals of the IK code and their meanings See able 1 of IEC
IK10
--
--
Each characteristic group numeral, represents an impact energy 62262, IK10
value as shown in Table1.
Impact energy
Joule 20 J
4.3
Application of the IK code
N
In general the degree of protection applies to the complete
enclosure. If parts of the enclosure have differing degrees of
protection, the latter shall be separately indicated.
4.4
Marking
In case where the relevant product committee decides that
IK10
P
marking of the IK-code shall be required, the marking
requirements shall be detailed in the relevant product standard.
Where appropriate, such a standard should also specify the
--
method of marking which is to be used when:
— one part of an enclosure has different degree of protection to
N
that of another part of the same enclosure;
— the mounting position has an influence on the degree of
N
protection.
5
General requirements for tests
5.1
Atmospheric conditions for tests
P
Unless otherwise specified in the relevant product standard, the
--
test shall be carried out under the standard atmospheric
conditions for tests described in IEC60068-1as:
Temperature range15°C to 35°C
25°C
P
Air pressure 86kPa to 106kPa (860mbar to 1060mbar)
95kPa
P
When the altitude at which the test is performed is higher than
Below 2000m
N
2000m the height of fall shall be adjusted where necessary to
result in the specified impact energy.
5.2
Enclosures under test
Version: V1.0
Page 3 of 9
Add: B Area, 1-2F, Building B, Zhongyu Green High-tech Industrial Park,
Wenge Road, Heshuikou, Gongming Street, Guangming New District,
Shenzhen,China
Testing Lab.
Shenzhen Southern LCS Compliance Testing Laboratory Ltd.
Tel: 0755-29871520
Http: www.lcs-cert.com
Fax: 0755-29871521
E-mail: [email protected]
Report No.: LCS180712038BS
IEC 62262
Clause
Requirement – Test
Result - Remark
Verdict
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Each enclosure under test shall be in a clean and new condition,
P
complete with all their parts in place unless otherwise specified
in the relevant product standard.
5.3
Specifications to be given in the relevant product standard
The relevant product standard shall specify:
--
— the definition of “enclosure” as it applies to the particular type
N
of equipment;
— the test equipment (e.g. pendulum hammer, spring hammer
P
or vertical hammer, seeClause7);
— the number of samples to be tested;
1
P
— the conditions for mounting, assembling and positioning the
P
samples, e.g. by the use of an artificial surface(ceiling, floor or
wall), in order to stimulate intended service conditions as far as
possible;
— the pre-conditioning, if any, which is to be used;
N
— whether to be tested energized;
No energized
N
— whether to be tested with any moving parts in motion;
No moving parts
N
— the number of impacts and their points of application
P
(see6.3).
In the absence of such specifications in the relevant product
P
standard, conditions of this standard shall apply.
6
Test to verify the protection against mechanical impacts
6.1
The tests specified in this standard are type tests.
--
6.2
In order to verify the protection against mechanical impacts
P
blows shall be applied to the enclosure to be tested. The device
to be used for this test are described in Clause7.
6.3
During the test the enclosure shall be mounted, according to the Displacement is
P
manufacturer instructions for use, on a rigid support. A support is less than or equal
considered to be sufficiently rigid if its displacement is less than
to 0,1mm
or equal to 0,1mm under the effect of an impact directly applied
and whose energy corresponds to the degree of protection.
Alternative mounting and support, suitable for the product, may
be specified in the relevant product standard.
Version: V1.0
Page 4 of 9
Add: B Area, 1-2F, Building B, Zhongyu Green High-tech Industrial Park,
Wenge Road, Heshuikou, Gongming Street, Guangming New District,
Shenzhen,China
Testing Lab.
Shenzhen Southern LCS Compliance Testing Laboratory Ltd.
Tel: 0755-29871520
Http: www.lcs-cert.com
Fax: 0755-29871521
E-mail: [email protected]
Report No.: LCS180712038BS
IEC 62262
Clause
Requirement – Test
Result - Remark
Verdict
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6.4
The number of impacts shall be five on each exposed face
5 points, 3 times
P
unless otherwise specified in the relevant product standard. The per point
impacts shall be evenly distributed on the faces of the enclosure
(s) under test. In no case shall more than three impacts be
applied in the surroundings of the same
6.5
Test evaluation
P
The relevant product standard shall specify the criteria upon
which the acceptance or rejection of the enclosure is to be based
on particularly:
—admissible damages;
No damage
P
—verification criteria relative to the continuity of the safety and
No broken
P
reliability of the equipment.
7
Test apparatus
The test shall be done by using one of the test apparatus as
P
described in EN60068-2-75.
The striking surface shall be visually examined before each
See Figure 1
P
impact in order to ensure that there is no damage that might
affect the result of the test.
7.1
Test Ehc: Vertical hammer
--
7.2
The hammer consists basically of a striking element which falls
See table 1 of
freely from rest through a vertical height, selected from table2,
IEC 60068-2-75
P
on to the specimen surface held in a horizontal plane. The
characteristics of the striking element shall comply with table 1.
The fall of the striking element shall be along a guide way, for
example a tube, with negligible braking. This guide way shall not
rest on the specimen and the striking element shall be free of the
guide way on striking the specimen. In order to reduce the
friction, the length l of the striking element shall not be smaller
than its diameter D, and a small gap (for example 1 mm) shall be
provided between the striking element and the guide way.
7.3
Height of fall
--
The height of fall shall be as given in table2, the equivalent mass 400mm
P
stated therein being equal to the actual mass of the striking
element.
Version: V1.0
Page 5 of 9
Add: B Area, 1-2F, Building B, Zhongyu Green High-tech Industrial Park,
Wenge Road, Heshuikou, Gongming Street, Guangming New District,
Shenzhen,China
Testing Lab.
Shenzhen Southern LCS Compliance Testing Laboratory Ltd.
Tel: 0755-29871520
Http: www.lcs-cert.com
Fax: 0755-29871521
E-mail: [email protected]
Report No.: LCS180712038BS
IEC 62262
Clause
Requirement – Test
Result - Remark
Verdict
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REMARKS:
1. The test report is valid for above tested sample only and shall not be reproduced in part without
written approval of the laboratory
2. Characterization & Condition of Sample: Normal
Version: V1.0
Page 6 of 9
Add: B Area, 1-2F, Building B, Zhongyu Green High-tech Industrial Park,
Wenge Road, Heshuikou, Gongming Street, Guangming New District,
Shenzhen,China
Testing Lab.
Tel: 0755-29871520
Shenzhen Southern LCS Compliance Testing Laboratory Ltd. Http: www.lcs-cert.com
Fax: 0755-29871521
E-mail: [email protected]
Report No.: LCS180712038BS
IEC 62262
Clause
Requirement – Test
Result - Remark
Verdict
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Table 1 of IEC 62262-2002:
Table 1- Relation between IK code and impact energy
IKcode
Impact energy
Joule
IK00
IK01
IK02
IK03
IK04
IK05
IK06
IK07
IK08
IK09
IK10
a
0,14
0,2
0,35
0,5
0,7
1
2
5
10
20
Not protected according to this standard
NOTE 1 When higher impact energy is required the value of 50 Joule is recommended.
NOTE 2 A characteristic group numeral of two figures has been chosen to avoid confusion with some
former national standards which used a single numeral for a specific impact energy.
Table 2 of IEC 60068-2-75:
Table 2- Height of tall
Energy
J
0,14
0,2
(0,3)
0,35
(0,4)
0,5
0,7
1
2
5
10
20
50
Equivalent
mass
0,25
(0,2)
0,25
(0,2)
0,25
(0,2)
(0,2)
0,25
0,25
0,25
0,5
1,7
5
5
10
56
(100)
80
(150)
140
(200)
(250)
200
280
400
400
300
200
400
500
kg
Height of
tall
mm±1%
NOTES
1 See note in 3.2.2.
2 In this part of IEC 60068, the energy, J, is calculated taking the standard acceleration clue to the earth's
Gravity(gn), rounded up to the nearest whole number, that is 10m/s².
Version: V1.0
Page 7 of 9
Add: B Area, 1-2F, Building B, Zhongyu Green High-tech Industrial Park,
Wenge Road, Heshuikou, Gongming Street, Guangming New District,
Shenzhen,China
Testing Lab.
Tel: 0755-29871520
Shenzhen Southern LCS Compliance Testing Laboratory Ltd. Http: www.lcs-cert.com
Fax: 0755-29871521
E-mail: [email protected]
Report No.: LCS180712038BS
IEC 62262
Clause
Requirement – Test
Result - Remark
Verdict
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Table 1 of IEC 60068-2-75
Table 1 - Co-ordinated charateristics of the striking elements
Energy value
≤1
2
5
10
20
50
J
±10%
±5%
±5%
±5%
±5%
±5%
0,25 (0,2)
0,5
1,7
5
5
10
Equivalent mass
±2%
kg
Material
Polyamide1)
R mm
10
25
25
50
50
50
D mm
18,5 (20)
35
60
80
100
125
f mm
6,2 (10)
7
10
20
20
25
r mm
--
--
6
--
10
17
l mm
Steel2)
To be adjusted to match the equivalent mass, see annex A.
1) 85≤HRR≤100, Rockwell hardness according to ISO 2039-2.
2) Fe 490-2, according to ISO 1052: Rockwell hardness: HRE 80...85 according to ISO 6508.
NOTE - The values shown in brackets for the equivalent mass and the diameter of the striking element for the
energy value equal to or less than 1 J are those in the current test Ef. The values currently in test Eg are also
shown for these two parameters. For co-ordination purposes, the values in brackets will be deleted five years
from the publication of this standard.
Figure1— Example sketch of a striking element
Version: V1.0
Page 8 of 9
Add: B Area, 1-2F, Building B, Zhongyu Green High-tech Industrial Park,
Wenge Road, Heshuikou, Gongming Street, Guangming New District,
Shenzhen,China
Testing Lab.
Tel: 0755-29871520
Shenzhen Southern LCS Compliance Testing Laboratory Ltd. Http: www.lcs-cert.com
Fax: 0755-29871521
E-mail: [email protected]
Report No.: LCS180712038BS
Attachment of Report — Photos
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Fig. 1 Photo of Sample (ST-LHM600N)
Fig. 2 Photo of Sample (ST-LHM600N)
----------END OF REPORT ---------Version: V1.0
Page 9 of 9
Report No.: HZ16020010p
Test Summary
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Sample Tested: ST-HML300N (5000K)
Luminous Efficacy
(Lumens /Watt)
Total Luminous Flux
(Lumens)
Power
(Watts)
Power Factor
119.0
48206.0
405.20
0.9937
CCT
(K)
4762
CRI
Stabilization Time
(Light & Power)
70.1
60
Table 1: Executive Data Summary
Test specifications:
Date of Receipt
Date of Test
Test item
Reference Standard
: Mar. 30, 2016
: Apr. 06, 2016
: Total Luminous Flux, Luminous Distribution Intensity, Luminous Efficacy,
Correlated Color Temperature, Color Rendering Index, Chromaticity
Coordinate, Electrical parameters
: IESNA LM-79-2008 Approved Method for the Electrical and Photometric
Measurements of Solid-State Lighting Products
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Page 2 of 14
Report No.: HZ16020010p
Sample Photos
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Report No.: HZ16020010p
TABLE OF CONTENT
LM-79-08 Test Report............................................................................................................................................ 1
Test Summary......................................................................................................................................................... 2
Sample Photos ........................................................................................................................................................ 4
TEST RESULTS .................................................................................................................................................... 5
Figure 1- Overview of the sample
Equipment Under Test (EUT)
Name
Model
Electrical Ratings
Product Description
Manufacturer
Address
: Led high mast lights
: ST-HML400N (5000K)
: 90~305Vac, 50/60Hz
: 5000K
Manufacturer of light source: NICHIA
Model of light source: NF2W757DRT-V1
: Shanghai shinetoo lighting co., ltd
: No.1505 Xinfei Road, Xinqiao Town, Songjiang district, shanghai, china
Spectral Power Distribution ................................................................................................................................... 6
Zonal Lumen Tabulation ........................................................................................................................................ 7
Illuminance Plots .................................................................................................................................................... 8
Luminous Intensity Distribution Plots.................................................................................................................. 10
Luminous Intensity Data ...................................................................................................................................... 11
EQUIPMENT LIST ............................................................................................................................................. 13
TEST METHODS ................................................................................................................................................ 13
Seasoning of SSL Product ................................................................................................................................ 13
Goniophotometer Method ................................................................................................................................ 13
Photometric and Electrical Measurements ................................................................................................... 13
Color Characteristics Measurements............................................................................................................ 14
Color Spatial Uniformity ............................................................................................................................. 14
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Report No.: HZ16020010p
Spectral Power Distribution
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Report No.: HZ16020010p
TEST RESULTS
Test ambient temperature was 24.2ć.
Base orientation was Light down. Test was conducted without a dimmer in the circuit.
The stabilization time of the sample was 60 minutes, and the total operating time including stabilization was 85
minutes.
The photometric distance is 30m.
Luminous data was taken at 0.5°vertical intervals and 10°horizontal intervals.
Test Voltage (V)
120.0
90.0
305.0
277.0
R1
60
60
60
60
R2
Voltage frequency (Hz)
Test Current (A)
3.396
4.611
1.281
1.526
R3
Power Factor
0.9937
0.9970
0.8551
0.9361
R4
Test Power (W)
405.20
413.83
390.80
400.01
R5
6.42
6.84
32.57
18.04
R6
THD A%
Luminous Efficacy (lm/W)
Chart 1: Spectral Power Distribution
Special Color
Rendering
Indices
Result
Parameter
119.0
Total Luminous Flux (lm)
R8
70.1
R9
Color Rendering Index (CRI)
R9
Correlated Color Temperature (CCT) (K)
R7
48206.0
-46
R10
4762
R11
Chromaticity (Chroma x, Chroma y)
(0.3552, 0.3807)
R12
Chromaticity (Chroma u, Chroma v)
(0.2072, 0.3331)
R13
Chromaticity (Chroma u’, Chroma v’)
(0.2072, 0.4997)
R14
Duv
0.0102
Average Beam Angle (°)
74.3
Center Beam Candle Power (cd)
Spacing Criteria
10870
0.35 (0°-180°)/
1.43 (90°-270°)
Zonal Lumens in the 0°-60°Zone
76.81%
Zonal Lumens in the 60°-90°Zone
23.14%
Zonal Lumens in the 90°-120°Zone
0.02%
Zonal Lumens in the 120°-180°Zone
0.04%
Table 2: Test data per Goniophotometer Method
Note: According to CIE 1976 (u’,v’) diagram, u’ = u = 4x/(-2x+12y+3), v’ = 3v/2 = 9y/(-2x+12y+3).
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Page 5 of 14
65.5
76
84.6
68.8
65.3
66.3
82.9
51.2
-46
43.4
64.1
28.8
67.5
91.5
Report No.: HZ16020010p
Illuminance Plots
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Report No.: HZ16020010p
Zonal Lumen Tabulation
Ȗ(°)
Lumens
% Total
0- 10
1041.044
2.16%
10- 20
3238.155
6.72%
20- 30
5604.993
11.63%
16.47%
30- 40
7941.711
40- 50
9801.106
20.33%
50- 60
9401.343
19.50%
14.55%
60- 70
7012.984
70- 80
3743.567
7.77%
80- 90
396.041
0.82%
90-100
1.829
0.00%
100-110
2.642
0.01%
110-120
3.495
0.01%
120-130
3.852
0.01%
130-140
4.145
0.01%
140-150
3.908
0.01%
150-160
2.714
0.01%
160-170
1.803
0.00%
170-180
0.693
0.00%
Total
48206.0
100%
% Total
Ȗ(°)
Lumens
0- 60
37028.352
76.81%
60- 90
11152.592
23.14%
0-90
48180.944
99.95%
90- 180
25.081
0.05%
0- 180
48206.0
100%
Table 3: Zonal Lumen Data
Chart 2: Beam Angle
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Page 7 of 14
Report No.: HZ16020010p
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Report No.: HZ16020010p
Luminous Intensity Distribution Plots
Chart 3: Illuminance Plot (Footcandles)
Chart 4: Isocandela Plot
Chart 5: Polar Candela Distribution
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Page 9 of 14
Report No.: HZ16020010p
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Report No.: HZ16020010p
Luminous Intensity Data
Table 5: Luminous Intensity Data
Table 4: Luminous Intensity Data
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Page 11 of 14
Report No.: HZ16020010p
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Color Characteristics Measurements
EQUIPMENT LIST
The color characteristics of SSL products include chromaticity coordinates, correlated color temperature, and
color rendering index. These characteristics of SSL products may be spatially non-uniform, and thus, in order
that they can be specified accurately, the color quantities shall be measured as values that are spatially average,
weighted to intensity, over the angular range where light is intentionally emitted from the SSL product. The
color characteristics measurements are using gonio-spectroradiometer.
Color Spatial Uniformity
Report No.: HZ16020010p
Model
Test Equipment
Goniophotometer system
Equipment
No.
Calibration
Date
Calibration
Due date
GO-R5000
HZTE011-01
Jul. 17, 2015
Jul. 16, 2016
Digital Power Meter
PF2010A
HZTE028-01
Jul. 17, 2015
Jul. 16, 2016
AC Power Supply
PCR 500L
HZTE001-08
Jul. 17, 2015
Jul. 16, 2016
DC Power Supply
WY12010
HZTE004-03
Jul. 17, 2015
Jul. 16, 2016
Temperature Meter
TES1310
HZTE017-01
Jul. 17, 2015
Jul. 16, 2016
D908
HZTE012-01
Jul. 23, 2015
Jul. 22, 2016
SCL-1400
HZTE012-02
Oct. 21, 2015
Oct. 20, 2016
Standard source
Standard source
Table 6: Test Equipment List
The characteristics of SSL products may be spatially non-uniform, the chromaticity coordinate shall be
measured at two vertical planes (C=0°/180° and C=90°/270°) and at 10° or less intervals for vertical angle until
the light output dropped to below 10% of the peak intensity. The averaged weighted chromaticity coordinate
was calculated from these points. The data was then analyzed to check for delta color differences of the u', v'
chromaticity coordinates. The spatial non-uniformity of chromaticity, ¨u'v', is determined as the maximum
deviation (distance on the CIE (u', v') diagram) among all measured points from the spatially averaged
chromaticity coordinate.
The geometry for the chromaticity measurement using gonio-spectroradiometer is shown as following.
TEST METHODS
Seasoning of SSL Product
For the purpose of rating new SSL products, SSL products shall be tested with no seasoning.
Therefore, no seasoning was performed.
Goniophotometer Method
Photometric and Electrical Measurements
*** End of Report ***
This report is considered invalidated without the Special Seal for Inspection of the LTL. This report shall not be altered, increased
or deleted. The results shown in this test report refer only to the sample(s) tested. Without written approval of LTL, this test report
An EVERFINE Type C Model GO-R5000 Goniophotometer was used to measure the intensity at each angle of
distribution for each sample. The photometric distance is 2.475m for near-field measurement or 30m for
far-field measurement. Bandwidth of spectroradiometer is 380nm-780nm.
Ambient temperature was measured at the same height of the sample mounted on the Goniophotometer
equipment. Each SSL unit was operated on the client provided driver at the rated input voltage in its designated
orientation.
The stabilization time typically ranges from 30 min (small integrated LED lamps) to 2 or more hours for large
SSL luminaires). It can be judged that stability is reached when the variation (maximum – minimum) of at least
3 readings of the light output and electrical power over a period of 30 min, taken 15 minutes apart, is less than
0.5 %.
Electrical measurements including voltage, current, and power were measured using the Everfine Digital Power
Meter.
Some graphics were created with Photometric Plus software.
The standard reference of the Goniophotometer system is halogen incandescent lamp, the intensity distribution
type is omni-directional, and is traceable to the National Institute of Metrology P.R. China.
The uncertainty of goniophotometer system reported in this document is expended uncertainty is 1.94% with a
coverage factor k=2.
shall not be copied except in full and published as advertisement.
Prepared by: Leading Testing Laboratories
No.1805, DongLiu road, BinJiang District, Hangzhou, China
Tel: +86-571-56680806
www.ledtestlab.com
Page 14 of 14
Prepared by: Leading Testing Laboratories
No.1805, DongLiu road, BinJiang District, Hangzhou, China
Tel: +86-571-56680806
www.ledtestlab.com
Page 13 of 14
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
www.tuv.com
Page 3 of 20
Report No.: 50047654 001
Summary of testing:
Tests performed (name of test and test clause):
Testing location:
5.2.1 Irradiance measurements
TÜV Rheinland/CCIC (Ningbo) Co., Ltd.
3F Building C13, R&D Park, No.32 , Lane 299
Guanghua Road, National Hi-Tech Zone, Ningbo,
315048, P.R. China
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
5.2.2 Radiance measurements
Summary of compliance with National Differences:
EU Group Difference
Copy of marking plate:
No warning needed on label and in manual.
Photo of product:
Overview
LED chips
TRF No. IEC62471A
www.tuv.com
Page 4 of 20
Report No.: 50047654 001
Test item particulars ..................................................:
continuous wave lamps
Tested lamp ................................................................ :
pulsed lamps
Tested lamp system .....................................................:
exempt
Lamp classification group .............................................:
risk 1
risk 2
risk 3
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Lamp cap .................................................................... : --
Bulb ............................................................................. : LED
Rated of the lamp .........................................................: AC100-240V, 50/60Hz
Furthermore marking on the lamp................................: -Seasoning of lamps according IEC standard ..............: --
Used measurement instrument ....................................: SPR-5000B Spectroradiometer, MPR-16 Retinal radiance meter
Temperature by measurement .....................................: 22,7 °C
Information for safety use .............................................:
Possible test case verdicts:
–
test case does not apply to the test object ............ : N/A
–
test object does meet the requirement .................. : P (Pass)
–
test object does not meet the requirement ............ : F (Fail)
Testing:
Date of receipt of test item............................................ : 24.11.2015
Date (s) of performance of tests................................... : 25.03.2016
General remarks:
The test results presented in this report relate only to the object tested.
This report shall not be reproduced, except in full, without the written approval of the Issuing testing laboratory.
"(See Enclosure #)" refers to additional information appended to the report.
"(See appended table)" refers to a table appended to the report.
Throughout this report a comma (point) is used as the decimal separator.
List of test equipment must be kept on file and available for review.
Name and address of factory (ies) .......................... : Shanghai Shinetoo Lighting Co., Ltd.
No. 1505 Xinfei Road, Xinqiao Town, Songjiang
Industrial zone, Shanghia 201612, P.R. China
TRF No. IEC62471A
www.tuv.com
Page 5 of 20
Report No.: 50047654 001
General product information:
1. The LED high mast light, AC100-240V, 50/60Hz, 2700K, 3000K, 3500K, 4000K, 4500K, 5000K, 6000K,
6500K, these models have same LED chips, details see the below table. ST-LHM600N 6500K was chosen to do the test for the MAX branch current and the result can cover the all the types.
2. LED chip: The two LED chips have same spectral distribution
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
For 2700K, 3000K, 3500K, 4000K, 4500K, type NF2L757GRT, If=200mA, Vf=5,7-7,1V, made by NICHIA
CORPORATION;
For 5000K, 6000K, 6500K, type NF2W757GRT, If=200mA, Vf=5,7-7,1V, made by NICHIA
CORPORATION;
Model list:
Model
Rated Voltage
(V, Hz)
Rated Wattage
(W)
Output current of
LED driver(A)
LED array
ST-LHM300N
AC100-240V,
50/60Hz
300W
5,2
600pcs(2x300)
ST-LHM400N
AC100-240V,
50/60Hz
400W
6,7
800pcs(2x400)
ST-LHM500N
AC100-240V,
50/60Hz
500W
8,9
1000pcs(2x500)
ST-LHM600N
AC100-240V,
50/60Hz
600W
8,9
1200pcs(2x600)
Spectral Distribution
TRF No. IEC62471A
www.tuv.com
Page 6 of 20
Report No.: 50047654 001
IEC 62471
Clause
Requirement + Test
Result – Remark
Verdict
4
EXPOSURE LIMITS
4.1
General
P
The exposure limits in this standard is not less than
0,01 ms and not more than any 8-hour period and
should be used as guides in the control of exposure
P
Detailed spectral data of a light source are generally
required only if the luminance of the source exceeds see clause 4.3
4
. -2
10 cd m
P
4.3
Hazard exposure limits
P
4.3.1
Actinic UV hazard exposure limit for the skin and
eye
P
The exposure limit for effective radiant exposure is
. -2
30 J m within any 8-hour period
P
To protect against injury of the eye or skin from ultraviolet radiation exposure produced by a broadband source, the effective integrated spectral irradiance , ES, of the light source shall not exceed the
levels defined by:
P
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
--
The permissible time for exposure to ultraviolet radiation incident upon the unprotected eye or skin
shall be computed by:
P
--
4.3.2
Near-UV hazard exposure limit for eye
P
For the spectral region 315 nm to 400 nm (UV-A)
the total radiant exposure to the eye shall not ex. -2
ceed 10000 J m for exposure times less than 1000
s. For exposure times greater than 1000 s (approximately 16 minutes) the UV-A irradiance for the un. -2
protected eye, EUVA, shall not exceed 10 W m .
P
The permissible time for exposure to ultraviolet radiation incident upon the unprotected eye for time
less than 1000 s, shall be computed by:
P
--
4.3.3
Retinal blue light hazard exposure limit
TRF No. IEC62471A
P
www.tuv.com
Page 7 of 20
Report No.: 50047654 001
IEC 62471
Clause
Requirement + Test
Result – Remark
To protect against retinal photochemical injury from
chronic blue-light exposure, the integrated spectral
radiance of the light source weighted against the
blue-light hazard function, B(λ), i.e., the blue-light
weighted radiance , LB, shall not exceed the levels
defined by:
Verdict
P
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
4
--
for t ≤ 10 s
4
for t > 10 s
4.3.4
Retinal blue light hazard exposure limit - small source
N/A
Thus the spectral irradiance at the eye Eλ, weighted
against the blue-light hazard function B(λ) shall not see table 4.2
exceed the levels defined by:
N/A
for t ≤ 100 s
for t > 100 s
4.3.5
--
--
Retinal thermal hazard exposure limit
P
To protect against retinal thermal injury, the integrated spectral radiance of the light source, Lλ,
weighted by the burn hazard weighting function R(λ)
(from Figure 4.2 and Table 4.2), i.e., the burn hazard weighted radiance, shall not exceed the levels
defined by:
P
(10 µs ≤ t ≤ 10 s)
4.3.6
--
--
Retinal thermal hazard exposure limit – weak visual stimulus
P
For an infrared heat lamp or any near-infrared
source where a weak visual stimulus is inadequate
to activate the aversion response, the near infrared
(780 nm to 1400 nm) radiance, LIR, as viewed by the
eye for exposure times greater than 10 s shall be
limited to:
P
--
t > 10 s
4.3.7
Infrared radiation hazard exposure limits for the eye
TRF No. IEC62471A
P
www.tuv.com
Page 8 of 20
Report No.: 50047654 001
IEC 62471
Clause
Requirement + Test
Result – Remark
The avoid thermal injury of the cornea and possible
delayed effects upon the lens of the eye (cataractogenesis), ocular exposure to infrared radiation, EIR,
over the wavelength range 780 nm to 3000 nm, for
times less than 1000 s, shall not exceed:
Verdict
P
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
--
t ≤ 1000 s
For times greater than 1000 s the limit becomes:
P
--
t > 1000 s
4.3.8
Thermal hazard exposure limit for the skin
P
Visible and infrared radiant exposure (380 nm to
3000 nm) of the skin shall be limited to:
P
--
5
MEASUREMENT OF LAMPS AND LAMP SYSTEMS
5.1
Measurement conditions
P
Measurement conditions shall be reported as part of
the evaluation against the exposure limits and the
assignment of risk classification.
P
5.1.1
5.1.2
5.1.3
5.1.4
Lamp ageing (seasoning)
N/A
Seasoning of lamps shall be done as stated in the
appropriate IEC lamp standard.
N/A
Test environment
P
For specific test conditions, see the appropriate IEC
lamp standard or in absence of such standards, the
appropriate national standards or manufacturer’s
recommendations.
P
Extraneous radiation
P
Careful checks should be made to ensure that extraneous sources of radiation and reflections do not
add significantly to the measurement results.
P
Lamp operation
P
Operation of the test lamp shall be provided in accordance with:
P
–
the appropriate IEC lamp standard, or
N/A
–
the manufacturer’ s recommendation
P
TRF No. IEC62471A
www.tuv.com
Page 9 of 20
Report No.: 50047654 001
IEC 62471
Clause
Requirement + Test
Result – Remark
Verdict
5.1.5
Lamp system operation
P
The power source for operation of the test lamp
shall be provided in accordance with:
P
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
–
the appropriate IEC standard, or
–
the manufacturer’ s recommendation
N/A
P
5.2
Measurement procedure
P
5.2.1
Irradiance measurements
P
Minimum aperture diameter 7mm.

Maximum aperture diameter 50 mm.

The measurement shall be made in that position of
the beam giving the maximum reading.
P
The measurement instrument is adequate calibrated.
P
5.2.2
Radiance measurements
P
5.2.2.1
Standard method
P
The measurements made with an optical system.
P
The instrument shall be calibrated to read in absolute radiant power per unit receiving area and per
unit solid angle to acceptance averaged over the
field of view of the instrument.
P
5.2.2.2
5.2.3
5.2.4
Alternative method
N/A
Alternatively to an imaging radiance set-up, an irradiance measurement set-up with a circular field stop
placed at the source can be used to perform radiance measurements.
N/A
Measurement of source size
P
The determination of α, the angle subtended by a
source, requires the determination of the 50% emission points of the source.
P
Pulse width measurement for pulsed sources
N/A
The determination of ∆t, the nominal pulse duration
of a source, requires the determination of the time
during which the emission is > 50% of its peak value.
N/A
5.3
Analysis methods
P
5.3.1
Weighting curve interpolations
P
To standardize interpolated values, use linear interpolation on the log of given values to obtain intermediate points at the wavelength intervals desired.
TRF No. IEC62471A
see table 4.1
P
www.tuv.com
Page 10 of 20
Report No.: 50047654 001
IEC 62471
Clause
Requirement + Test
Result – Remark
Verdict
5.3.2
Calculations
P
The calculation of source hazard values shall be
performed by weighting the spectral scan by the appropriate function and calculating the total weighted
energy.
P
Measurement uncertainty
P
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
5.3.3
The quality of all measurement results must be
quantified by an analysis of the uncertainty.
6
see Annex C in the norm
P
see table 6.1
P
LAMP CLASSIFICATION
For the purposes of this standard it was decided
that the values shall be reported as follows:
–
for lamps intended for general lighting service, 6000mm
the hazard values shall be reported as either irradiance or radiance values at a distance which
produces an illuminance of 500 lux, but not at a
distance less than 200 mm
–
for all other light sources, including pulsed lamp
sources, the hazard values shall be reported at
a distance of 200 mm
P
N/A
6.1
Continuous wave lamps
P
6.1.1
Except Group
P
In the except group are lamps, which does not pose
any photobiological hazard. The requirement is met
by any lamp that does not pose:
P
–
an actinic ultraviolet hazard (ES) within 8-hours
exposure (30000 s), nor
P
–
a near-UV hazard (EUVA) within 1000 s, (about
16 min), nor
P
–
a retinal blue-light hazard (LB) within 10000 s
(about 2,8 h), nor
P
–
a retinal thermal hazard (LR) within 10 s, nor
P
–
an infrared radiation hazard for the eye (EIR)
within 1000 s
P
6.1.2
Risk Group 1 (Low-Risk)
N/A
In this group are lamps, which exceeds the limits for
the except group but that does not pose:
N/A
–
an actinic ultraviolet hazard (ES) within 10000 s,
nor
N/A
–
a near ultraviolet hazard (EUVA) within 300 s, nor
N/A
–
a retinal blue-light hazard (LB) within 100 s, nor
N/A
TRF No. IEC62471A
www.tuv.com
Page 11 of 20
Report No.: 50047654 001
IEC 62471
Clause
Requirement + Test
Result – Remark
Verdict
–
a retinal thermal hazard (LR) within 10 s, nor
N/A
–
an infrared radiation hazard for the eye (EIR)
within 100 s
N/A
Lamps that emit infrared radiation without a strong
visual stimulus and do not pose a near-infrared retinal hazard (LIR), within 100 s are in Risk Group 1.
N/A
Risk Group 2 (Moderate-Risk)
N/A
This requirement is met by any lamp that exceeds
the limits for Risk Group 1, but that does not pose:
N/A
–
an actinic ultraviolet hazard (ES) within 1000 s
exposure, nor
N/A
–
a near ultraviolet hazard (EUVA) within 100 s, nor
N/A
–
a retinal blue-light hazard (LB) within 0,25 s
(aversion response), nor
N/A
–
a retinal thermal hazard (LR) within 0,25 s (aversion response), nor
N/A
–
an infrared radiation hazard for the eye (EIR)
within 10 s
N/A
Lamps that emit infrared radiation without a strong
visual stimulus and do not pose a near-infrared retinal hazard (LIR), within 10 s are in Risk Group 2.
N/A
Risk Group 3 (High-Risk)
N/A
Lamps which exceed the limits for Risk Group 2 are
in Group 3.
N/A
Pulsed lamps
N/A
Pulse lamp criteria shall apply to a single pulse and
to any group of pulses within 0,25 s.
N/A
A pulsed lamp shall be evaluated at the highest
nominal energy loading as specified by the manufacturer.
N/A
The risk group determination of the lamp being tested shall be made as follows:
N/A
–
a lamp that exceeds the exposure limit shall be
classified as belonging to Risk Group 3 (HighRisk)
N/A
–
for single pulsed lamps, a lamp whose weighted
radiant exposure or weighted radiance does is
below the EL shall be classified as belonging to
the Exempt Group
N/A
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
6.1.3
6.1.4
6.2
TRF No. IEC62471A
www.tuv.com
Page 12 of 20
Report No.: 50047654 001
IEC 62471
Clause
Requirement + Test
–
for repetitively pulsed lamps, a lamp whose
weighted radiant exposure or weighted radiance
dose is below the EL, shall be evaluated using
the continuous wave risk criteria discussed in
clause 6.1, using time averaged values of the
pulsed emission
Result – Remark
Verdict
N/A
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TRF No. IEC62471A
www.tuv.com
Page 13 of 20
Report No.: 50047654 001
IEC 62471
Clause
Requirement + Test
Result – Remark
Verdict
Table 4.1
Spectral weighting function for assessing ultraviolet hazards for skin and eye
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Wavelength
λ, nm
UV hazard function
S (λ)
Wavelength
λ, nm
UV hazard function
S (λ)
200
0,030
313*
0,006
205
0,051
315
0,003
210
0,075
316
0,0024
215
0,095
317
0,0020
220
0,120
318
0,0016
225
0,150
319
0,0012
230
0,190
320
0,0010
235
0,240
322
0,00067
240
0,300
323
0,00054
245
0,360
325
0,00050
250
0,430
328
0,00044
254*
0,500
330
0,00041
255
0,520
333*
0,00037
260
0,650
335
0,00034
265
0,810
340
0,00028
270
1,000
345
0,00024
275
0,960
350
0,00020
280*
0,880
355
0,00016
285
0,770
360
0,00013
290
0,640
365*
0,00011
295
0,540
370
0,000093
297*
0,460
375
0,000077
300
0,300
380
0,000064
303*
0,120
385
0,000053
305
0,060
390
0,000044
308
0,026
395
0,000036
310
0,015
400
0,000030
1
UV
UV
Wavelengths chosen are representative: other values should be obtained by logarithmic interpolation at
intermediate wavelengths.
* Emission lines of a mercury discharge spectrum.
1
TRF No. IEC62471A
www.tuv.com
Page 14 of 20
Report No.: 50047654 001
IEC 62471
Clause
Requirement + Test
Result – Remark
Verdict
Table 4.2
Spectral weighting functions for assessing retinal hazards from broadband optical
sources
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Wavelength
nm
300
305
310
315
320
325
330
335
340
345
350
355
360
365
370
375
380
385
390
395
400
405
410
415
420
425
430
435
440
445
450
455
460
465
470
475
480
485
490
495
500-600
600-700
700-1050
1050-1150
TRF No. IEC62471A
Blue-light hazard function
B (λ)
Burn hazard function
R (λ)
0,01
0,01
0,01
0,01
0,01
0,01
0,01
0,01
0,01
0,01
0,01
0,01
0,01
0,01
0,01
0,01
0,01
0,013
0,025
0,05
0,10
0,20
0,40
0,80
0,90
0,95
0,98
1,00
1,00
0,97
0,94
0,90
0,80
0,70
0,62
0,55
0,45
0,40
0,22
0,16
[(450-λ)/50]
10
0,001
0,1
0,13
0,25
0,5
1,0
2,0
4,0
8,0
9,0
9,5
9,8
10,0
10,0
9,7
9,4
9,0
8,0
7,0
6,2
5,5
4,5
4,0
2,2
1,6
1,0
1,0
[(700-λ)/500]
10
0,2
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Page 15 of 20
Report No.: 50047654 001
IEC 62471
Clause
Requirement + Test
Result – Remark
Verdict
Table 4.2
Spectral weighting functions for assessing retinal hazards from broadband optical
sources
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1150-1200
1200-1400
TRF No. IEC62471A
.
0,02(1150-λ)
0,2 10
0,02
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Page 16 of 20
Report No.: 50047654 001
IEC 62471
Clause
Requirement + Test
Result – Remark
Verdict
Table 5.4
Summary of the ELs for the surface of the skin or cornea (irradiance based values)
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Hazard
Name
Relevant equation
Wavelength
range
nm
Exposure
duration
sec
Limiting
aperture
rad (deg)
EL in terms of constant irradiance
-2
W•m
< 30000
1,4 (80)
30/t
Actinic UV
skin & eye
ES = ∑Eλ • S(λ) • ∆λ
200 – 400
Eye UV-A
EUVA = ∑Eλ • ∆λ
315 – 400
Blue-light
small source
EB = ∑Eλ • B(λ) • ∆λ
Eye IR
EIR = ∑Eλ • ∆λ
780 –3000
Skin thermal
EH = ∑Eλ • ∆λ
380 – 3000
Table 5.5
1,4 (80)
>1000
≤100
< 0,011
>100
≤1000
1,4 (80)
>1000
< 10
2π sr
10000/t
10
100/t
1,0
18000/t
0,75
100
20000/t
0,75
Summary of the ELs for the retina (radiance based values)
Hazard Name
Blue light
300 – 700
≤1000
Relevant equation
LB = ∑Lλ • B(λ) • ∆λ
Wavelength
range
nm
300 – 700
Retinal
thermal
LR = ∑Lλ • R(λ) • ∆λ
380 – 1400
Retinal
thermal
(weak visual
stimulus)
LIR = ∑Lλ • R(λ) • ∆λ
780 – 1400
TRF No. IEC62471A
Exposure
duration
sec
Field of view
radians
EL in terms of
constant radiance
-2
-1
W•m •sr )
0,25 – 10
0,011•√(t/10)
10 /t
10-100
0,011
10 /t
100-10000
0,0011•√t
10 /t
≥ 10000
0,1
100
< 0,25
0,0017
50000/(α•t
0,25
0,25 – 10
0,011•√(t/10)
50000/(α•t
0,25
> 10
0,011
6
6
6
6000/α
)
)
www.tuv.com
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Page 17 of 20
Report No.: 50047654 001
IEC 62471
Clause
Table 6.1
Requirement + Test
Result – Remark
Verdict
Emission limits for risk groups of continuous wave lamps
--
Emission Measurement
Risk
Actinic UV
Action
spectrum
Symbol
Result
Limit
Result
Limit
Result
-2
0,001
0,0000
0,003
--
0,03
--
EUVA
W•m
-2
10
0,00
33
--
100
--
100
66,11
10000
--
4000000
--
1,0*
-
1,0
--
400
--
-2
B(λ)
LB
W•m •sr
Blue light,
small source
B(λ)
EB
W•m
Retinal
thermal
R(λ)
LR
W•m •sr
R(λ)
LIR
W•m •sr
EIR
W•m
IR radiation,
eye
Limit
W•m
Blue light
Retinal
thermal,
weak visual
stimulus**
Mod risk
Low risk
Exempt
Es
SUV(λ)
Near UV
Units
-1
-2
-2
-1
28000/α
α=0,05023
3
6,039x10 <
5
5,575x10
28000/α
--
71000/α
--
-2
-1
6000/α
α=0,05023
0,2331<
5
1,195x10
6000/α
--
6000/α
--
100
0,0
570
--
3200
--
-2
* Small source defined as one with α < 0,011 radian. Averaging field of view at 10000 s is 0,1 radian.
** Involves evaluation of non-GLS source
-2
IR radiation skin, Eh=0,000W•m < 3556,56 W•m
TRF No. IEC62471A
-2
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Page 18 of 20
Report No.: 50047654 001
Furthermore remarks:
N/A
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TRF No. IEC62471A
Report No.: 50047654 001
Page 19 of 20
IEC62471A - ATTACHMENT
Clause
Requirement + Test
Result - Remark
Verdict
ATTACHMENT TO TEST REPORT IEC 62471
EUROPEAN GROUP DIFFERENCES AND NATIONAL DIFFERENCES
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Photobiological safety of lamps and lamps systems
Differences according to................ :
EN 62471:2008
Attachment Form No. ..................... :
EU_GD_IEC62471A
Attachment Originator ................... :
IMQ S.p.A.
Master Attachment ......................... :
2009-07
Copyright © 2009 IEC System for Conformity Testing and Certification of Electrical Equipment
(IECEE), Geneva, Switzerland. All rights reserved.
CENELEC COMMON MODIFICATIONS (EN)
4
EXPOSURE LIMITS
P
Contents of the whole Clause 4 of IEC 62471:2006
moved into a new informative Annex ZB

Clause 4 replaced by the following:
P
Limits of the Artificial Optical Radiation Directive
(2006/25/EC) have been applied instead of those
fixed in IEC 62471:2006
4.1
See appended Table 6.1
P
General
P
First paragraph deleted

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Report No.: 50047654 001
Page 20 of 20
EN 62471
Clause
Requirement + Test
Result – Remark
Verdict
Table 6.1
Emission limits for risk groups of continuous wave lamps (based on EU Directive 2006/25/EC)

Emission Measurement
Risk
Actinic UV
Near UV
Blue light
Blue light,
small source
Retinal
thermal
Retinal
thermal, weak
visual
stimulus**
IR radiation,
eye
Action
spectrum
SUV(λ)
Symbol
Limit
Result
Limit
Result
Limit
Result
-2
0,001
0,0000
-
-
-
-
-2
0,33
0,00
-
-
-
-
100
65,92
10000
-
4000000
-
0,01*
-
1,0
-
400
-
28000/α
α=0,05023
3
6,025x10 <
5
5,575x10
28000/α
-
71000/α
-
Es
W•m
EUVA
W•m
B(λ)
LB
W•m •sr
B(λ)
EB
W•m
R(λ)
LR
W•m •sr
R(λ)
LIR
EIR
Mod risk
Low risk
Exempt
Units
-2
-1
-2
-2
-1
-2
-1
W•m •sr
-2
W•m
545000
0,0017≤ α ≤ 0,011
-
6000/α
0,011≤ α ≤ 0,1
α=0,05023 0,2331< 1,195x10
100
0,00
570
*
Small source defined as one with α < 0,011 radian. Averaging field of view at 10000 s is 0,1 radian.
**
Involves evaluation of non-GLS source
NOTE
The action functions: see Table 4.1 and Table 4.2
The applicable aperture diameters: see 4.2.1
The limitations for the angular subtenses: see 4.2.2
The related measurement condition 5.2.3 and the range of acceptance angles: see Table 5.5.
-2
-2
IR radiation skin, Eh=0,00 W•m < 3556,56 W•m
--The end of report--
0,0
5
3200
-
Produkte
Products
Prüfbericht-Nr.:
Test Report No.:
15098175 001
Auftrags-Nr.:
Order No.:
154136189
Kunden-Referenz-Nr.:
Client Reference No.:
634306
Auftragsdatum:
Order date.:
24.11.2015
Auftraggeber:
Client:
Seite 1 von 53
Page 1 of 53
Shanghai Shinetoo Lighting Co., Ltd.
No.1505 Xinfei Road, Xinqiao Town, Songjiang Industrial zone, Shanghai 201612, P.R.
China
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Prüfgegenstand:
Test item:
LED High Mast Light
Bezeichnung / Typ-Nr.:
Identification / Type No.:
Refer to page 2
Auftrags-Inhalt:
Order content:
EMC test
Prüfgrundlage:
Test specification:
EN 55015:2013+A1
EN 61000-3-2:2014
EN 61000-3-3:2013
EN 61547:2009
Wareneingangsdatum:
Date of receipt:
31.05.2016
Prüfmuster-Nr.:
Test sample No.:
A000329838-004/005/006
Prüfzeitraum:
Testing period:
Refer to test report
Ort der Prüfung:
Place of testing:
EMC laboratory
Prüflaboratorium:
Testing laboratory:
TÜV Rheinland (Shanghai)
Co., Ltd.
Prüfergebnis*:
Test result*:
Pass
geprüft von / tested by:
kontrolliert von / reviewed by:
16.06.2016
16.06.2016
Datum
Date
Xuelan Zhang/Senior project manager
Name/Stellung
Name/Position
Unterschrift
Signature
Hexiong Liu/Section manager
Datum
Date
Name/Stellung
Name/Position
Unterschrift
Signature
Sonstiges / Other:
Refer to page 2 for the further information.
Zustand des Prüfgegenstandes bei Anlieferung:
Condition of the test item at delivery:
* Legende:
Legend:
Prüfmuster vollständig und unbeschädigt
Test item complete and undamaged
1 = sehr gut
2 = gut
P(ass) = entspricht o.g. Prüfgrundlage(n)
3 = befriedigend
F(ail) = entspricht nicht o.g. Prüfgrundlage(n)
4 = ausreichend
N/A = nicht anwendbar
5 = mangelhalt
N/T = nicht getestet
1 = very good
2 = good
P(ass) = passed a.m. test specifications(s)
3 = satisfactory
F(ail) = failed a.m. test specifications(s)
4 = sufficient
N/A = not applicable
5 = poor
N/T = not tested
Dieser Prüfbericht bezieht sich nur auf das o.g. Prüfmuster und darf ohne Genehmigung der Prüfstelle nicht
auszugsweise vervielfältigt werden. Dieser Bericht berechtigt nicht zur Verwendung eines Prüfzeichens.
This test report only relates to the a. m. test sample. Without permission of the test center this test report is not permitted to be
duplicated in extracts. This test report does not entitle to carry any test mark.
TÜV Rheinland (Shanghai) Co., Ltd. TÜV Rheinland Building, No. 177, Lane 777, West Guangzhong Road, Zhabei District, Shanghai
200072, P.R. China
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Test Report No.:
Rated wattage
(W)
LED driver
300W
2xHLG-185-36A
ST-HML400N
AC100-240V,50/60Hz
AC100-240V,50/60Hz
400W
ST-HML500N
AC100-240V,50/60Hz
500W
2xHLG-240-36A
2xHLG-320H-36A
ST-HML600N
AC100-240V,50/60Hz
600W
2xHLG-320H-36A
Rated voltage(V, Hz)
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Type List
ST-HML300N
Identities and differences,
The above models have three kinds of LED drive circuits. The details refer the above table. And the
differences of the models with the same LED drive circuit are type designation, electrical component
parameter and mechanical aspects.
With the consideration of the identities and differences list above, all the EMC tests were arranged as follows.
No.
Model
1
2
3
ST-HML300N
ST-HML400N
ST-HML600N
Harmonic
√
√
√
Voltage
fluctuation
√
√
√
Conducted
emission
Radiated
electromagnetic
disturbance
(9kHz-30MHz)
√
√
√
√
√
√
Remark: ‘√’ means tests were performed. ‘N/T’ means tests were not performed.
Radiated
electromagnetic
disturbance
(30MHz300MHz)
√
√
√
EMS
tests
√
√
√
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Test Summary
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4.1.1 HARMONICS ON AC MAINS
Result:
Passed
4.1.2 VOLTAGE FLUCTUATIONS ON AC MAINS
Result:
Passed
4.1.3 MAINS TERMINAL CONTINUOUS DISTURBANCE VOLTAGE
Result:
Passed
4.1.4 RADIATED ELECTROMAGNETIC DISTURBANCE (9KHZ-30MHZ)
Result:
Passed
4.2.1 RADIATED ELECTROMAGNETIC DISTURBANCE (30-300MHZ)
Result:
Passed
5.1.1 ELECTROSTATIC DISCHARGE
Result:
Passed
5.1.2 RADIO FREQUENCY ELECTROMAGNETIC FIELD
Result:
Passed
5.1.3 POWER FREQUENCY MAGNETIC FIELDS
Result:
Passed
5.2.1 FAST TRANSIENTS ON AC POWER LINES
Result:
Passed
5.2.2 INJECTED CURRENT INTO AC POWER PORT
Result:
Passed
5.2.3 SURGES TO AC POWER PORT
Result:
Passed
5.2.4 VOLTAGE DIPS AND INTERRUPTIONS TO AC POWER PORT
Result:
Passed
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Contents
1
TEST SITES ...................................................................................................................................................... 5
1.1
1.2
2
GENERAL PRODUCT INFORMATION ...................................................................................................... 6
2.1
2.2
2.3
2.4
2.5
3
PRODUCT FUNCTION AND INTENDED USE .................................................................................................... 6
RATINGS AND SYSTEM DETAILS................................................................................................................... 6
INDEPENDENT OPERATION MODES............................................................................................................... 6
NOISE GENERATING AND NOISE SUPPRESSING PARTS .................................................................................. 6
SUBMITTED DOCUMENTS ............................................................................................................................. 6
TEST SET-UP AND OPERATION MODES ................................................................................................. 7
3.1
3.2
3.3
3.4
3.5
4
TEST FACILITIES ........................................................................................................................................... 5
LIST OF TEST AND MEASUREMENT INSTRUMENTS ....................................................................................... 5
PRINCIPLE OF CONFIGURATION SELECTION .................................................................................................. 7
PHYSICAL CONFIGURATION FOR TESTING .................................................................................................... 7
TEST OPERATION AND TEST SOFTWARE....................................................................................................... 7
SPECIAL ACCESSORIES AND AUXILIARY EQUIPMENT ................................................................................... 7
COUNTERMEASURES TO ACHIEVE EMC COMPLIANCE ................................................................................. 7
TEST RESULTS E M I S S I O N ................................................................................................................. 8
4.1
EMISSION IN THE FREQUENCY RANGE UP TO 30 MHZ .................................................................................. 8
4.1.1
Harmonics on AC Mains..................................................................................................................... 8
4.1.2
Voltage Fluctuations on AC Mains ................................................................................................... 18
4.1.3
Mains Terminal Continuous Disturbance Voltage ........................................................................... 19
4.1.4
Radiated Electromagnetic Disturbance (9kHz-30MHz) ................................................................... 26
4.2
EMISSION IN THE FREQUENCY RANGE ABOVE 30 MHZ .............................................................................. 36
4.2.1
Radiated Electromagnetic Disturbance (30-300MHz) ..................................................................... 36
5
TEST RESULTS I M M U N I T Y ................................................................................................................ 40
5.1
ENCLOSURE ................................................................................................................................................ 41
5.1.1
Electrostatic Discharge .................................................................................................................... 41
5.1.2
Radio Frequency Electromagnetic Field .......................................................................................... 42
5.1.3
Power Frequency Magnetic Fields ................................................................................................... 43
5.2
INPUT AND OUTPUT AC POWER PORTS ...................................................................................................... 44
5.2.1
Fast Transients on AC Power Lines ................................................................................................. 44
5.2.2
Injected Current into AC Power Port ............................................................................................... 45
5.2.3
Surges to AC Power Port .................................................................................................................. 46
5.2.4
Voltage dips and interruptions to AC Power Port ............................................................................ 47
6
PHOTOGRAPHS OF THE TEST SET-UP .................................................................................................. 48
7
LIST OF TABLES ........................................................................................................................................... 53
8
LIST OF FIGURES ......................................................................................................................................... 53
9
LIST OF PHOTOGRAPHS ........................................................................................................................... 53
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Test Report No.:
1 Test Sites
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1.1 Test Facilities
Laboratory: TÜV Rheinland (Shanghai) Co., Ltd.
Address: B1-13/F No. 177, Lane 777, Guangzhong West Road, Zhabei District, Shanghai
200072, P.R. China
The used test equipment is in accordance with CISPR 16-1 series standards for measurement
of radio interference.
1.2 List of Test and Measurement Instruments
Table 1: List of Test and Measurement Equipment
No.
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
15.
16.
17.
18.
19.
20.
Equipment
Harmonic emission/voltage
fluctuation and flicker test system
Artificial mains network
EMI test receiver
Coupling/decoupling network
EMI test receiver
Triple loop antenna
ESD generator
Barometer
Fully anechoic chamber
Broadband field meter NBM-520
E-field probe EF1891
Signal generator
Power amplifier
EMS antenna
Power meter
Power meter
EMC test system
Coupling/decoupling network
RF generator
Three-phase voltage
dips/interruption simulator
Model
Profline 2105400-413-LNS
ESCI
ENV216
CDNE M310
ESCI
HXYZ 9170
NSG 437
DYM3
FAC3plus
2403/01
2402/02
SML 02
250W1000A
HL 046
PMS_1081
PMS_1081
NSG 3040
CDN M016
NSG 2070
VDS-1132D
Serial no.
Cal. due date
55907, 72292
03.03.2017
100178
100122
36888
100178
HXYZ 9170-128
392
08102717
FJ139001
C-0120
A-0387
101162
0320145
100039
1081A3123
1081A3122
1705
20810
1083
25.02.2017
23.02.2017
02.11.2017
25.02.2017
19.05.2017
06.08.2016
06.04.2018
24.07.2016
05.07.2017
05.07.2017
19.05.2017
23.02.2017
N/A
23.02.2017
23.02.2017
01.12.2016
02.11.2017
19.05.2017
VDS113201001
24.10.2016
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2 General Product Information
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C
2.1 Product Function and Intended Use
The EUT are ordinary LED high mast lights for lighting and similar use. For the further
information, refer to the user’s manual.
2.2 Ratings and System Details
Rated voltage and
frequency
Rated wattage
Protection class
: Refer to page 2
: Refer to page 2
: I
2.3 Independent Operation Modes
The basic operation modes are: “On” or “Off”.
2.4 Noise Generating and Noise Suppressing Parts
Refer to the circuit diagram for further information.
2.5 Submitted Documents
User manual and label.
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Page 7 of 53
3 Test Set-up and Operation Modes
A
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0
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N P 20
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A
C R LA
A PA M
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C LID -G
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V OT
C
3.1 Principle of Configuration Selection
Emission: The equipment under test (EUT) was configured to measure its highest possible
emission level. The test conditions were adapted accordingly in reference to the instructions
for use.
Refer to the related paragraph of this report.
Immunity: The equipment under test (EUT) was configured to measure its highest possible
emission level. The test conditions were adapted accordingly in reference to the instructions
for use.
Refer to the related paragraph of this report.
3.2 Physical Configuration for Testing
Refer to the related paragraph of this report.
3.3 Test Operation and Test Software
Refer to the related paragraph of this report. No software was used.
3.4 Special Accessories and Auxiliary Equipment
None.
3.5 Countermeasures to achieve EMC Compliance
Refer to the circuit diagrams for further information.
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Page 8 of 53
4 Test Results E M I S S I O N
A
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L E 01
O
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0
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N P 20
O
A
C R LA
A PA M
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P A
D
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C LID -G
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Á
V OT
C
4.1 Emission in the Frequency Range up to 30 MHz
4.1.1 Harmonics on AC Mains
Result:
Passed
Date of testing
Test procedure
Test duration
Harmonic order
Ambient Condition
:
:
:
:
:
07.06.2016
EN 61000-3-2:2014
2.5min
2 – 40th
Temperature: 24.8oC; Relative Humidity: 38.7%
Following are the measurement results, which were obtained via an automatic measurement
system.
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Page 9 of 53
Test Report No.:
Harmonics – Class-C per Ed. 3.2 (2009)(Run time) incl. inter-harmonics
EUT: LED High Mast Light
Tested by: Test Operator
Test category: Class-C per Ed. 3.2 (2009) (European limits) Test Margin: 100
Test date: 6/7/2016
Start time: 4:56:35 PM
End time: 4:59:26 PM
Test duration (min): 2.5
Data file name: H-000407.cts_data
Comment: AC 230V 50Hz; 300W; ST-HML300N
Customer: Shanghai Shinetoo
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Test Result: Pass
Source qualification: Normal
3
300
2
200
1
100
0
0
-1
-100
-2
-200
-3
-300
Harmonics and Class C limit line
Voltage (Volts)
Current (Amps)
Current & voltage waveforms
European Limits
Current RMS(Amps)
0.6
0.5
0.4
0.3
0.2
0.1
0.0
4
Test result: Pass
8
12
16 20 24
Harmonic #
28
32
36
40
Worst harmonics H11-58.09% of 100% limit, H11-39.12% of 150% limit.
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Page 10 of 53
Test Report No.:
Current Test Result Summary (Run time)
EUT: LED High Mast Light
Tested by: Test Operator
Test category: Class-C per Ed. 3.2 (2009) (European limits) Test Margin: 100
Test date: 6/7/2016
Start time: 4:56:35 PM
End time: 4:59:26 PM
Test duration (min): 2.5
Data file name: H-000407.cts_data
Comment: AC 230V 50Hz; 300W; ST-HML300N
Customer: Shanghai Shinetoo
A
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A
L E 01
O
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0
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T
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2
N P 20
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C R LA
A PA M
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P A
D
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A
C LID -G
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Á
V OT
C
Test Result: Pass
Source qualification: Normal
THC(A): 0.16
I-THD(%): 11.82
POHC(A): 0.013
POHC Limit(A): 0.129
Highest parameter values during test:
V_RMS (Volts): 229.44
Frequency(Hz): 50.00
I_Peak (Amps): 2.141
I_RMS (Amps): 1.376
I_Fund (Amps): 1.364
Crest Factor:
1.561
Power (Watts): 301.7
Power Factor: 0.957
Harm# Harms(avg) 100%Limit %of Limit
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
0.003
0.123
0.001
0.074
0.001
0.050
0.001
0.034
0.001
0.024
0.001
0.016
0.001
0.009
0.001
0.007
0.001
0.008
0.001
0.009
0.001
0.009
0.001
0.008
0.001
0.007
0.001
0.005
0.001
0.005
0.001
0.005
0.001
0.005
0.001
0.005
0.001
0.005
0.001
Harms(max) 150%Limit %of Limit
Status
0.027
0.392
10.9
31.5
0.004
0.124
0.041
0.587
0.00
21.29
Pass
Pass
0.136
54.1
0.074
0.205
36.21
Pass
0.095
52.1
0.050
0.143
34.89
Pass
0.068
50.3
0.035
0.102
33.82
Pass
0.041
58.1
0.024
0.061
39.12
Pass
0.041
38.5
0.016
0.061
26.19
Pass
0.041
22.8
0.010
0.061
15.52
Pass
0.041
16.7
0.007
0.061
0.00
Pass
0.041
20.0
0.008
0.061
13.61
Pass
0.041
22.9
0.009
0.061
15.46
Pass
0.041
22.7
0.009
0.061
15.24
Pass
0.041
20.0
0.008
0.061
13.54
Pass
0.041
16.8
0.007
0.061
0.00
Pass
0.041
13.4
0.006
0.061
0.00
Pass
0.041
11.8
0.005
0.061
0.00
Pass
0.041
12.3
0.005
0.061
0.00
Pass
0.041
13.1
0.005
0.061
0.00
Pass
0.041
13.2
0.005
0.061
0.00
Pass
0.041
13.3
0.005
0.061
0.00
Pass
Note: Dynamic limits were applied for this test. The highest harmonics values in the above table may not occur at the same
window as the maximum harmonics/limit ratio.
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Test Report No.:
Voltage Source Verification Data (Run time)
EUT: LED High Mast Light
Tested by: Test Operator
Test category: Class-C per Ed. 3.2 (2009) (European limits) Test Margin: 100
Test date: 6/7/2016
Start time: 4:56:35 PM
End time: 4:59:26 PM
Test duration (min): 2.5
Data file name: H-000407.cts_data
Comment: AC 230V 50Hz; 300W; ST-HML300N
Customer: Shanghai Shinetoo
A
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L E 01
O
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0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
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Á
V OT
C
Test Result: Pass
Source qualification: Normal
Highest parameter values during test:
Voltage (Vrms): 229.44
I_Peak (Amps): 2.141
I_Fund (Amps): 1.364
Power (Watts): 301.7
Harm#
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
Frequency(Hz):
I_RMS (Amps):
Crest Factor:
Power Factor:
50.00
1.376
1.561
0.957
Harmonics V-rms
Limit V-rms
% of Limit
Status
0.152
0.509
0.062
0.037
0.040
0.036
0.020
0.029
0.022
0.025
0.017
0.024
0.013
0.010
0.014
0.012
0.015
0.009
0.017
0.007
0.008
0.008
0.004
0.004
0.013
0.004
0.011
0.006
0.008
0.005
0.008
0.008
0.004
0.006
0.004
0.006
0.003
0.009
0.007
0.459
2.065
0.459
0.918
0.459
0.688
0.459
0.459
0.459
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
33.08
24.67
13.59
4.04
8.75
5.22
4.26
6.22
4.83
10.83
7.29
10.52
5.57
4.51
6.00
5.30
6.47
4.11
7.29
3.14
3.46
3.50
1.82
1.74
5.55
1.89
4.61
2.81
3.41
2.13
3.65
3.29
1.64
2.70
1.57
2.61
1.37
4.07
3.07
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
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Test Report No.:
Harmonics – Class-C per Ed. 3.2 (2009)(Run time) incl. inter-harmonics
EUT: LED High Mast Light
Tested by: Test Operator
Test category: Class-C per Ed. 3.2 (2009) (European limits) Test Margin: 100
Test date: 6/7/2016
Start time: 5:18:53 PM
End time: 5:21:44 PM
Test duration (min): 2.5
Data file name: H-000410.cts_data
Comment: AC 230V 50Hz; 400W; ST-HML400N
Customer: Shanghai Shinetoo
A
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A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
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A
C LID -G
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Á
V OT
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Test Result: Pass
Source qualification: Normal
3
300
2
200
1
100
0
0
-1
-100
-2
-200
-3
-300
Current RMS(Amps)
Harmonics and Class C limit line
Voltage (Volts)
Current (Amps)
Current & voltage waveforms
European Limits
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0.0
4
Test result: Pass
8
12
16 20 24
Harmonic #
28
32
36
40
Worst harmonics H11-63.79% of 100% limit, H11-42.73% of 150% limit.
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Test Report No.:
Current Test Result Summary (Run time)
EUT: LED High Mast Light
Tested by: Test Operator
Test category: Class-C per Ed. 3.2 (2009) (European limits) Test Margin: 100
Test date: 6/7/2016
Start time: 5:18:53 PM
End time: 5:21:44 PM
Test duration (min): 2.5
Data file name: H-000410.cts_data
Comment: AC 230V 50Hz; 400W; ST-HML400N
Customer: Shanghai Shinetoo
A
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D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Test Result: Pass
Source qualification: Normal
THC(A): 0.19
I-THD(%): 10.49
POHC(A): 0.015
POHC Limit(A): 0.172
Highest parameter values during test:
V_RMS (Volts): 229.43
Frequency(Hz): 50.00
I_Peak (Amps): 2.835
I_RMS (Amps): 1.823
I_Fund (Amps): 1.809
Crest Factor:
1.565
Power (Watts): 405.0
Power Factor: 0.971
Harm# Harms(avg) 100%Limit %of Limit
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
0.003
0.171
0.002
0.025
0.001
0.033
0.001
0.035
0.001
0.035
0.001
0.024
0.001
0.019
0.001
0.013
0.001
0.023
0.001
0.011
0.001
0.005
0.001
0.015
0.001
0.009
0.001
0.007
0.001
0.010
0.001
0.009
0.001
0.007
0.001
0.007
0.001
0.007
0.001
Harms(max) 150%Limit %of Limit
Status
0.036
0.527
8.2
32.4
0.004
0.171
0.054
0.790
0.00
21.79
Pass
Pass
0.181
13.9
0.025
0.271
9.36
Pass
0.127
26.2
0.033
0.190
17.60
Pass
0.090
38.2
0.035
0.136
25.60
Pass
0.054
63.8
0.035
0.081
42.73
Pass
0.054
44.3
0.024
0.081
29.85
Pass
0.054
34.7
0.019
0.081
23.31
Pass
0.054
24.3
0.013
0.081
16.32
Pass
0.054
42.5
0.023
0.081
28.62
Pass
0.054
19.4
0.011
0.081
13.48
Pass
0.054
8.4
0.005
0.081
0.00
Pass
0.054
27.0
0.015
0.081
18.53
Pass
0.054
15.9
0.009
0.081
0.00
Pass
0.054
12.3
0.007
0.081
0.00
Pass
0.054
17.7
0.010
0.081
0.00
Pass
0.054
17.5
0.010
0.081
0.00
Pass
0.054
13.3
0.007
0.081
0.00
Pass
0.054
12.6
0.007
0.081
0.00
Pass
0.054
13.5
0.007
0.081
0.00
Pass
Note: Dynamic limits were applied for this test. The highest harmonics values in the above table may not occur at the same
window as the maximum harmonics/limit ratio.
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Page 14 of 53
Test Report No.:
Voltage Source Verification Data (Run time)
EUT: LED High Mast Light
Tested by: Test Operator
Test category: Class-C per Ed. 3.2 (2009) (European limits) Test Margin: 100
Test date: 6/7/2016
Start time: 5:18:53 PM
End time: 5:21:44 PM
Test duration (min): 2.5
Data file name: H-000410.cts_data
Comment: AC 230V 50Hz; 400W; ST-HML400N
Customer: Shanghai Shinetoo
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Test Result: Pass
Source qualification: Normal
Highest parameter values during test:
Voltage (Vrms): 229.43
I_Peak (Amps): 2.835
I_Fund (Amps): 1.809
Power (Watts): 405.0
Harm#
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
Frequency(Hz):
I_RMS (Amps):
Crest Factor:
Power Factor:
50.00
1.823
1.565
0.971
Harmonics V-rms
Limit V-rms
% of Limit
Status
0.151
0.537
0.062
0.030
0.042
0.033
0.017
0.028
0.023
0.029
0.017
0.029
0.013
0.018
0.014
0.016
0.016
0.024
0.015
0.014
0.007
0.006
0.005
0.021
0.012
0.009
0.010
0.009
0.008
0.011
0.007
0.010
0.003
0.010
0.003
0.011
0.003
0.008
0.006
0.459
2.064
0.459
0.918
0.459
0.688
0.459
0.459
0.459
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
32.89
26.00
13.53
3.28
9.14
4.75
3.78
6.17
4.96
12.62
7.28
12.85
5.77
8.06
6.26
6.94
6.79
10.66
6.43
5.94
3.17
2.69
2.20
8.94
5.45
4.09
4.57
3.79
3.41
4.99
3.03
4.14
1.19
4.41
1.16
4.60
1.22
3.63
2.50
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
Produkte
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Page 15 of 53
Test Report No.:
Harmonics – Class-C per Ed. 3.2 (2009)(Replay) incl. inter-harmonics
EUT: LED High Mast Light
Tested by: Test Operator
Test category: Class-C per Ed. 3.2 (2009) (European limits) Test Margin: 100
Test date: 6/7/2016
Start time: 5:04:23 PM
End time: 5:07:14 PM
Test duration (min): 2.5
Data file name: H-000408.cts_data
Comment: AC 230V 50Hz; 600W; ST-HML600N
Customer: Shanghai Shinetoo
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Test Result: Pass
Source qualification: Normal
6
300
4
200
2
100
0
0
-2
-100
-4
-200
-6
-300
Harmonics and Class C limit line
Voltage (Volts)
Current (Amps)
Current & voltage waveforms
European Limits
Current RMS(Amps)
1.25
1.00
0.75
0.50
0.25
0.00
4
Test result: Pass
8
12
16 20 24
Harmonic #
28
32
36
40
Worst harmonics H11-33.41% of 100% limit, H11-22.63% of 150% limit.
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Page 16 of 53
Test Report No.:
Current Test Result Summary (Replay)
EUT: LED High Mast Light
Tested by: Test Operator
Test category: Class-C per Ed. 3.2 (2009) (European limits) Test Margin: 100
Test date: 6/7/2016
Start time: 5:04:23 PM
End time: 5:07:14 PM
Test duration (min): 2.5
Data file name: H-000408.cts_data
Comment: AC 230V 50Hz; 600W; ST-HML600N
Customer: Shanghai Shinetoo
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Test Result: Pass
Source qualification: Normal
THC(A): 0.12
I-THD(%): 4.36
POHC(A): 0.024
POHC Limit(A): 0.258
Highest parameter values during test:
V_RMS (Volts): 229.43
Frequency(Hz): 50.00
I_Peak (Amps): 4.164
I_RMS (Amps): 2.728
I_Fund (Amps): 2.721
Crest Factor:
1.538
Power (Watts): 615.5
Power Factor: 0.985
Harm# Harms(avg) 100%Limit %of Limit
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
0.006
0.082
0.002
0.041
0.002
0.035
0.001
0.030
0.001
0.027
0.002
0.021
0.002
0.023
0.002
0.022
0.002
0.020
0.004
0.014
0.003
0.010
0.002
0.024
0.002
0.013
0.002
0.005
0.002
0.014
0.002
0.011
0.002
0.006
0.002
0.008
0.002
0.007
0.002
Harms(max) 150%Limit %of Limit
Status
0.054
0.804
11.4
10.2
0.007
0.084
0.082
1.206
0.00
6.93
Pass
Pass
0.272
15.0
0.041
0.408
10.05
Pass
0.190
18.4
0.035
0.286
12.36
Pass
0.136
22.0
0.030
0.204
14.85
Pass
0.082
33.4
0.028
0.122
22.63
Pass
0.082
25.6
0.021
0.122
17.27
Pass
0.082
27.7
0.023
0.122
18.72
Pass
0.082
27.4
0.023
0.122
18.54
Pass
0.082
24.7
0.020
0.122
16.71
Pass
0.082
17.5
0.015
0.122
0.00
Pass
0.082
12.4
0.011
0.122
0.00
Pass
0.082
29.1
0.024
0.122
19.66
Pass
0.082
15.7
0.014
0.122
0.00
Pass
0.082
5.8
0.005
0.122
0.00
Pass
0.082
17.4
0.014
0.122
0.00
Pass
0.082
13.1
0.011
0.122
0.00
Pass
0.082
7.0
0.006
0.122
0.00
Pass
0.082
10.0
0.008
0.122
0.00
Pass
0.082
9.0
0.007
0.122
0.00
Pass
Note: Dynamic limits were applied for this test. The highest harmonics values in the above table may not occur at the same
window as the maximum harmonics/limit ratio.
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Test Report No.:
Voltage Source Verification Data (Replay)
EUT: LED High Mast Light
Tested by: Test Operator
Test category: Class-C per Ed. 3.2 (2009) (European limits) Test Margin: 100
Test date: 6/7/2016
Start time: 5:04:23 PM
End time: 5:07:14 PM
Test duration (min): 2.5
Data file name: H-000408.cts_data
Comment: AC 230V 50Hz; 600W; ST-HML600N
Customer: Shanghai Shinetoo
A
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C R LA
A PA M
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V OT
C
Test Result: Pass
Source qualification: Normal
Highest parameter values during test:
Voltage (Vrms): 229.43
I_Peak (Amps): 4.164
I_Fund (Amps): 2.721
Power (Watts): 615.5
Harm#
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
Frequency(Hz):
I_RMS (Amps):
Crest Factor:
Power Factor:
50.00
2.728
1.538
0.985
Harmonics V-rms
Limit V-rms
% of Limit
Status
0.151
0.533
0.067
0.028
0.042
0.033
0.018
0.031
0.024
0.025
0.016
0.029
0.014
0.019
0.014
0.023
0.016
0.021
0.016
0.017
0.008
0.012
0.005
0.028
0.011
0.018
0.012
0.006
0.009
0.019
0.009
0.014
0.004
0.008
0.004
0.014
0.003
0.011
0.009
0.459
2.064
0.459
0.917
0.459
0.688
0.459
0.459
0.459
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
0.229
32.95
25.83
14.58
3.08
9.17
4.82
3.94
6.71
5.16
11.10
7.12
12.64
5.91
8.21
6.28
10.08
6.94
9.10
6.83
7.45
3.59
5.02
2.30
12.41
4.68
7.82
5.29
2.81
3.80
8.11
4.10
6.29
1.90
3.67
1.92
5.92
1.41
4.96
3.93
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
OK
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Test Report No.:
A
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4.1.2 Voltage Fluctuations on AC Mains
Result:
Passed
Date of testing
Test procedure
Ambient
condition
: 13.06.2016
: EN 61000-3-3:2013
: Temperature: 24.8ºC; Relative humidity: 39.8%
According to the characteristics of the sample, as specified by clause 5 of the basic standard,
following limits apply:
− the value of d(t) during a voltage change shall not exceed 3.3% for more than 500ms;
− the relative steady-state voltage change, dc, shall not exceed 3.3%;
− the maximum relative voltage change dmax, shall not exceed 4%
Following are the measurement results obtained via an automatic testing system.
Table 2: Voltage fluctuations and flicker measurement results (for model ST-HML300N)
Limits
Result
dc
dmax
d(t)
Pst
Plt
3.3%
0.22%
4%
0.73%
3.3%/500ms
0ms
1.0
N/A
0.65
N/A
Table 3: Voltage fluctuations and flicker measurement results (for model ST-HML400N)
Limits
Result
dc
dmax
d(t)
Pst
Plt
3.3%
0.29%
4%
0.57%
3.3%/500ms
0ms
1.0
N/A
0.65
N/A
Table 4: Voltage fluctuations and flicker measurement results (for model ST-HML600N)
Limits
Result
dc
dmax
d(t)
Pst
Plt
3.3%
0.46%
4%
1.19%
3.3%/500ms
0ms
1.0
N/A
0.65
N/A
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Seite 19 von 53
Page 19 of 53
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4.1.3 Mains Terminal Continuous Disturbance Voltage
Result:
Passed
Date of testing
Basic standard
Frequency range
Limit
Kind of test site
Ambient
Condition
Expanded
measurement
uncertainty (k=2)
:
:
:
:
:
:
13.06.2016
EN 55015:2013+A1
9kHz – 30MHz
EN 55015:2013+A1, clause 4.3, Table 2a
shielded room
Temperature: 24.8oC; Relative Humidity: 39.2%
:
3.98dB (9 – 150kHz)
3.58dB (150kHz – 30MHz)
:
:
:
:
AC 240V, 50Hz
Power on
Earthed by power cord (as class I equipment)
According to clause 8 of EN 55015:2013+A1
Test Setup
Input voltage
Operational mode
Earthing
Test setup
The measurement setup was made according to EN 55015:2013+A1 in a shielded room.
The measurement equipment like test receivers, quasi-peak detector and Artificial Mains
Network (AMN) are in compliance with CISPR 16-1 series standards and EN
55015:2013+A1. The tested object was operated under its rated voltage and its rated
frequency.
Furthermore an internal calibration with the test receiver was conducted prior to each
measurement.
Each tested lamp was operated for at least 30min before test.
The disturbance voltage was determined according to clause 8 of EN 55015:2013+A1 while
measuring the line and neutral conductor by turns.
The following figures and tables were those measured by an automatic measuring system.
The disturbance voltage was scanned firstly with Peak detector and during the test. Then a
final measurement was performed with both Quasi-peak and Average detector at the
frequencies which showed the Max. in a designated frequency sub-range.
The following figures and tables were those measured by an automatic measuring system.
Both Quasi-Peak and Average Value were measured. Quasi-Peak and Average Value were
measured and listed respectively where they had a maximum in previous scanning survey. In
the Figures, blue “♦” means Quasi-Peak Value and green “♦” means Average Value which
were measured in final measurement.
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Test Report No.:
Figure 1: Spectral Diagrams, Conducted Emission, 150kHz - 30MHz, L, for model STHML300N
A
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N P 20
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A PA M
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C LID -G
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Á
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Level [dBµV]
120
100
80
EN55015 QP
60
EN55015 AV
40
20
0
-20
9k
20 30
50
100k
200 300 500
1M
2M 3M
5M
10M
Corr.
(dB)
Margin
(dB)
Limit
(dBμ
μV)
9.7
9.7
9.8
9.8
9.9
10.1
27.7
28.2
13.6
17.9
17.2
18.8
83.1
82.6
62.9
56.0
56.0
60.0
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μV)
0.107240
0.112760
0.218000
0.746000
2.826000
10.206000
55.4
54.4
49.3
38.1
38.8
41.2
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
0.200
0.200
9.000
9.000
9.000
9.000
Filter
Line
Off
Off
Off
Off
Off
Off
L1
L1
L1
L1
L1
L1
Filter
Line
Off
Off
Off
Off
L1
L1
L1
L1
Final Result 2
Frequency
(MHz)
CAverage
(dBμ
μV)
0.566000
0.790000
4.354000
4.798000
31.1
29.9
27.1
27.0
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
9.000
9.000
9.000
9.000
Corr.
(dB)
Margin
(dB)
9.8
9.9
9.9
9.9
14.9
16.1
18.9
19.0
Limit
(dBμ
μV)
46.0
46.0
46.0
46.0
20 30M
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Test Report No.:
Figure 2: Spectral Diagrams, Conducted Emission, 150kHz - 30MHz, N, for model STHML300N
A
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O
C
0
R
O
0
T
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2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Level [dBµV]
120
100
80
EN55015 QP
60
EN55015 AV
40
20
0
-20
9k
20 30
50
100k
200 300 500
1M
2M 3M
5M
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μV)
0.108920
0.114440
0.222000
0.802000
1.730000
9.918000
55.2
53.5
49.5
41.7
41.0
43.3
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
0.200
0.200
9.000
9.000
9.000
9.000
Filter
Line
Off
Off
Off
Off
Off
Off
N
N
N
N
N
N
Corr.
(dB)
Margin
(dB)
Limit
(dBμ
μV)
9.8
9.8
9.8
9.8
9.9
10.1
27.7
29.0
13.2
14.3
15.0
16.7
82.9
82.5
62.7
56.0
56.0
60.0
Final Result 2
Frequency
(MHz)
CAverage
(dBμ
μV)
0.806000
3.558000
4.618000
4.850000
31.0
28.7
28.5
29.4
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
9.000
9.000
9.000
9.000
Filter
Line
Off
Off
Off
Off
N
N
N
N
Corr.
(dB)
Margin
(dB)
Limit
(dBμ
μV)
9.8
9.9
9.9
9.9
15.0
17.3
17.5
16.6
46.0
46.0
46.0
46.0
10M
20 30M
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Test Report No.:
Figure 3: Spectral Diagrams, Conducted Emission, 150kHz - 30MHz, L, for model STHML400N
A
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N P 20
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C R LA
A PA M
I
P A
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A
C LID -G
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Á
V OT
C
Level [dBµV]
120
100
80
EN55015 QP
60
EN55015 AV
40
20
0
-20
9k
20 30
50
100k
200 300 500
1M
2M 3M
5M
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μV)
0.040760
0.042120
3.134000
4.926000
20.786000
21.446000
84.8
84.6
38.9
39.9
41.8
41.3
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
0.200
0.200
9.000
9.000
9.000
9.000
Filter
Line
Off
Off
Off
Off
Off
Off
L1
L1
L1
L1
L1
L1
Filter
Line
Off
Off
Off
Off
L1
L1
L1
L1
Corr.
(dB)
Margin
(dB)
Limit
(dBμ
μV)
9.8
9.8
9.9
9.9
10.5
10.5
25.2
25.4
17.1
16.1
18.2
18.7
110.0
110.0
56.0
56.0
60.0
60.0
Final Result 2
Frequency
(MHz)
CAverage
(dBμ
μV)
0.150000
2.530000
3.126000
21.106000
43.2
21.7
22.2
34.5
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
9.000
9.000
9.000
9.000
Corr.
(dB)
Margin
(dB)
Limit
(dBμ
μV)
9.7
9.9
9.9
10.5
12.8
24.3
23.8
15.5
56.0
46.0
46.0
50.0
10M
20 30M
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Test Report No.:
Figure 4: Spectral Diagrams, Conducted Emission, 150kHz - 30MHz, N, for model STHML400N
A
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N P 20
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C R LA
A PA M
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P A
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C LID -G
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Á
V OT
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Level [dBµV]
120
100
80
EN55015 QP
60
EN55015 AV
40
20
0
-20
9k
20 30
50
100k
200 300 500
1M
2M 3M
5M
10M
Corr.
(dB)
Margin
(dB)
Limit
(dBμ
μV)
9.8
9.8
9.9
9.9
9.9
9.9
25.3
25.8
13.0
13.6
13.0
13.2
110.0
110.0
56.0
56.0
56.0
56.0
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μV)
0.040760
0.042120
3.398000
3.706000
4.586000
4.886000
84.7
84.2
43.0
42.4
43.0
42.8
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
0.200
0.200
9.000
9.000
9.000
9.000
Filter
Line
Off
Off
Off
Off
Off
Off
N
N
N
N
N
N
Final Result 2
Frequency
(MHz)
CAverage
(dBμ
μV)
0.442000
1.626000
3.998000
4.886000
34.3
30.9
31.4
30.5
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
9.000
9.000
9.000
9.000
Filter
Line
Off
Off
Off
Off
N
N
N
N
Corr.
(dB)
Margin
(dB)
9.8
9.9
9.9
9.9
12.7
15.1
14.6
15.5
Limit
(dBμ
μV)
47.0
46.0
46.0
46.0
20 30M
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Test Report No.:
Figure 5: Spectral Diagrams, Conducted Emission, 150kHz - 30MHz, L, for model STHML600N
A
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L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Level [dBµV]
120
100
80
EN55015 QP
60
EN55015 AV
40
20
0
-20
9k
20 30
50
100k
200 300 500
1M
2M 3M
5M
10M
Corr.
(dB)
Margin
(dB)
Limit
(dBμ
μV)
9.8
9.7
9.7
9.9
9.9
10.6
15.7
17.5
16.6
20.5
14.5
20.1
110.0
85.3
65.0
56.0
56.0
60.0
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μV)
0.042040
0.084040
0.170000
0.934000
0.966000
29.278000
94.3
67.8
48.4
35.5
41.5
39.9
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
0.200
0.200
9.000
9.000
9.000
9.000
Filter
Line
Off
Off
Off
Off
Off
Off
L1
L1
L1
L1
L1
L1
Filter
Line
Off
Off
Off
Off
L1
L1
L1
L1
Final Result 2
Frequency
(MHz)
CAverage
(dBμ
μV)
0.170000
0.926000
0.966000
29.646000
37.3
32.6
34.3
33.0
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
9.000
9.000
9.000
9.000
Corr.
(dB)
Margin
(dB)
9.7
9.9
9.9
10.6
17.7
13.4
11.7
17.0
Limit
(dBμ
μV)
55.0
46.0
46.0
50.0
20 30M
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Test Report No.:
Figure 6: Spectral Diagrams, Conducted Emission, 150kHz - 30MHz, N, for model STHML600N
A
O
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A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Level [dBµV]
120
100
80
EN55015 QP
60
EN55015 AV
40
20
0
-20
9k
20 30
50
100k
200 300 500
1M
2M 3M
5M
10M
Corr.
(dB)
Margin
(dB)
Limit
(dBμ
μV)
9.8
9.8
9.8
9.9
9.9
10.8
16.2
17.8
16.3
15.9
12.7
14.1
110.0
85.3
65.0
56.0
56.0
60.0
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μV)
0.042040
0.084040
0.170000
0.926000
0.966000
29.846000
93.8
67.5
48.7
40.1
43.3
45.9
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
0.200
0.200
9.000
9.000
9.000
9.000
Filter
Line
Off
Off
Off
Off
Off
Off
N
N
N
N
N
N
Final Result 2
Frequency
(MHz)
CAverage
(dBμ
μV)
0.170000
0.926000
0.966000
29.594000
38.3
33.4
35.0
39.2
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
9.000
9.000
9.000
9.000
Filter
Line
Off
Off
Off
Off
N
N
N
N
Corr.
(dB)
Margin
(dB)
9.8
9.9
9.9
10.8
16.7
12.6
11.0
10.8
Limit
(dBμ
μV)
55.0
46.0
46.0
50.0
20 30M
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Page 26 of 53
4.1.4 Radiated Electromagnetic Disturbance (9kHz-30MHz)
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Result:
Passed
Date of testing
Port
Basic standard
Frequency range
Limit
Ambient Condition
:
:
:
:
:
:
13.06.2016
Enclosure
EN 55015:2013+A1
9kHz – 30MHz
EN 55015:2013+A1, clause 4.4
Temperature: 24.8oC; Relative Humidity: 39.2%
Test Setup
Input voltage
Operational mode
Earthing
: AC 240V, 50Hz
: Power on
: Earthed by power cord (as class I equipment)
Measuring configuration and description
The measurement equipment like test receiver, loop antenna and coaxial switch are in
compliance with the CISPR 16-1 series standards. The test set-up was made according to
Clause 9 of EN 55015:2013+A1.
The EUT operated at its rated voltage and its rated frequency. Each sample was put on a
wooden table in the loop antenna. The sample was placed in the center of the loop antenna.
Each sample was operated for at least 30 min. before a measurement.
Induced current in the loop antenna was measured by means of a current probe (1V/A)
according to clause 9 of EN 55015:2013+A1. The three-field components were measured in
sequence by means of a coaxial switch (loop antenna controller).
The following figures were those measured. In the figures, “♦” means Quasi-Peak value
which was measured in final measurement.
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Test Report No.:
Figure 7: Graphic description of radiated electromagnetic disturbances, direction X, for
model ST-HML300N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
[dBµA]
100
80
60
40
EN55015 3loop
20
0
-20
-30
9k
20 30
50
100k
200 300 500
1M
2M 3M
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μ A)
4.131244
9.735581
11.847469
11.951944
18.268950
24.216563
-0.3
-1.3
-1.4
-1.2
-0.7
-0.4
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
Corr.
(dB)
Margin
(dB)
Limit
(dBμ
μ A)
9.000
9.000
9.000
9.000
9.000
9.000
0.2
0.2
0.3
0.3
0.4
0.5
22.3
23.3
23.4
23.2
22.7
22.4
22.0
22.0
22.0
22.0
22.0
22.0
5M
10M
20 30M
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Page 28 of 53
Test Report No.:
Figure 8: Graphic description of radiated electromagnetic disturbances, direction Y, for
model ST-HML300N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
[dBµA]
100
80
60
40
EN55015 3loop
20
0
-20
-30
9k
20 30
50
100k
200 300 500
1M
2M 3M
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μ A)
5.537925
6.776700
7.907269
13.974281
23.671800
29.876869
-0.4
-0.4
-0.4
-1.2
-0.4
-0.3
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
Corr.
(dB)
Margin
(dB)
Limit
(dBμ
μ A)
9.000
9.000
9.000
9.000
9.000
9.000
0.2
0.2
0.2
0.3
0.5
0.6
22.4
22.4
22.4
23.2
22.4
22.3
22.0
22.0
22.0
22.0
22.0
22.0
5M
10M
20 30M
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Page 29 of 53
Test Report No.:
Figure 9: Graphic description of radiated electromagnetic disturbances, direction Z, for
model ST-HML300N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
[dBµA]
100
80
60
40
EN55015 3loop
20
0
-20
-30
9k
20 30
50
100k
200 300 500
1M
2M 3M
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μ A)
5.265544
6.989381
7.896075
23.686725
26.186663
26.440388
-0.4
-0.5
-0.3
-0.4
0.0
-0.2
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
Corr.
(dB)
Margin
(dB)
9.000
9.000
9.000
9.000
9.000
9.000
0.2
0.2
0.2
0.5
0.5
0.5
22.4
22.5
22.3
22.4
22.0
22.2
Limit
(dBμ
μ A)
22.0
22.0
22.0
22.0
22.0
22.0
5M
10M
20 30M
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Page 30 of 53
Test Report No.:
Figure 10: Graphic description of radiated electromagnetic disturbances, direction X, for
model ST-HML400N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
[dBµA]
100
80
60
40
EN55015 3loop
20
0
-20
-30
9k
20 30
50
100k
200 300 500
1M
2M 3M
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μ A)
3.060375
7.437131
23.627025
26.959031
28.041094
28.466456
-0.3
-0.3
-0.2
-6.3
-0.3
-0.2
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
Corr.
(dB)
Margin
(dB)
9.000
9.000
9.000
9.000
9.000
9.000
0.2
0.2
0.5
0.5
0.5
0.5
22.3
22.3
22.2
28.3
22.3
22.2
Limit
(dBμ
μ A)
22.0
22.0
22.0
22.0
22.0
22.0
5M
10M
20 30M
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Page 31 of 53
Test Report No.:
Figure 11: Graphic description of radiated electromagnetic disturbances, direction Y, for
model ST-HML400N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
[dBµA]
100
80
60
40
EN55015 3loop
20
0
-20
-30
9k
20 30
50
100k
200 300 500
1M
2M 3M
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μ A)
6.228206
6.959531
7.970700
21.392006
26.212781
29.563444
-0.4
-0.2
-2.8
-0.5
-0.1
-0.1
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
Corr.
(dB)
Margin
(dB)
Limit
(dBμ
μ A)
9.000
9.000
9.000
9.000
9.000
9.000
0.2
0.2
0.2
0.5
0.5
0.6
22.4
22.2
24.8
22.5
22.1
22.1
22.0
22.0
22.0
22.0
22.0
22.0
5M
10M
20 30M
Produkte
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Page 32 of 53
Test Report No.:
Figure 12: Graphic description of radiated electromagnetic disturbances, direction Z, for
model ST-HML400N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
[dBµA]
100
80
60
40
EN55015 3loop
20
0
-20
-30
9k
20 30
50
100k
200 300 500
1M
2M 3M
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μ A)
3.370069
4.567800
4.952119
5.683444
7.758019
10.743019
-0.2
-0.3
-0.3
-0.3
-0.1
-1.0
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
Corr.
(dB)
Margin
(dB)
9.000
9.000
9.000
9.000
9.000
9.000
0.2
0.2
0.2
0.2
0.2
0.3
22.2
22.3
22.3
22.3
22.1
23.0
Limit
(dBμ
μ A)
22.0
22.0
22.0
22.0
22.0
22.0
5M
10M
20 30M
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Page 33 of 53
Test Report No.:
Figure 13: Graphic description of radiated electromagnetic disturbances, direction X, for
model ST-HML600N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
[dBµA]
100
80
60
40
EN55015 3loop
20
0
-20
-30
9k
20 30
50
100k
200 300 500
1M
2M 3M
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μ A)
4.209600
7.481906
8.582625
11.780306
18.653269
24.436706
-0.8
-0.4
0.0
-0.4
-0.1
0.3
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
Corr.
(dB)
Margin
(dB)
9.000
9.000
9.000
9.000
9.000
9.000
0.2
0.2
0.2
0.3
0.4
0.5
22.8
22.4
22.0
22.4
22.1
21.7
Limit
(dBμ
μ A)
22.0
22.0
22.0
22.0
22.0
22.0
5M
10M
20 30M
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Page 34 of 53
Test Report No.:
Figure 14: Graphic description of radiated electromagnetic disturbances, direction Y, for
model ST-HML600N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
[dBµA]
100
80
60
40
EN55015 3loop
20
0
-20
-30
9k
20 30
50
100k
200 300 500
1M
2M 3M
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μ A)
4.418550
6.306563
25.003856
25.138181
25.261313
29.458969
-0.8
-0.7
0.3
0.4
0.4
0.6
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
Corr.
(dB)
Margin
(dB)
Limit
(dBμ
μ A)
9.000
9.000
9.000
9.000
9.000
9.000
0.2
0.2
0.5
0.5
0.5
0.6
22.8
22.7
21.7
21.6
21.6
21.4
22.0
22.0
22.0
22.0
22.0
22.0
5M
10M
20 30M
Produkte
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Page 35 of 53
Test Report No.:
Figure 15: Graphic description of radiated electromagnetic disturbances, direction Z, for
model ST-HML600N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
[dBµA]
100
80
60
40
EN55015 3loop
20
0
-20
-30
9k
20 30
50
100k
200 300 500
1M
2M 3M
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μ A)
6.552825
7.489369
9.776625
26.903063
27.533644
28.925400
-0.7
-0.3
-0.2
0.5
0.6
0.4
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
Corr.
(dB)
Margin
(dB)
Limit
(dBμ
μ A)
9.000
9.000
9.000
9.000
9.000
9.000
0.2
0.2
0.2
0.5
0.5
0.6
22.7
22.3
22.2
21.5
21.4
21.6
22.0
22.0
22.0
22.0
22.0
22.0
5M
10M
20 30M
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Page 36 of 53
4.2 Emission in the Frequency Range above 30 MHz
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
4.2.1 Radiated Electromagnetic Disturbance (30-300MHz)
Result:
Passed
Date of testing
Test procedure
Frequency range
Limits
Kind of test site
:
:
:
:
:
Operation modes
Ambient condition
:
:
13.06.2016
EN 55015:2013+A1, Annex B
30 – 300MHz
EN 55015:2013+A1, Table B.1
shielded room
power on
Temperature: 24.8°C; Relative humidity: 39.2%
The measurement setup was made according to EN 55015:2013+A1 in a shielded room.
The EUT was placed on a wooden support with a height of 10cm which in turn were placed
on an earthed metal plate with dimensions at least 20cm larger than the EUT.
The EUT was connected via a mains supply cable with a length of 20cm to the appropriate
CDN. The disturbance of the cable to the metal plate was 4cm. The CDN was mounted on
the metal plate.
The RF output of the CDN is connected to a measuring receiver with a quasi-peak detector
via a 6 dB, 50Ω attenuator.
The following figures and tables were those measured by an automatic measurement system.
A preview test was firstly performed with peak detector.
In the figures, “♦” means Quasi-peak value which was measured in final measurement.
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Page 37 of 53
Test Report No.:
Figure 16: Spectral Diagrams, Radiated Electromagnetic disturbance, 30MHz-300MHz, for
model ST-HML300N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
[dBµV]
80
70
EN55015 CDN QP
60
50
40
30
20
10
0
30M
50
60
70
80
90 100M
200
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μV)
40.760000
50.880000
94.520000
108.960000
188.920000
205.800000
44.1
44.9
41.9
45.6
50.9
51.4
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
Corr.
(dB)
Margin
(dB)
Limit
(dBμ
μV)
120.000
120.000
120.000
120.000
120.000
120.000
20.6
20.7
20.8
20.8
21.0
20.9
17.4
14.7
12.6
8.4
3.1
2.6
61.5
59.6
54.5
54.0
54.0
54.0
300M
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Page 38 of 53
Test Report No.:
Figure 17: Spectral Diagrams, Radiated Electromagnetic disturbance, 30MHz-300MHz, for
model ST-HML400N
[dBµV]
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
80
70
EN55015 CDN QP
60
50
40
30
20
10
0
30M
50
60
70
80
90 100M
200
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μV)
30.040000
94.640000
99.400000
134.880000
162.760000
208.120000
42.7
38.2
43.2
38.0
39.7
38.8
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
Corr.
(dB)
Margin
(dB)
120.000
120.000
120.000
120.000
120.000
120.000
20.5
20.8
20.8
20.8
20.9
20.9
21.3
16.3
10.8
16.0
14.3
15.2
Limit
(dBμ
μV)
64.0
54.5
54.0
54.0
54.0
54.0
300M
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Test Report No.:
Figure 18: Spectral Diagrams, Radiated Electromagnetic disturbance, 30MHz-300MHz, for
model ST-HML600N
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[dBµV]
80
70
EN55015 CDN QP
60
50
40
30
20
10
0
30M
50
60
70
80
90 100M
200
Frequency in Hz
Final Result 1
Frequency
(MHz)
QuasiPeak
(dBμ
μV)
31.960000
48.160000
83.120000
111.000000
185.520000
188.280000
51.5
42.8
35.0
36.4
29.2
29.0
Meas.
Time
(ms)
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
1000.00
0
Bandwidth
(kHz)
Corr.
(dB)
Margin
(dB)
Limit
(dBμ
μV)
120.000
120.000
120.000
120.000
120.000
120.000
20.5
20.7
20.8
20.8
21.0
21.0
12.0
17.3
20.5
17.6
24.8
25.0
63.5
60.1
55.5
54.0
54.0
54.0
300M
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5 Test Results I M M U N I T Y
During the immunity tests, the EUT was operated under conditions specified by clause 3.1
of this report.
Performance criterion A: During the test no change of the luminous intensity shall be
observed and the regulating control, if any, shall operate during the test as intended.
Performance criterion B: During the test the luminous intensity may change to any value.
After the test the luminous intensity shall be restored to its initial value within 1min.
Regulating controls need not function during the test, but after the test the mode of the
control shall be the same as before the test provided that during the test no mode changing
commands were given.
Performance criterion C: During and after the test any change of the luminous intensity is
allowed and the lamp(s) may be extinguished. After the test, within 30 min, all functions
shall return to normal if necessary by temporary interruption of the mains supply and/or
operating the regulating control.
Date of testing: 14.06.2016
Room temperature
Relative humidity
:
:
24.8-24.9°C
39.2-39.8%
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5.1 Enclosure
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5.1.1 Electrostatic Discharge
Result:
Passed
The immunity against electrostatic discharge was tested in accordance with EN 61547:2009.
Test setup and ESD-Generator are according to IEC 61000-4-2 which is specified by EN
61547:2009.
The EUT is placed on 0.8m wood table above the ground plane. And the minimum distance
between the EUT and all other conductive structures except the ground plane beneath the
EUT is more than 0.5m.
The reference ground plane is an aluminium sheet of 0.25mm minimum thickness. The
reference ground plane is connected to the protective earth. The size of the ground plane is
2m x 2m.
A horizontal coupling plane (HCP), 1.6m x 0.8m, placed on the table and isolate the EUT
0.5mm thick. Vertical coupling plane of dimensions 0.5m x 0.5m is placed parallel to and
positioned at a distance of 0.1m from the EUT.
Test voltage
Polarity
Number of discharges
Performance criteria
: ±2.0kV, ±4.0kV (Contact discharge),
±2.0kV, ±4.0kV, ±8.0kV (Air discharge)
: positive / negative
: >10
: B
Table 5: ESD, Positive / Negative Polarity
Position
Power line
Metallic enclosure
Coupling plane
(Both HCP and VCP)
Kind of Discharge
Air discharge ±2kV,
±4kV, ±8kV
Result
Pass
Remarks
No change of luminous
intensity
Contact discharge
±2kV, ±4kV
Contact discharge
±2kV, ±4kV
Pass
Ditto
Pass
Ditto
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Test Report No.:
5.1.2 Radio Frequency Electromagnetic Field
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Result:
Passed
The immunity against radio-frequency electromagnetic fields in the frequency range
between 80MHz and 1000MHz was tested in accordance to IEC 61000-4-3 which is
specified by clause 5.1 in EN 61547:2009.
The test set-up, the RF signal generator, the power amplifier and the antennas were in
accordance with IEC 61000-4-3. The test was performed in an anechoic chamber with a test
distance of 3m. The field uniformity of the anechoic chamber is regularly calibrated to meet
0-6dB field uniformity criterion as specified in IEC 61000-4-3.
Test level
Frequency range
Modulation
Frequency sweep speed
Performance ceriteria
:
:
:
:
:
3V/m
80-1000MHz
80%AM, 1kHz
Frequency step: 1%; Dwell time: 3s
A
Table 6: Radiated Susceptibility, Field Strength 3V/m
Field polarization
Horizontal polarization
Vertical polarization
Position
Front side
Rear side
Left side
Right side
Front side
Rear side
Left side
Right side
Observation
No change of luminous
intensity
Remarks
Pass
No change of luminous
intensity
Pass
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5.1.3 Power Frequency Magnetic Fields
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Result:
Passed
According to clause 5.4 of EN 61547:2009, this test needs only to be applied to equipment
containing components susceptible to magnetic fields, such as Hall elements or magnetic
field sensors. The equipment under test does not have any component susceptible to
magnetic fields. Therefore, the equipment under test is deemed to be compliant without
practical testing.
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5.2 Input and Output AC Power Ports
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5.2.1 Fast Transients on AC Power Lines
Result:
Passed
The immunity against fast transients on AC power lines was tested in accordance to IEC
61000-4-4 which is specified by clause 5.5 in EN 61547:2009.
Test set-up and the fast transient noise generator were according to IEC 61000-4-4 which is
specified by EN 61547:2009. The EUT is placed on 0.1m wood table above the ground
plane. And the minimum distance between the EUT and all other conductive structures
except the ground plane beneath the EUT is more than 0.5m.
The length between the coupling device and the EUT shall be 0.5m±0.05m. The cord length
more than 0.5m±0.05m, the excess length of the cable shall be folded to avoid a flat coil and
situated at a distance of 0.1m above the ground reference plane.
The reference ground plane is an aluminium sheet of 0.25mm minimum thickness. The
reference ground plane is connected to the protective earth. The size of the ground plane is
2m x 2m.
Test voltage
Polarity
Repetition frequency
Test duration
Tr/Tn
Performance criteria
:
:
:
:
:
:
1kV
negative/positive
5kHz
≥120sec
5ns/50ns
B
Table 7: Burst, AC Power lines, Positive and Negative Polarity
Position
AC Input L+N+PE
Observation
No change of luminous intensity
Result
Passed
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5.2.2 Injected Current into AC Power Port
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Result:
Passed
The immunity against injected current into AC power port was tested according to EN
61547:2009 in a shielded room.
The test set-up and the test generator were according to IEC 61000-4-6 which is specified by
EN 61547:2009. The simple luminary was placed on a small wooden support 0.1m above a
reference ground plane which is of an aluminum. The EUT comprised a single unit. The
coupling and decoupling networks was inserted on the power supply connection. The
coupling and decoupling networks was placed on the ground reference plane, making direct
contact with it at about 0.1-0.3 meter from EUT. The height of cable between the EUT and
the coupling and decoupling networks above the ground reference plane was 50mm.
Voltage level
Environmental phenomena
Source impedance
Frequency range
Sweeping rate
Performance criteria
: 3V(rms)(unmodulated)
: r.f. current, common mode, 1kHz,
80%AM
: 150 Ω
: 0.15 − 80 MHz
: Frequency step:1%, dwell time:3s
: A
Table 8: Injected current, AC Power Port
Port
AC input port
Observation
No change of luminous intensity
Result
Passed
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Test Report No.:
5.2.3 Surges to AC Power Port
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Result:
Passed
The immunity against surges to AC power port was tested in accordance to IEC 61000-4-5
which is specified by clause 5.7 in EN 61547:2009.
The set-up and the Combination Wave Generator (CWG) were according to IEC 61000-4-5.
The decoupling network is incorporated in the CWG. Both the EUT and CWG were placed
on an insulation table. The cable length between the EUT and the CWG was about 1.5m.
Test level
Open-circuit test voltage
Tr/Tn
:
Test numbers
Repitition rate
Performance criteria
:
:
:
:
Line to line
0.5kV, 1kV
Line to ground 0.5kV, 1kV, 2kV
1.2/50µs (open-circuit voltage)
8/20µs (short-circuit current)
5 positive pulses at 90º and 5 negative pulses at 270º
1 surge/min
C
Table 9: Surges to AC power lines, positive/negative
Line
L-N
L-PE
N-PE
Test voltage/coupling phase
0.5kV, 1kV for each
polarity
0.5kV, 1kV, 2kV for each
polarity
0.5kV, 1kV, 2kV for each
polarity
Observation
No change of luminous intensity
Result
Passed
Ditto
Passed
Ditto
Passed
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Test Report No.:
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5.2.4 Voltage dips and interruptions to AC Power Port
Result:
Passed
The immunity against voltage dips and interruptions to AC power port was tested in
accordance to IEC 61000-4-11 which is specified by EN 61547:2009.
Test set-up and test generator were according to IEC 61000-4-11. Both the EUT and the
generator were placed on the ground.
Table 10: Test condition and Test Result for Voltage dips and interruptions
Test level
(in % UT)
Performance
criteria
Observation
Result
0
Duration (in
period of the
rated frequency)
0.5 (10ms)
B
Passed
70
10 (200ms)
C
No change of luminous
intensity
No change of luminous
intensity
Passed
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6 Photographs of the Test Set-Up
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Photograph 1: Set-up for measurement of harmonics and voltage fluctuation
Photograph 2: Set-up for measurement of disturbance voltage
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Photograph 3: Set-up for measurement of radiated electromagnetic disturbances (9kHz30MHz)
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Photograph 4: Set-up for measurement of radiated electromagnetic disturbances (30-300MHz)
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Photograph 5: Set-up for immunity test of ESD
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Photograph 6: Set-up for immunity test of radio frequency electromagnetic field
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Photograph 7: Set-up for immunity tests of EFT/B and surge
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Page 51 of 53
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Photograph 8: Set-up for immunity test of injected current
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Photograph 9: Set-up for immunity test of voltage dips and interruptions
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7 List of Tables
Table 1: List of Test and Measurement Equipment ...................................................................................................... 5
Table 2: Voltage fluctuations and flicker measurement results (for model ST-HML300N)....................................... 18
Table 3: Voltage fluctuations and flicker measurement results (for model ST-HML400N)....................................... 18
Table 4: Voltage fluctuations and flicker measurement results (for model ST-HML600N)....................................... 18
Table 5: ESD, Positive / Negative Polarity ................................................................................................................. 41
Table 6: Radiated Susceptibility, Field Strength 3V/m ............................................................................................... 42
Table 7: Burst, AC Power lines, Positive and Negative Polarity ................................................................................ 44
Table 8: Injected current, AC Power Port ................................................................................................................... 45
Table 9: Surges to AC power lines, positive/negative ................................................................................................ 46
Table 10: Test condition and Test Result for Voltage dips and interruptions ............................................................. 47
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8 List of Figures
Figure 1: Spectral Diagrams, Conducted Emission, 150kHz - 30MHz, L, for model ST-HML300N ........................ 20
Figure 2: Spectral Diagrams, Conducted Emission, 150kHz - 30MHz, N, for model ST-HML300N........................ 21
Figure 3: Spectral Diagrams, Conducted Emission, 150kHz - 30MHz, L, for model ST-HML400N ........................ 22
Figure 4: Spectral Diagrams, Conducted Emission, 150kHz - 30MHz, N, for model ST-HML400N........................ 23
Figure 5: Spectral Diagrams, Conducted Emission, 150kHz - 30MHz, L, for model ST-HML600N ........................ 24
Figure 6: Spectral Diagrams, Conducted Emission, 150kHz - 30MHz, N, for model ST-HML600N........................ 25
Figure 7: Graphic description of radiated electromagnetic disturbances, direction X, for model ST-HML300N ...... 27
Figure 8: Graphic description of radiated electromagnetic disturbances, direction Y, for model ST-HML300N ...... 28
Figure 9: Graphic description of radiated electromagnetic disturbances, direction Z, for model ST-HML300N ....... 29
Figure 10: Graphic description of radiated electromagnetic disturbances, direction X, for model ST-HML400N .... 30
Figure 11: Graphic description of radiated electromagnetic disturbances, direction Y, for model ST-HML400N .... 31
Figure 12: Graphic description of radiated electromagnetic disturbances, direction Z, for model ST-HML400N ..... 32
Figure 13: Graphic description of radiated electromagnetic disturbances, direction X, for model ST-HML600N .... 33
Figure 14: Graphic description of radiated electromagnetic disturbances, direction Y, for model ST-HML600N .... 34
Figure 15: Graphic description of radiated electromagnetic disturbances, direction Z, for model ST-HML600N ..... 35
Figure 16: Spectral Diagrams, Radiated Electromagnetic disturbance, 30MHz-300MHz, for model ST-HML300N 37
Figure 17: Spectral Diagrams, Radiated Electromagnetic disturbance, 30MHz-300MHz, for model ST-HML400N 38
Figure 18: Spectral Diagrams, Radiated Electromagnetic disturbance, 30MHz-300MHz, for model ST-HML600N 39
9 List of Photographs
Photograph 1: Set-up for measurement of harmonics and voltage fluctuation ........................................................... 48
Photograph 2: Set-up for measurement of disturbance voltage................................................................................... 48
Photograph 3: Set-up for measurement of radiated electromagnetic disturbances (9kHz-30MHz) ............................ 49
Photograph 4: Set-up for measurement of radiated electromagnetic disturbances (30-300MHz)............................... 49
Photograph 5: Set-up for immunity test of ESD ......................................................................................................... 50
Photograph 6: Set-up for immunity test of radio frequency electromagnetic field ..................................................... 50
Photograph 7: Set-up for immunity tests of EFT/B and surge .................................................................................... 51
Photograph 8: Set-up for immunity test of injected current ........................................................................................ 51
Photograph 9: Set-up for immunity test of voltage dips and interruptions.................................................................. 52
Page 1 of 65
Report No. : SQETMP424004
LM‐80 Test Report
NF2L757GR
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Issue Date:
July 10, 2015
Test Initiation Date: February 15, 2015
Test Duration:
6,000 hours
Revision Date:
November 11, 2015
Test Completion Date:
‐
Report Number:
SQETMP424004
Customer Information:
Company Name:
Nichia Corporation
Address:
491‐100, Oka, Kaminaka‐cho, Anan‐shi, Tokushima, 774‐8601, JAPAN
Description of Test Samples:
Classification:
LED Package
Model Name:
Warm White LED
Model Number:
NF2L757GR (Nominal CCT: 2700 K)
Test Summary:
Data
Set
Case
Temperature
[TS]
Ambient
Temperature
[TA]
Drive Current
[IF]
1
55 °C
> 50 °C
2
55 °C
> 50 °C
3
55 °C
> 50 °C
TM‐21
Projection
L70(6K)
Lumen
Maintenance
Chromaticity
Shift (Δu'v')
at 6,000 hours
at 6,000 hours
100 mA
97.7 %
0.0016
> 36000 hours
150 mA
97.5 %
0.0021
> 36000 hours
200 mA
96.5 %
0.0025
> 36000 hours
4
85 °C
> 80 °C
100 mA
95.2 %
0.0019
> 36000 hours
5
85 °C
> 80 °C
150 mA
94.7 %
0.0024
> 36000 hours
6
85 °C
> 80 °C
200 mA
93.5 %
0.0028
34300 hours
7
105 °C
> 100 °C
100 mA
92.1 %
0.0029
28700 hours
8
105 °C
> 100 °C
150 mA
90.1 %
0.0033
21800 hours
9
105 °C
> 100 °C
200 mA
89.9 %
0.0033
22700 hours
Approved Signatory:
Hitoshi TOHYAMA, Lab Manager
Nichia Corporation LED Testing Laboratory
1‐1,Tatsumi‐Cho, Anan‐Shi, TOKUSHIMA 774‐0001, JAPAN
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 2 of 65
Report No. : SQETMP424004
IES LM‐80‐08 Test Report Requirement :
1.
Number of LED light sources tested
See tables.
2.
Description of LED light sources
See Description of Test Samples
3.
Description of auxiliary equipment
Active cooling life test system
Consisting of small boxes, in which each box contains a reliability test board, and a water‐cooled
heat sink or a heater to control device temperature.
LED Tester
Consisting of an integrating sphere, a programmable current‐source meter, and a
spectroradiometer.
4.
Operating cycle
Constant direct current (DC).
5.
Ambient conditions including airflow, temperature, and relative humidity
Ambient Temperature (TA) : See tables
Ambient temperature is the temperature of the air at a distance of 1.5 mm above the reliability
test board.
Air flow : < 0.1 m/s
Relative Humidity : < 45 %
6.
Case temperature (test point temperature)
See tables.
For the case temperature (TS) measurement point, see the figure below.
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3.0
0.65
Ts point
3.0
7.
Drive current of the LED light sources during lifetime test
See tables.
8.
Initial luminous flux and forward voltage at photometric measurement current
See tables.
9.
Lumen maintenance data for each individual LED light source along with median value, standard
deviation, minimum and maximum lumen maintenance value for all of the LED light sources.
See tables.
10.
Observation of LED light sources failures including the failure conditions and time of failure.
No failure observed
11.
LED light source monitoring interval
See tables.
12.
Photometric measurement uncertainty
Flux measurement:
2.4 % (k =2)
Lumen maintenance:
1.8 % (k =2)
13.
Chromaticity shift reported over the measurement time.
See tables.
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 3 of 65
Report No. : SQETMP424004
Data Set 1 : 55 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
56.7 °C
55.5 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
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A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Lumen Maintenance (%)
120
Avg. and Max. ‐ Min.
110
100
90
80
70
60
50
Relative Forward Voltage (%)
0h
1000 h
2000 h
3000 h
4000 h
5000 h
115
6000 h
7000 h
Avg. and Max. ‐ Min.
110
105
100
95
90
85
0h
1000 h
2000 h
3000 h
4000 h
5000 h
Chromaticity Shift (Δu'v')
0.007
6000 h
7000 h
Avg. and Max. ‐ Min.
0.006
0.005
0.004
0.003
0.002
0.001
0.000
0h
1000 h
2000 h
3000 h
4000 h
5000 h
6000 h
u'v'
0.5320
0.5300
Avg.
0.5280
R=0.007
0.5260
R=0.004
0.5220
0.5200
0.5180
0.5160
0.2760
0.2740
0.2720
0.2700
0.2680
0.2660
0.2640
0.2620
0.2600
0.5140
0.2580
v'
0.5240
u'
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
7000 h
Page 4 of 65
Report No. : SQETMP424004
Data Set 1 : 55 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
56.7 °C
55.5 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 1‐1
Initial Characteristics
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
CIE1931
CIE1976
Luminous flux
Forward voltage
CCT
ΦV [lm]
VF [V]
TCP [K]
x
y
u'
v'
79.6
80.3
80.7
80.2
79.4
79.4
79.5
80.0
79.6
80.3
80.4
80.0
79.6
80.3
80.3
79.7
79.9
79.1
79.8
80.4
80.3
80.1
79.8
79.6
79.8
25
79.9
79.9
0.40
79.1
80.7
5.97
5.98
5.98
5.99
5.97
5.97
5.98
5.97
5.97
5.98
5.96
5.95
5.97
5.97
5.97
5.97
5.97
5.94
5.97
5.96
5.97
5.96
5.96
5.95
5.97
25
5.97
5.97
0.010
5.94
5.99
2596
2654
2651
2602
2587
2608
2584
2607
2592
2614
2635
2619
2584
2642
2636
2592
2620
2603
2580
2644
2668
2626
2626
2612
2634
25
2617
2614
24.6
2580
2668
0.461
0.456
0.458
0.462
0.460
0.458
0.462
0.462
0.461
0.461
0.459
0.461
0.462
0.457
0.458
0.461
0.460
0.459
0.462
0.458
0.454
0.458
0.457
0.458
0.455
25
0.459
0.459
0.0022
0.454
0.462
0.399
0.398
0.401
0.402
0.397
0.396
0.400
0.402
0.399
0.402
0.402
0.402
0.400
0.399
0.399
0.398
0.401
0.397
0.399
0.401
0.396
0.398
0.396
0.396
0.394
25
0.399
0.399
0.0022
0.394
0.402
0.268
0.266
0.266
0.268
0.269
0.268
0.269
0.268
0.269
0.267
0.266
0.267
0.269
0.266
0.266
0.269
0.267
0.268
0.269
0.266
0.265
0.267
0.267
0.268
0.267
25
0.267
0.267
0.0012
0.265
0.269
0.523
0.522
0.523
0.524
0.522
0.521
0.523
0.524
0.523
0.524
0.524
0.524
0.524
0.522
0.523
0.523
0.523
0.522
0.523
0.523
0.521
0.522
0.521
0.522
0.520
25
0.523
0.523
0.0011
0.520
0.524
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 5 of 65
Report No. : SQETMP424004
Data Set 1 : 55 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
56.7 °C
55.5 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 1‐2
Lumen Maintenance
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Lumen Maintenance % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
98.9
98.8
98.5
98.9
98.9
98.7
99.0
98.8
99.0
99.0
99.0
99.0
99.2
99.1
99.1
99.1
99.1
98.7
99.1
98.9
99.0
99.2
99.3
99.1
99.1
25
99.0
99.0
0.19
98.5
99.3
1000 h
98.9
99.0
98.6
99.0
98.9
98.8
98.9
98.8
99.0
99.2
99.0
99.0
99.2
99.2
99.2
99.2
99.3
98.8
99.1
99.0
99.0
99.2
99.4
99.1
99.1
25
99.0
99.0
0.18
98.6
99.4
2000 h
98.8
98.8
98.6
98.8
98.9
98.6
98.8
98.8
98.9
99.0
98.8
98.8
99.0
98.8
99.0
98.9
99.0
98.5
98.9
98.8
98.9
99.1
99.3
98.8
99.1
25
98.9
98.8
0.16
98.5
99.3
3000 h
98.3
98.5
98.3
98.4
98.6
98.2
98.2
98.4
98.5
98.6
98.6
98.7
98.9
98.7
98.8
98.7
98.8
98.4
98.8
98.7
98.1
98.9
99.1
98.6
98.8
25
98.6
98.6
0.25
98.1
99.1
4000 h
98.5
98.8
98.5
98.7
98.7
98.4
98.4
98.7
98.7
98.9
98.7
98.7
99.0
98.6
98.8
98.5
98.8
98.4
98.7
98.7
97.7
98.9
99.0
98.5
98.7
25
98.6
98.7
0.25
97.7
99.0
5000 h
98.0
98.2
98.0
98.1
98.3
97.8
97.8
98.1
98.0
98.3
98.3
98.4
98.5
98.3
98.4
98.2
98.4
98.1
98.3
98.3
97.5
98.4
98.7
98.1
98.3
25
98.2
98.3
0.25
97.5
98.7
6000 h
97.6
97.8
97.6
97.8
97.9
97.3
97.3
97.8
97.6
97.9
97.8
97.8
98.0
97.8
97.9
97.6
97.8
97.5
97.7
97.7
97.4
98.0
98.3
97.6
97.8
25
97.7
97.8
0.22
97.3
98.3
TM‐21 Projection
Time
1000 h 2000 h 3000 h 4000 h 5000 h 6000 h
ln(Avg.) ‐0.0096 ‐0.0114 ‐0.0142 ‐0.0136 ‐0.0182 ‐0.0229
Test duration used
B
α
R2
Calculated L70 (6K)
Reported L70 (6K)
1000 h
to
6000 h
0.9937
2.4699E‐06
0.9073
142000
hours
> 36000
hours
Curve‐fit equation:
Φ(t)=Bexp(‐αt)
Lumen maintenance life eqation:
L 70 =ln(B/0.7)/α
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 6 of 65
Report No. : SQETMP424004
Data Set 1 : 55 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
56.7 °C
55.5 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 1‐3
Forward Voltage
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Relative Forward Voltage % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
99.2
99.2
99.2
99.2
99.3
99.3
99.3
99.4
99.2
99.2
99.4
99.5
99.2
99.3
99.4
99.2
99.5
99.6
99.3
99.4
99.2
99.3
99.3
99.4
99.3
25
99.3
99.3
0.10
99.2
99.6
1000 h
99.3
99.2
99.3
99.2
99.3
99.3
99.2
99.4
99.2
99.1
99.4
99.4
99.2
99.3
99.3
99.2
99.5
99.6
99.3
99.3
99.2
99.3
99.2
99.4
99.3
25
99.3
99.3
0.12
99.1
99.6
2000 h
99.3
99.2
99.2
99.2
99.3
99.2
99.2
99.4
99.2
99.1
99.4
99.4
99.2
99.3
99.4
99.2
99.5
99.5
99.3
99.3
99.2
99.3
99.3
99.2
99.4
25
99.3
99.3
0.11
99.1
99.5
3000 h
99.2
99.2
99.2
99.3
99.3
99.3
99.3
99.4
99.2
99.2
99.4
99.5
99.1
99.3
99.3
99.2
99.5
99.5
99.3
99.4
99.2
99.3
99.3
99.4
99.3
25
99.3
99.3
0.11
99.1
99.5
4000 h
99.3
99.2
99.3
99.3
99.3
99.3
99.3
99.4
99.2
99.2
99.5
99.4
99.2
99.3
99.4
99.2
99.5
99.5
99.3
99.4
99.2
99.3
99.3
99.3
99.3
25
99.3
99.3
0.10
99.2
99.5
5000 h
99.3
99.2
99.2
99.3
99.2
99.2
99.3
99.4
99.2
99.1
99.5
99.4
99.1
99.3
99.5
99.1
99.4
99.5
99.5
99.3
99.2
99.3
99.3
99.3
99.2
25
99.3
99.3
0.12
99.1
99.5
6000 h
99.3
99.2
99.3
99.4
99.3
99.3
99.4
99.4
99.2
99.2
99.5
99.5
99.2
99.4
99.5
99.2
99.5
99.5
99.5
99.4
99.2
99.3
99.3
99.3
99.3
25
99.3
99.3
0.12
99.2
99.5
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 7 of 65
Report No. : SQETMP424004
Data Set 1 : 55 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
56.7 °C
55.5 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 1‐4
Chromaticity Shift
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity Shift Δu'v'
0h
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
25
0.0000
0.0000
0.0000
0.0000
0.0000
500 h
0.0009
0.0009
0.0009
0.0007
0.0008
0.0009
0.0008
0.0010
0.0009
0.0008
0.0010
0.0009
0.0010
0.0010
0.0009
0.0011
0.0009
0.0009
0.0009
0.0010
0.0009
0.0009
0.0009
0.0010
0.0011
25
0.0009
0.0009
0.0001
0.0007
0.0011
1000 h
0.0009
0.0010
0.0010
0.0009
0.0009
0.0009
0.0009
0.0010
0.0010
0.0009
0.0010
0.0010
0.0010
0.0010
0.0010
0.0011
0.0009
0.0010
0.0010
0.0010
0.0009
0.0011
0.0010
0.0010
0.0010
25
0.0010
0.0010
0.0000
0.0009
0.0011
2000 h
0.0011
0.0011
0.0011
0.0010
0.0011
0.0011
0.0011
0.0012
0.0011
0.0010
0.0011
0.0012
0.0012
0.0010
0.0011
0.0012
0.0010
0.0011
0.0011
0.0012
0.0012
0.0011
0.0011
0.0012
0.0012
25
0.0011
0.0011
0.0001
0.0010
0.0012
3000 h
0.0013
0.0012
0.0012
0.0011
0.0012
0.0013
0.0013
0.0012
0.0013
0.0010
0.0012
0.0012
0.0012
0.0012
0.0013
0.0014
0.0012
0.0012
0.0013
0.0013
0.0010
0.0013
0.0012
0.0014
0.0013
25
0.0012
0.0012
0.0001
0.0010
0.0014
4000 h
0.0013
0.0012
0.0012
0.0012
0.0012
0.0013
0.0013
0.0013
0.0013
0.0013
0.0012
0.0013
0.0013
0.0011
0.0013
0.0014
0.0012
0.0013
0.0012
0.0013
0.0011
0.0013
0.0013
0.0013
0.0014
25
0.0013
0.0013
0.0001
0.0011
0.0014
5000 h
0.0014
0.0013
0.0013
0.0013
0.0013
0.0014
0.0015
0.0013
0.0015
0.0013
0.0013
0.0014
0.0013
0.0013
0.0014
0.0016
0.0014
0.0014
0.0014
0.0015
0.0014
0.0014
0.0013
0.0015
0.0015
25
0.0014
0.0014
0.0001
0.0013
0.0016
6000 h
0.0017
0.0014
0.0015
0.0015
0.0015
0.0017
0.0017
0.0016
0.0016
0.0015
0.0015
0.0015
0.0016
0.0015
0.0016
0.0018
0.0015
0.0015
0.0015
0.0015
0.0017
0.0017
0.0015
0.0017
0.0017
25
0.0016
0.0015
0.0001
0.0014
0.0018
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 8 of 65
Report No. : SQETMP424004
Data Set 1 : 55 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
56.7 °C
55.5 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 1‐5
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity u'
0h
0.2695
0.2664
0.2664
0.2688
0.2699
0.2691
0.2698
0.2685
0.2695
0.2681
0.2670
0.2679
0.2697
0.2669
0.2672
0.2697
0.2679
0.2690
0.2700
0.2668
0.2660
0.2677
0.2679
0.2686
0.2679
25
0.2682
0.2681
0.0012
0.2660
0.2700
500 h
0.2686
0.2655
0.2655
0.2680
0.2691
0.2682
0.2690
0.2675
0.2686
0.2673
0.2660
0.2670
0.2687
0.2660
0.2663
0.2686
0.2670
0.2682
0.2691
0.2658
0.2651
0.2669
0.2670
0.2676
0.2668
25
0.2673
0.2673
0.0012
0.2651
0.2691
1000 h
0.2685
0.2655
0.2654
0.2679
0.2690
0.2682
0.2689
0.2676
0.2685
0.2672
0.2661
0.2669
0.2687
0.2660
0.2663
0.2687
0.2669
0.2680
0.2691
0.2658
0.2651
0.2666
0.2669
0.2676
0.2669
25
0.2673
0.2672
0.0012
0.2651
0.2691
2000 h
0.2684
0.2654
0.2653
0.2677
0.2688
0.2680
0.2687
0.2673
0.2684
0.2671
0.2659
0.2667
0.2685
0.2659
0.2661
0.2685
0.2669
0.2679
0.2689
0.2656
0.2649
0.2666
0.2668
0.2674
0.2667
25
0.2671
0.2671
0.0012
0.2649
0.2689
3000 h
0.2682
0.2653
0.2652
0.2676
0.2687
0.2678
0.2685
0.2673
0.2682
0.2671
0.2658
0.2667
0.2685
0.2658
0.2660
0.2684
0.2667
0.2678
0.2687
0.2655
0.2650
0.2664
0.2667
0.2672
0.2666
25
0.2670
0.2671
0.0012
0.2650
0.2687
4000 h
0.2682
0.2653
0.2652
0.2676
0.2687
0.2678
0.2685
0.2672
0.2682
0.2669
0.2658
0.2666
0.2684
0.2658
0.2659
0.2684
0.2667
0.2677
0.2689
0.2655
0.2650
0.2664
0.2666
0.2673
0.2666
25
0.2670
0.2669
0.0012
0.2650
0.2689
5000 h
0.2680
0.2652
0.2651
0.2675
0.2686
0.2677
0.2683
0.2672
0.2679
0.2668
0.2657
0.2665
0.2684
0.2657
0.2658
0.2682
0.2665
0.2677
0.2687
0.2653
0.2646
0.2663
0.2666
0.2671
0.2664
25
0.2669
0.2668
0.0012
0.2646
0.2687
6000 h
0.2678
0.2651
0.2649
0.2673
0.2684
0.2674
0.2681
0.2670
0.2679
0.2666
0.2656
0.2664
0.2681
0.2655
0.2657
0.2679
0.2664
0.2676
0.2685
0.2653
0.2644
0.2660
0.2664
0.2669
0.2662
25
0.2667
0.2666
0.0012
0.2644
0.2685
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 9 of 65
Report No. : SQETMP424004
Data Set 1 : 55 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
56.7 °C
55.5 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 1‐6
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity v'
0h
0.5227
0.5219
0.5234
0.5243
0.5219
0.5212
0.5235
0.5242
0.5232
0.5242
0.5238
0.5239
0.5233
0.5224
0.5226
0.5227
0.5233
0.5221
0.5232
0.5232
0.5207
0.5222
0.5214
0.5214
0.5202
25
0.5227
0.5227
0.0011
0.5202
0.5243
500 h
0.5226
0.5217
0.5233
0.5242
0.5218
0.5210
0.5234
0.5241
0.5231
0.5241
0.5237
0.5238
0.5233
0.5223
0.5226
0.5226
0.5232
0.5219
0.5231
0.5232
0.5207
0.5220
0.5213
0.5214
0.5202
25
0.5226
0.5226
0.0011
0.5202
0.5242
1000 h
0.5225
0.5217
0.5233
0.5241
0.5217
0.5211
0.5233
0.5241
0.5231
0.5241
0.5236
0.5238
0.5232
0.5223
0.5226
0.5226
0.5233
0.5220
0.5230
0.5232
0.5206
0.5220
0.5213
0.5213
0.5201
25
0.5226
0.5226
0.0011
0.5201
0.5241
2000 h
0.5226
0.5217
0.5233
0.5241
0.5216
0.5210
0.5233
0.5241
0.5230
0.5241
0.5235
0.5238
0.5233
0.5223
0.5226
0.5226
0.5233
0.5220
0.5230
0.5231
0.5206
0.5220
0.5212
0.5212
0.5202
25
0.5225
0.5226
0.0011
0.5202
0.5241
3000 h
0.5225
0.5217
0.5232
0.5241
0.5217
0.5210
0.5233
0.5240
0.5231
0.5241
0.5236
0.5238
0.5232
0.5222
0.5226
0.5226
0.5233
0.5219
0.5230
0.5231
0.5206
0.5220
0.5212
0.5212
0.5201
25
0.5225
0.5226
0.0011
0.5201
0.5241
4000 h
0.5225
0.5217
0.5232
0.5241
0.5217
0.5210
0.5233
0.5240
0.5230
0.5241
0.5235
0.5238
0.5232
0.5222
0.5225
0.5225
0.5232
0.5220
0.5229
0.5231
0.5206
0.5220
0.5212
0.5212
0.5201
25
0.5225
0.5225
0.0011
0.5201
0.5241
5000 h
0.5224
0.5216
0.5232
0.5241
0.5216
0.5210
0.5233
0.5240
0.5230
0.5240
0.5236
0.5237
0.5232
0.5222
0.5225
0.5225
0.5231
0.5219
0.5229
0.5231
0.5206
0.5219
0.5212
0.5212
0.5200
25
0.5225
0.5225
0.0011
0.5200
0.5241
6000 h
0.5224
0.5216
0.5231
0.5240
0.5215
0.5209
0.5232
0.5239
0.5230
0.5240
0.5235
0.5237
0.5232
0.5221
0.5224
0.5224
0.5231
0.5218
0.5229
0.5230
0.5204
0.5219
0.5212
0.5211
0.5199
25
0.5224
0.5224
0.0011
0.5199
0.5240
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 10 of 65
Report No. : SQETMP424004
Data Set 2 : 55 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
58.4 °C
57.0 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Lumen Maintenance (%)
120
Avg. and Max. ‐ Min.
110
100
90
80
70
60
50
Relative Forward Voltage (%)
0h
1000 h
2000 h
3000 h
4000 h
5000 h
115
6000 h
7000 h
Avg. and Max. ‐ Min.
110
105
100
95
90
85
0h
1000 h
2000 h
3000 h
4000 h
5000 h
Chromaticity Shift (Δu'v')
0.007
6000 h
7000 h
Avg. and Max. ‐ Min.
0.006
0.005
0.004
0.003
0.002
0.001
0.000
0h
1000 h
2000 h
3000 h
4000 h
5000 h
6000 h
u'v'
0.5320
0.5300
Avg.
0.5280
R=0.007
0.5260
R=0.004
0.5220
0.5200
0.5180
0.5160
0.2760
0.2740
0.2720
0.2700
0.2680
0.2660
0.2640
0.2620
0.2600
0.5140
0.2580
v'
0.5240
u'
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
7000 h
Page 11 of 65
Report No. : SQETMP424004
Data Set 2 : 55 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
58.4 °C
57.0 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 2‐1
Initial Characteristics
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
CIE1931
CIE1976
Luminous flux
Forward voltage
CCT
ΦV [lm]
VF [V]
TCP [K]
x
y
u'
v'
114.4
113.9
114.3
114.8
114.8
114.1
115.0
114.4
113.2
114.5
116.3
115.1
114.5
114.1
114.1
114.5
114.3
114.5
114.9
114.3
114.0
115.3
114.9
114.7
115.0
25
114.6
114.5
0.58
113.2
116.3
6.25
6.23
6.24
6.25
6.25
6.25
6.23
6.25
6.24
6.23
6.25
6.23
6.24
6.25
6.25
6.25
6.25
6.25
6.25
6.24
6.21
6.24
6.25
6.25
6.24
25
6.24
6.25
0.008
6.21
6.25
2582
2597
2588
2592
2618
2602
2640
2634
2589
2625
2677
2661
2610
2586
2616
2595
2608
2635
2650
2585
2634
2634
2648
2610
2650
25
2619
2616
26.7
2582
2677
0.465
0.462
0.461
0.464
0.459
0.460
0.458
0.457
0.460
0.459
0.457
0.456
0.460
0.463
0.457
0.463
0.461
0.458
0.457
0.463
0.457
0.459
0.456
0.462
0.457
25
0.460
0.459
0.0026
0.456
0.465
0.405
0.401
0.399
0.404
0.399
0.399
0.400
0.398
0.396
0.400
0.403
0.399
0.400
0.402
0.396
0.403
0.401
0.399
0.399
0.401
0.398
0.401
0.398
0.402
0.400
25
0.400
0.400
0.0023
0.396
0.405
0.269
0.268
0.269
0.268
0.267
0.268
0.266
0.267
0.269
0.267
0.264
0.265
0.268
0.269
0.268
0.268
0.268
0.267
0.266
0.269
0.267
0.266
0.266
0.267
0.266
25
0.267
0.267
0.0012
0.264
0.269
0.526
0.524
0.523
0.525
0.523
0.523
0.523
0.522
0.522
0.523
0.524
0.522
0.523
0.524
0.521
0.525
0.524
0.522
0.522
0.524
0.522
0.524
0.522
0.524
0.523
25
0.523
0.523
0.0012
0.521
0.526
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 12 of 65
Report No. : SQETMP424004
Data Set 2 : 55 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
58.4 °C
57.0 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 2‐2
Lumen Maintenance
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Lumen Maintenance % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
99.4
99.1
99.2
99.3
99.5
99.3
99.2
99.4
99.2
99.0
99.3
99.1
99.2
99.4
99.3
99.3
99.3
99.3
99.3
99.1
98.9
99.2
99.2
99.2
99.2
25
99.2
99.2
0.13
98.9
99.5
1000 h
99.5
99.3
99.2
99.4
99.5
99.5
99.2
99.4
99.4
99.2
99.4
99.2
99.2
99.4
99.3
99.6
99.5
99.3
99.4
99.2
99.1
99.2
99.3
99.3
99.3
25
99.3
99.3
0.14
99.1
99.6
2000 h
99.2
99.1
99.0
99.3
99.2
99.2
99.1
99.2
99.1
99.0
99.3
98.9
98.9
99.2
99.0
99.3
99.2
99.0
99.2
99.1
99.0
99.1
99.2
99.1
99.2
25
99.1
99.1
0.12
98.9
99.3
3000 h
98.9
98.8
98.8
98.9
98.8
98.8
98.6
98.8
98.7
98.6
99.0
98.5
98.5
98.8
98.7
98.8
98.8
98.7
98.9
98.8
98.5
98.6
98.8
98.7
98.8
25
98.7
98.8
0.13
98.5
99.0
4000 h
98.9
98.8
98.7
98.8
98.8
98.6
98.5
98.7
98.7
98.6
98.9
98.4
98.5
98.7
98.6
98.8
98.6
98.6
98.7
98.7
98.5
98.6
98.7
98.7
98.8
25
98.7
98.7
0.13
98.4
98.9
5000 h
98.3
98.2
98.1
98.3
98.2
98.1
97.9
98.1
98.1
98.0
98.3
97.9
97.9
98.1
98.0
98.3
98.2
98.0
98.2
98.1
97.9
98.0
98.2
98.1
98.3
25
98.1
98.1
0.13
97.9
98.3
6000 h
97.8
97.7
97.6
97.7
97.6
97.3
97.0
97.5
97.4
97.5
97.7
97.2
97.3
97.3
97.4
97.4
97.3
97.4
97.5
97.5
97.3
97.4
97.6
97.5
97.7
25
97.5
97.5
0.20
97.0
97.8
TM‐21 Projection
Time
1000 h 2000 h 3000 h 4000 h 5000 h 6000 h
ln(Avg.) ‐0.0066 ‐0.0088 ‐0.0127 ‐0.0133 ‐0.0191 ‐0.0257
Test duration used
B
α
R2
Calculated L70 (6K)
Reported L70 (6K)
1000 h
to
6000 h
0.9983
3.6134E‐06
0.9366
98200
hours
> 36000
hours
Curve‐fit equation:
Φ(t)=Bexp(‐αt)
Lumen maintenance life eqation:
L 70 =ln(B/0.7)/α
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 13 of 65
Report No. : SQETMP424004
Data Set 2 : 55 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
58.4 °C
57.0 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 2‐3
Forward Voltage
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Relative Forward Voltage % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
99.1
99.5
99.0
99.2
99.2
99.1
99.3
99.1
99.1
99.4
99.2
99.2
99.2
99.0
99.1
99.3
99.1
99.1
99.3
99.4
99.4
99.0
99.2
99.1
99.4
25
99.2
99.2
0.13
99.0
99.5
1000 h
99.1
99.4
99.0
99.2
99.2
99.0
99.2
99.0
99.1
99.4
99.2
99.1
99.2
99.0
99.1
99.2
99.1
99.0
99.2
99.3
99.3
98.9
99.1
99.0
99.3
25
99.1
99.1
0.14
98.9
99.4
2000 h
99.2
99.4
99.0
99.2
99.3
99.1
99.3
99.0
99.1
99.4
99.1
99.2
99.2
99.0
99.1
99.2
99.0
99.0
99.3
99.4
99.4
99.0
99.2
99.1
99.4
25
99.2
99.2
0.14
99.0
99.4
3000 h
99.1
99.5
99.1
99.2
99.3
99.1
99.4
99.1
99.1
99.3
99.1
99.1
99.2
99.0
99.1
99.3
99.1
99.1
99.4
99.4
99.5
99.0
99.2
99.0
99.4
25
99.2
99.1
0.16
99.0
99.5
4000 h
99.2
99.5
99.2
99.4
99.5
99.1
99.4
99.2
99.2
99.4
99.2
99.2
99.3
99.0
99.2
99.4
99.2
99.1
99.5
99.5
99.6
99.1
99.3
99.1
99.4
25
99.3
99.2
0.16
99.0
99.6
5000 h
99.1
99.5
99.2
99.3
99.5
99.0
99.4
99.2
99.1
99.5
99.3
99.3
99.2
99.0
99.3
99.4
99.1
99.2
99.6
99.6
99.7
99.1
99.4
99.0
99.3
25
99.3
99.3
0.20
99.0
99.7
6000 h
99.2
99.6
99.3
99.3
99.6
99.1
99.6
99.3
99.2
99.5
99.3
99.2
99.3
99.1
99.5
99.6
99.2
99.4
99.7
99.7
100.1
99.0
99.5
99.1
99.5
25
99.4
99.3
0.25
99.0
100.1
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 14 of 65
Report No. : SQETMP424004
Data Set 2 : 55 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
58.4 °C
57.0 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 2‐4
Chromaticity Shift
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity Shift Δu'v'
0h
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
25
0.0000
0.0000
0.0000
0.0000
0.0000
500 h
0.0010
0.0010
0.0010
0.0010
0.0010
0.0009
0.0010
0.0010
0.0010
0.0010
0.0009
0.0012
0.0011
0.0009
0.0010
0.0011
0.0009
0.0011
0.0010
0.0011
0.0010
0.0010
0.0011
0.0010
0.0010
25
0.0010
0.0010
0.0001
0.0009
0.0012
1000 h
0.0011
0.0009
0.0010
0.0010
0.0011
0.0010
0.0011
0.0011
0.0011
0.0011
0.0010
0.0012
0.0012
0.0011
0.0010
0.0011
0.0011
0.0010
0.0010
0.0011
0.0011
0.0011
0.0012
0.0011
0.0011
25
0.0011
0.0011
0.0001
0.0009
0.0012
2000 h
0.0013
0.0012
0.0013
0.0013
0.0015
0.0012
0.0014
0.0013
0.0015
0.0014
0.0014
0.0015
0.0016
0.0013
0.0013
0.0014
0.0013
0.0014
0.0013
0.0013
0.0013
0.0013
0.0015
0.0014
0.0014
25
0.0014
0.0013
0.0001
0.0012
0.0016
3000 h
0.0016
0.0015
0.0015
0.0015
0.0017
0.0014
0.0016
0.0016
0.0017
0.0016
0.0015
0.0017
0.0017
0.0016
0.0017
0.0016
0.0015
0.0016
0.0016
0.0017
0.0016
0.0016
0.0016
0.0015
0.0016
25
0.0016
0.0016
0.0001
0.0014
0.0017
4000 h
0.0016
0.0015
0.0016
0.0017
0.0018
0.0015
0.0016
0.0016
0.0017
0.0017
0.0017
0.0018
0.0018
0.0018
0.0016
0.0017
0.0015
0.0017
0.0016
0.0017
0.0017
0.0016
0.0016
0.0016
0.0017
25
0.0017
0.0017
0.0001
0.0015
0.0018
5000 h
0.0017
0.0017
0.0018
0.0018
0.0020
0.0017
0.0018
0.0019
0.0020
0.0019
0.0018
0.0020
0.0019
0.0018
0.0018
0.0018
0.0017
0.0019
0.0017
0.0018
0.0017
0.0018
0.0018
0.0018
0.0019
25
0.0018
0.0018
0.0001
0.0017
0.0020
6000 h
0.0020
0.0020
0.0019
0.0020
0.0023
0.0020
0.0021
0.0021
0.0022
0.0021
0.0021
0.0022
0.0022
0.0022
0.0020
0.0021
0.0019
0.0021
0.0019
0.0021
0.0019
0.0021
0.0019
0.0021
0.0021
25
0.0021
0.0021
0.0001
0.0019
0.0023
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 15 of 65
Report No. : SQETMP424004
Data Set 2 : 55 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
58.4 °C
57.0 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 2‐5
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity u'
0h
0.2695
0.2690
0.2696
0.2691
0.2682
0.2690
0.2671
0.2674
0.2698
0.2678
0.2649
0.2662
0.2685
0.2695
0.2685
0.2691
0.2685
0.2673
0.2666
0.2696
0.2674
0.2672
0.2668
0.2683
0.2666
25
0.2681
0.2683
0.0013
0.2649
0.2698
500 h
0.2686
0.2681
0.2686
0.2680
0.2673
0.2681
0.2662
0.2664
0.2688
0.2668
0.2640
0.2651
0.2674
0.2686
0.2675
0.2680
0.2676
0.2663
0.2656
0.2684
0.2664
0.2662
0.2657
0.2672
0.2656
25
0.2671
0.2673
0.0013
0.2640
0.2688
1000 h
0.2685
0.2681
0.2686
0.2681
0.2672
0.2679
0.2661
0.2664
0.2687
0.2667
0.2639
0.2650
0.2673
0.2684
0.2675
0.2679
0.2675
0.2663
0.2656
0.2684
0.2663
0.2661
0.2656
0.2672
0.2655
25
0.2670
0.2672
0.0013
0.2639
0.2687
2000 h
0.2682
0.2678
0.2683
0.2677
0.2668
0.2677
0.2658
0.2661
0.2684
0.2664
0.2635
0.2648
0.2669
0.2682
0.2672
0.2677
0.2673
0.2659
0.2653
0.2682
0.2661
0.2659
0.2653
0.2668
0.2652
25
0.2667
0.2668
0.0013
0.2635
0.2684
3000 h
0.2679
0.2676
0.2681
0.2675
0.2665
0.2676
0.2656
0.2658
0.2682
0.2662
0.2633
0.2646
0.2667
0.2679
0.2669
0.2674
0.2670
0.2657
0.2651
0.2679
0.2658
0.2656
0.2651
0.2668
0.2651
25
0.2665
0.2667
0.0013
0.2633
0.2682
4000 h
0.2680
0.2675
0.2680
0.2674
0.2665
0.2675
0.2656
0.2658
0.2681
0.2661
0.2632
0.2645
0.2667
0.2677
0.2669
0.2673
0.2670
0.2657
0.2650
0.2679
0.2657
0.2656
0.2651
0.2666
0.2650
25
0.2664
0.2666
0.0013
0.2632
0.2681
5000 h
0.2678
0.2674
0.2678
0.2673
0.2662
0.2673
0.2653
0.2656
0.2679
0.2659
0.2631
0.2642
0.2666
0.2676
0.2667
0.2673
0.2669
0.2655
0.2649
0.2678
0.2657
0.2654
0.2649
0.2665
0.2648
25
0.2662
0.2665
0.0013
0.2631
0.2679
6000 h
0.2676
0.2671
0.2677
0.2671
0.2660
0.2670
0.2651
0.2653
0.2677
0.2657
0.2628
0.2640
0.2663
0.2673
0.2665
0.2670
0.2666
0.2653
0.2648
0.2675
0.2655
0.2651
0.2649
0.2662
0.2645
25
0.2660
0.2662
0.0013
0.2628
0.2677
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 16 of 65
Report No. : SQETMP424004
Data Set 2 : 55 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
58.4 °C
57.0 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 2‐6
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity v'
0h
0.5260
0.5238
0.5229
0.5254
0.5228
0.5228
0.5230
0.5221
0.5218
0.5230
0.5238
0.5221
0.5229
0.5243
0.5209
0.5248
0.5239
0.5224
0.5222
0.5242
0.5221
0.5236
0.5216
0.5244
0.5229
25
0.5232
0.5229
0.0012
0.5209
0.5260
500 h
0.5259
0.5237
0.5228
0.5253
0.5226
0.5227
0.5228
0.5219
0.5216
0.5229
0.5237
0.5220
0.5229
0.5242
0.5209
0.5247
0.5238
0.5223
0.5220
0.5241
0.5220
0.5235
0.5215
0.5243
0.5227
25
0.5231
0.5228
0.0012
0.5209
0.5259
1000 h
0.5259
0.5237
0.5228
0.5253
0.5226
0.5226
0.5229
0.5219
0.5216
0.5228
0.5237
0.5220
0.5228
0.5242
0.5209
0.5247
0.5238
0.5222
0.5220
0.5241
0.5220
0.5236
0.5215
0.5243
0.5227
25
0.5231
0.5228
0.0012
0.5209
0.5259
2000 h
0.5259
0.5236
0.5228
0.5252
0.5225
0.5225
0.5228
0.5219
0.5215
0.5228
0.5237
0.5219
0.5227
0.5242
0.5208
0.5246
0.5237
0.5222
0.5220
0.5240
0.5219
0.5235
0.5214
0.5242
0.5226
25
0.5230
0.5228
0.0012
0.5208
0.5259
3000 h
0.5259
0.5237
0.5227
0.5252
0.5225
0.5226
0.5228
0.5218
0.5215
0.5228
0.5236
0.5219
0.5227
0.5241
0.5208
0.5247
0.5238
0.5221
0.5220
0.5241
0.5219
0.5235
0.5215
0.5242
0.5227
25
0.5230
0.5227
0.0013
0.5208
0.5259
4000 h
0.5259
0.5237
0.5227
0.5252
0.5225
0.5226
0.5227
0.5219
0.5215
0.5228
0.5237
0.5219
0.5227
0.5241
0.5208
0.5247
0.5238
0.5222
0.5220
0.5240
0.5218
0.5233
0.5214
0.5242
0.5226
25
0.5230
0.5227
0.0012
0.5208
0.5259
5000 h
0.5259
0.5236
0.5227
0.5252
0.5225
0.5225
0.5228
0.5218
0.5215
0.5228
0.5236
0.5220
0.5227
0.5241
0.5207
0.5246
0.5237
0.5222
0.5220
0.5240
0.5218
0.5234
0.5214
0.5242
0.5226
25
0.5230
0.5227
0.0013
0.5207
0.5259
6000 h
0.5259
0.5235
0.5227
0.5251
0.5225
0.5225
0.5227
0.5218
0.5214
0.5227
0.5235
0.5218
0.5226
0.5240
0.5207
0.5246
0.5237
0.5221
0.5219
0.5240
0.5218
0.5234
0.5214
0.5242
0.5225
25
0.5229
0.5227
0.0013
0.5207
0.5259
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 17 of 65
Report No. : SQETMP424004
Data Set 3 : 55 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
59.9 °C
58.7 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Lumen Maintenance (%)
120
Avg. and Max. ‐ Min.
110
100
90
80
70
60
50
Relative Forward Voltage (%)
0h
1000 h
2000 h
3000 h
4000 h
5000 h
115
6000 h
7000 h
Avg. and Max. ‐ Min.
110
105
100
95
90
85
0h
1000 h
2000 h
3000 h
4000 h
5000 h
Chromaticity Shift (Δu'v')
0.007
6000 h
7000 h
Avg. and Max. ‐ Min.
0.006
0.005
0.004
0.003
0.002
0.001
0.000
0h
1000 h
2000 h
3000 h
4000 h
5000 h
6000 h
u'v'
0.5320
0.5300
Avg.
0.5280
R=0.007
0.5260
R=0.004
0.5220
0.5200
0.5180
0.5160
0.2760
0.2740
0.2720
0.2700
0.2680
0.2660
0.2640
0.2620
0.2600
0.5140
0.2580
v'
0.5240
u'
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
7000 h
Page 18 of 65
Report No. : SQETMP424004
Data Set 3 : 55 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
59.9 °C
58.7 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 3‐1
Initial Characteristics
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
CIE1931
CIE1976
Luminous flux
Forward voltage
CCT
ΦV [lm]
VF [V]
TCP [K]
x
y
u'
v'
147.3
147.7
145.8
147.1
145.6
145.8
146.8
147.6
147.1
146.1
148.4
146.7
148.9
147.7
146.7
146.3
147.3
144.9
146.5
146.5
148.5
146.8
146.2
147.5
147.3
25
146.9
146.8
0.94
144.9
148.9
6.51
6.50
6.50
6.50
6.50
6.50
6.49
6.49
6.51
6.49
6.50
6.50
6.49
6.49
6.50
6.50
6.50
6.50
6.51
6.50
6.50
6.50
6.48
6.50
6.50
25
6.50
6.50
0.007
6.48
6.51
2613
2666
2605
2618
2586
2591
2607
2597
2606
2602
2678
2628
2662
2649
2603
2617
2605
2594
2582
2590
2650
2633
2613
2617
2629
25
2618
2613
25.9
2582
2678
0.461
0.456
0.459
0.460
0.460
0.461
0.460
0.463
0.462
0.461
0.455
0.458
0.458
0.457
0.461
0.458
0.462
0.458
0.463
0.462
0.459
0.458
0.459
0.460
0.459
25
0.460
0.460
0.0021
0.455
0.463
0.401
0.400
0.397
0.400
0.397
0.399
0.400
0.403
0.403
0.399
0.399
0.398
0.402
0.399
0.400
0.397
0.403
0.394
0.401
0.401
0.403
0.399
0.399
0.400
0.401
25
0.400
0.400
0.0022
0.394
0.403
0.267
0.265
0.268
0.267
0.269
0.269
0.268
0.268
0.268
0.268
0.265
0.267
0.265
0.266
0.268
0.268
0.268
0.269
0.269
0.269
0.266
0.267
0.268
0.267
0.267
25
0.267
0.268
0.0013
0.265
0.269
0.524
0.523
0.522
0.523
0.522
0.523
0.523
0.525
0.525
0.523
0.522
0.522
0.524
0.522
0.524
0.522
0.525
0.521
0.524
0.524
0.524
0.523
0.523
0.523
0.523
25
0.523
0.523
0.0011
0.521
0.525
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 19 of 65
Report No. : SQETMP424004
Data Set 3 : 55 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
59.9 °C
58.7 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 3‐2
Lumen Maintenance
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Lumen Maintenance % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
99.2
99.2
99.3
99.1
99.2
99.3
99.0
99.2
99.3
99.0
99.2
99.1
99.3
99.1
99.3
99.2
99.1
99.3
99.4
99.2
99.3
99.5
99.1
99.3
99.3
25
99.2
99.2
0.13
99.0
99.5
1000 h
99.2
99.1
99.3
99.1
99.3
99.3
99.0
99.1
99.3
98.8
99.1
99.0
99.3
99.1
99.2
99.2
99.2
99.1
99.3
99.2
99.2
99.5
99.0
99.1
99.2
25
99.2
99.2
0.14
98.8
99.5
2000 h
98.7
98.6
98.8
98.5
98.6
98.8
98.5
98.7
98.8
98.2
98.5
98.5
98.9
98.6
98.8
98.6
98.7
98.6
98.8
98.7
98.7
98.9
98.4
98.6
98.7
25
98.6
98.7
0.15
98.2
98.9
3000 h
98.3
98.3
98.5
98.1
98.3
98.4
98.2
98.4
98.4
97.9
98.2
98.2
98.6
98.3
98.4
98.3
98.3
98.3
98.4
98.3
98.4
98.6
98.0
98.3
98.4
25
98.3
98.3
0.16
97.9
98.6
4000 h
98.3
98.2
98.4
98.0
98.2
98.2
98.0
98.3
98.2
97.8
98.1
98.1
98.4
98.2
98.3
98.2
98.2
98.1
98.2
98.3
98.3
98.5
97.9
98.2
98.3
25
98.2
98.2
0.15
97.8
98.5
5000 h
97.6
97.6
97.8
97.4
97.7
97.6
97.4
97.6
97.7
97.0
97.5
97.5
97.8
97.5
97.6
97.5
97.3
97.5
97.5
97.5
97.5
97.5
97.1
97.4
97.6
25
97.5
97.5
0.19
97.0
97.8
6000 h
96.7
96.4
96.9
96.5
96.8
96.6
96.3
96.7
96.7
95.9
96.3
96.3
96.8
96.4
96.4
96.2
95.9
96.4
96.4
96.6
96.5
96.5
96.1
96.5
96.6
25
96.5
96.5
0.26
95.9
96.9
TM‐21 Projection
Time
1000 h 2000 h 3000 h 4000 h 5000 h 6000 h
ln(Avg.) ‐0.0085 ‐0.0136 ‐0.0170 ‐0.0182 ‐0.0253 ‐0.0360
Test duration used
B
α
R2
Calculated L70 (6K)
Reported L70 (6K)
1000 h
to
6000 h
0.9976
4.9721E‐06
0.9188
71300
hours
> 36000
hours
Curve‐fit equation:
Φ(t)=Bexp(‐αt)
Lumen maintenance life eqation:
L 70 =ln(B/0.7)/α
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 20 of 65
Report No. : SQETMP424004
Data Set 3 : 55 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
59.9 °C
58.7 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 3‐3
Forward Voltage
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Relative Forward Voltage % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
99.1
99.0
98.9
99.1
99.1
99.0
99.2
99.1
99.0
99.2
99.0
99.0
99.0
99.0
98.9
99.0
98.9
98.9
99.0
99.2
99.0
99.1
99.2
98.9
98.9
25
99.0
99.0
0.10
98.9
99.2
1000 h
99.1
99.0
98.9
99.1
99.0
98.9
99.3
99.0
99.0
99.2
98.9
98.9
98.9
99.1
98.9
99.0
98.9
98.8
99.0
99.2
99.0
99.1
99.2
98.9
98.9
25
99.0
99.0
0.12
98.8
99.3
2000 h
99.1
99.0
98.9
99.1
99.0
99.0
99.2
99.1
99.0
99.3
98.9
99.0
98.9
99.0
98.9
98.9
98.8
98.9
99.0
99.3
99.0
99.2
99.2
98.9
98.9
25
99.0
99.0
0.12
98.8
99.3
3000 h
99.3
99.0
98.9
99.2
99.1
99.0
99.2
99.1
99.2
99.4
99.0
99.0
99.0
99.1
98.9
99.0
99.0
99.0
99.2
99.5
99.1
99.5
99.3
98.9
99.0
25
99.1
99.1
0.17
98.9
99.5
4000 h
99.5
99.0
99.0
99.3
99.2
99.1
99.3
99.2
99.5
99.6
99.0
99.1
99.1
99.1
99.0
99.1
99.2
99.1
99.5
99.9
99.2
99.9
99.3
99.0
99.0
25
99.2
99.2
0.27
99.0
99.9
5000 h
99.9
99.0
99.0
99.5
99.2
99.0
99.3
99.2
99.7
100.0
99.0
99.0
99.1
99.1
99.0
99.0
99.4
99.1
99.8
100.5
99.3
100.6
99.3
99.0
99.0
25
99.4
99.2
0.46
99.0
100.6
6000 h
100.4
99.1
99.0
99.9
99.2
99.2
99.3
99.3
100.3
100.6
99.1
99.1
99.1
99.2
99.0
99.0
99.7
99.3
100.3
101.3
99.3
101.9
99.3
99.0
99.1
25
99.6
99.3
0.78
99.0
101.9
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 21 of 65
Report No. : SQETMP424004
Data Set 3 : 55 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
59.9 °C
58.7 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 3‐4
Chromaticity Shift
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity Shift Δu'v'
0h
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
25
0.0000
0.0000
0.0000
0.0000
0.0000
500 h
0.0010
0.0012
0.0010
0.0010
0.0011
0.0011
0.0010
0.0010
0.0012
0.0012
0.0011
0.0011
0.0010
0.0011
0.0012
0.0011
0.0011
0.0011
0.0011
0.0011
0.0011
0.0010
0.0012
0.0012
0.0011
25
0.0011
0.0011
0.0001
0.0010
0.0012
1000 h
0.0011
0.0012
0.0012
0.0011
0.0013
0.0012
0.0011
0.0012
0.0014
0.0013
0.0013
0.0012
0.0011
0.0012
0.0012
0.0012
0.0011
0.0012
0.0011
0.0011
0.0011
0.0011
0.0013
0.0011
0.0012
25
0.0012
0.0012
0.0001
0.0011
0.0014
2000 h
0.0015
0.0016
0.0015
0.0016
0.0016
0.0015
0.0015
0.0014
0.0017
0.0017
0.0017
0.0016
0.0015
0.0015
0.0018
0.0016
0.0015
0.0017
0.0016
0.0016
0.0015
0.0014
0.0018
0.0017
0.0017
25
0.0016
0.0016
0.0001
0.0014
0.0018
3000 h
0.0018
0.0019
0.0019
0.0018
0.0020
0.0019
0.0018
0.0018
0.0020
0.0020
0.0019
0.0020
0.0018
0.0019
0.0020
0.0019
0.0019
0.0019
0.0018
0.0018
0.0019
0.0018
0.0020
0.0019
0.0019
25
0.0019
0.0019
0.0001
0.0018
0.0020
4000 h
0.0018
0.0020
0.0019
0.0018
0.0020
0.0019
0.0020
0.0019
0.0021
0.0021
0.0021
0.0020
0.0019
0.0019
0.0020
0.0019
0.0019
0.0021
0.0019
0.0019
0.0021
0.0019
0.0021
0.0021
0.0020
25
0.0020
0.0020
0.0001
0.0018
0.0021
5000 h
0.0021
0.0022
0.0021
0.0021
0.0023
0.0022
0.0022
0.0020
0.0023
0.0023
0.0022
0.0021
0.0020
0.0021
0.0022
0.0022
0.0021
0.0023
0.0021
0.0020
0.0023
0.0021
0.0022
0.0022
0.0022
25
0.0022
0.0022
0.0001
0.0020
0.0023
6000 h
0.0024
0.0025
0.0025
0.0024
0.0026
0.0024
0.0024
0.0022
0.0026
0.0025
0.0024
0.0026
0.0023
0.0025
0.0025
0.0025
0.0024
0.0025
0.0024
0.0024
0.0024
0.0025
0.0026
0.0025
0.0025
25
0.0025
0.0025
0.0001
0.0022
0.0026
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 22 of 65
Report No. : SQETMP424004
Data Set 3 : 55 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
59.9 °C
58.7 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 3‐5
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity u'
0h
0.2681
0.2658
0.2690
0.2680
0.2698
0.2694
0.2687
0.2687
0.2684
0.2688
0.2650
0.2675
0.2655
0.2665
0.2687
0.2684
0.2684
0.2696
0.2695
0.2692
0.2663
0.2672
0.2684
0.2681
0.2675
25
0.2680
0.2684
0.0013
0.2650
0.2698
500 h
0.2671
0.2647
0.2680
0.2670
0.2687
0.2683
0.2677
0.2677
0.2673
0.2677
0.2639
0.2664
0.2646
0.2654
0.2676
0.2673
0.2673
0.2686
0.2684
0.2682
0.2651
0.2662
0.2672
0.2669
0.2664
25
0.2669
0.2673
0.0013
0.2639
0.2687
1000 h
0.2670
0.2646
0.2678
0.2669
0.2685
0.2682
0.2676
0.2676
0.2671
0.2676
0.2637
0.2663
0.2645
0.2653
0.2675
0.2672
0.2672
0.2684
0.2684
0.2681
0.2652
0.2662
0.2671
0.2670
0.2663
25
0.2669
0.2671
0.0013
0.2637
0.2685
2000 h
0.2666
0.2642
0.2674
0.2665
0.2682
0.2679
0.2673
0.2673
0.2667
0.2672
0.2633
0.2659
0.2641
0.2650
0.2669
0.2668
0.2668
0.2679
0.2680
0.2677
0.2647
0.2658
0.2666
0.2664
0.2658
25
0.2664
0.2667
0.0013
0.2633
0.2682
3000 h
0.2663
0.2639
0.2671
0.2662
0.2678
0.2675
0.2669
0.2669
0.2664
0.2669
0.2631
0.2655
0.2637
0.2646
0.2668
0.2665
0.2665
0.2677
0.2677
0.2675
0.2644
0.2655
0.2664
0.2662
0.2656
25
0.2661
0.2664
0.0013
0.2631
0.2678
4000 h
0.2663
0.2638
0.2671
0.2662
0.2678
0.2675
0.2668
0.2669
0.2664
0.2668
0.2630
0.2656
0.2636
0.2646
0.2667
0.2664
0.2664
0.2676
0.2676
0.2673
0.2642
0.2654
0.2663
0.2660
0.2655
25
0.2661
0.2664
0.0013
0.2630
0.2678
5000 h
0.2661
0.2637
0.2668
0.2659
0.2675
0.2672
0.2666
0.2667
0.2662
0.2666
0.2628
0.2654
0.2635
0.2644
0.2665
0.2661
0.2662
0.2674
0.2674
0.2672
0.2640
0.2652
0.2662
0.2658
0.2653
25
0.2659
0.2662
0.0013
0.2628
0.2675
6000 h
0.2658
0.2633
0.2665
0.2656
0.2673
0.2670
0.2663
0.2666
0.2659
0.2664
0.2626
0.2650
0.2632
0.2640
0.2662
0.2659
0.2659
0.2671
0.2672
0.2668
0.2638
0.2648
0.2658
0.2656
0.2650
25
0.2656
0.2659
0.0013
0.2626
0.2673
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 23 of 65
Report No. : SQETMP424004
Data Set 3 : 55 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
59.9 °C
58.7 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 3‐6
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity v'
0h
0.5239
0.5225
0.5216
0.5235
0.5221
0.5230
0.5232
0.5251
0.5248
0.5231
0.5222
0.5222
0.5237
0.5225
0.5234
0.5220
0.5247
0.5206
0.5244
0.5238
0.5243
0.5228
0.5226
0.5233
0.5233
25
0.5231
0.5232
0.0011
0.5206
0.5251
500 h
0.5237
0.5225
0.5215
0.5233
0.5219
0.5229
0.5230
0.5250
0.5246
0.5229
0.5221
0.5221
0.5236
0.5223
0.5233
0.5219
0.5245
0.5204
0.5243
0.5237
0.5241
0.5227
0.5225
0.5231
0.5232
25
0.5230
0.5230
0.0011
0.5204
0.5250
1000 h
0.5237
0.5225
0.5215
0.5233
0.5220
0.5229
0.5230
0.5250
0.5246
0.5228
0.5220
0.5220
0.5236
0.5223
0.5233
0.5218
0.5245
0.5204
0.5243
0.5236
0.5241
0.5227
0.5224
0.5230
0.5231
25
0.5230
0.5230
0.0011
0.5204
0.5250
2000 h
0.5236
0.5224
0.5215
0.5232
0.5218
0.5228
0.5230
0.5249
0.5246
0.5227
0.5219
0.5220
0.5235
0.5222
0.5232
0.5218
0.5245
0.5204
0.5242
0.5235
0.5240
0.5226
0.5223
0.5230
0.5231
25
0.5229
0.5230
0.0011
0.5204
0.5249
3000 h
0.5236
0.5224
0.5215
0.5232
0.5219
0.5229
0.5230
0.5250
0.5246
0.5227
0.5219
0.5220
0.5235
0.5221
0.5232
0.5218
0.5244
0.5204
0.5242
0.5234
0.5241
0.5226
0.5224
0.5231
0.5231
25
0.5229
0.5230
0.0011
0.5204
0.5250
4000 h
0.5237
0.5224
0.5215
0.5232
0.5219
0.5229
0.5231
0.5250
0.5246
0.5228
0.5219
0.5220
0.5235
0.5222
0.5233
0.5219
0.5245
0.5204
0.5243
0.5236
0.5241
0.5225
0.5224
0.5231
0.5231
25
0.5230
0.5231
0.0011
0.5204
0.5250
5000 h
0.5236
0.5224
0.5215
0.5232
0.5219
0.5229
0.5230
0.5252
0.5246
0.5227
0.5220
0.5220
0.5236
0.5223
0.5233
0.5219
0.5245
0.5204
0.5242
0.5235
0.5240
0.5225
0.5224
0.5231
0.5231
25
0.5229
0.5230
0.0011
0.5204
0.5252
6000 h
0.5236
0.5224
0.5214
0.5231
0.5219
0.5228
0.5230
0.5250
0.5246
0.5225
0.5218
0.5219
0.5234
0.5221
0.5232
0.5217
0.5244
0.5203
0.5241
0.5234
0.5240
0.5223
0.5223
0.5230
0.5231
25
0.5229
0.5230
0.0011
0.5203
0.5250
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 24 of 65
Report No. : SQETMP424004
Data Set 4 : 85 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
85.8 °C
83.6 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Lumen Maintenance (%)
120
Avg. and Max. ‐ Min.
110
100
90
80
70
60
50
Relative Forward Voltage (%)
0h
1000 h
2000 h
3000 h
4000 h
5000 h
115
6000 h
7000 h
Avg. and Max. ‐ Min.
110
105
100
95
90
85
0h
1000 h
2000 h
3000 h
4000 h
5000 h
Chromaticity Shift (Δu'v')
0.007
6000 h
7000 h
Avg. and Max. ‐ Min.
0.006
0.005
0.004
0.003
0.002
0.001
0.000
0h
1000 h
2000 h
3000 h
4000 h
5000 h
6000 h
u'v'
0.5320
0.5300
Avg.
0.5280
R=0.007
0.5260
R=0.004
0.5220
0.5200
0.5180
0.5160
0.2760
0.2740
0.2720
0.2700
0.2680
0.2660
0.2640
0.2620
0.2600
0.5140
0.2580
v'
0.5240
u'
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
7000 h
Page 25 of 65
Report No. : SQETMP424004
Data Set 4 : 85 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
85.8 °C
83.6 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 4‐1
Initial Characteristics
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
CIE1931
CIE1976
Luminous flux
Forward voltage
CCT
ΦV [lm]
VF [V]
TCP [K]
x
y
u'
v'
80.1
80.4
79.7
80.8
80.0
79.7
80.0
79.8
79.9
79.8
79.4
79.8
81.0
79.6
79.3
80.4
79.5
80.0
80.1
79.5
80.6
79.7
79.8
80.1
79.5
25
79.9
79.8
0.43
79.3
81.0
5.96
5.96
5.97
5.97
5.96
5.98
5.97
5.97
5.96
5.97
5.96
5.96
5.97
5.97
5.96
5.97
5.98
5.96
5.97
5.96
5.97
5.97
5.95
5.97
5.95
25
5.96
5.97
0.008
5.95
5.98
2608
2677
2594
2642
2582
2589
2638
2586
2593
2581
2606
2587
2684
2601
2591
2615
2600
2599
2616
2581
2673
2609
2592
2646
2619
25
2612
2601
30.7
2581
2684
0.461
0.455
0.460
0.460
0.464
0.462
0.456
0.462
0.463
0.465
0.460
0.462
0.455
0.461
0.461
0.460
0.460
0.462
0.459
0.462
0.456
0.459
0.462
0.457
0.460
25
0.460
0.460
0.0026
0.455
0.465
0.400
0.398
0.397
0.403
0.402
0.401
0.397
0.399
0.402
0.404
0.399
0.401
0.400
0.400
0.398
0.400
0.399
0.401
0.399
0.398
0.400
0.398
0.400
0.398
0.401
25
0.400
0.400
0.0018
0.397
0.404
0.268
0.265
0.269
0.266
0.269
0.269
0.267
0.269
0.268
0.269
0.268
0.269
0.264
0.268
0.269
0.267
0.268
0.268
0.267
0.269
0.265
0.268
0.268
0.266
0.267
25
0.268
0.268
0.0014
0.264
0.269
0.523
0.522
0.522
0.525
0.525
0.524
0.521
0.523
0.524
0.526
0.523
0.524
0.522
0.523
0.523
0.523
0.523
0.524
0.523
0.523
0.523
0.522
0.524
0.522
0.524
25
0.523
0.523
0.0010
0.521
0.526
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 26 of 65
Report No. : SQETMP424004
Data Set 4 : 85 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
85.8 °C
83.6 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 4‐2
Lumen Maintenance
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Lumen Maintenance % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
99.1
99.1
99.1
99.1
98.9
99.3
99.1
99.0
98.9
99.5
99.2
98.9
99.0
98.7
98.7
98.9
99.2
99.0
98.9
98.8
98.9
99.0
98.6
99.1
98.5
25
99.0
99.0
0.22
98.5
99.5
1000 h
98.9
98.9
98.8
98.9
98.8
99.2
98.9
98.8
98.7
99.2
99.3
98.8
99.0
98.7
98.7
98.7
99.1
98.9
98.8
98.7
98.9
98.9
98.6
99.0
98.5
25
98.9
98.9
0.19
98.5
99.3
2000 h
98.7
98.4
98.5
98.6
98.4
98.4
98.6
98.5
98.2
99.1
99.1
98.5
98.8
98.4
98.3
98.4
98.9
98.6
98.6
98.6
98.1
98.6
98.3
98.7
98.1
25
98.5
98.5
0.26
98.1
99.1
3000 h
97.8
97.2
97.8
97.8
97.8
97.5
97.7
97.6
97.2
98.7
98.4
97.4
97.8
97.6
97.7
97.4
98.0
97.7
97.5
97.8
96.8
97.9
97.5
97.9
97.3
25
97.7
97.7
0.38
96.8
98.7
4000 h
97.2
96.4
97.1
97.2
97.1
96.5
97.1
97.1
96.3
98.1
97.9
96.7
97.1
97.1
97.0
96.4
97.2
97.0
96.7
97.0
95.8
97.5
96.9
97.4
96.7
25
97.0
97.1
0.49
95.8
98.1
5000 h
96.5
95.4
96.6
96.7
96.5
95.1
96.5
96.5
95.2
97.5
97.1
95.8
96.2
96.3
96.2
95.5
96.3
96.2
95.7
96.2
94.3
96.8
96.4
96.9
96.3
25
96.2
96.3
0.69
94.3
97.5
6000 h
95.8
94.2
95.9
96.0
95.7
93.3
95.8
95.8
93.8
96.7
96.4
95.0
95.4
95.4
95.4
94.5
95.2
95.3
94.9
95.5
92.6
96.0
95.3
95.9
95.3
25
95.2
95.4
0.94
92.6
96.7
TM‐21 Projection
Time
1000 h 2000 h 3000 h 4000 h 5000 h 6000 h
ln(Avg.) ‐0.0114 ‐0.0148 ‐0.0235 ‐0.0307 ‐0.0388 ‐0.0488
Test duration used
B
α
R2
Calculated L70 (6K)
Reported L70 (6K)
1000 h
to
6000 h
0.9986
7.6039E‐06
0.9861
46700
hours
> 36000
hours
Curve‐fit equation:
Φ(t)=Bexp(‐αt)
Lumen maintenance life eqation:
L 70 =ln(B/0.7)/α
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 27 of 65
Report No. : SQETMP424004
Data Set 4 : 85 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
85.8 °C
83.6 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 4‐3
Forward Voltage
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Relative Forward Voltage % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
99.3
99.3
99.4
99.3
99.4
99.4
99.3
99.2
99.4
99.3
99.4
99.4
99.3
99.4
99.4
99.3
99.3
99.3
99.3
99.3
99.3
99.2
99.3
99.2
99.4
25
99.3
99.3
0.06
99.2
99.4
1000 h
99.4
99.3
99.3
99.3
99.3
99.3
99.2
99.2
99.3
99.3
99.5
99.4
99.4
99.4
99.5
99.3
99.4
99.4
99.3
99.4
99.3
99.3
99.3
99.2
99.5
25
99.3
99.3
0.07
99.2
99.5
2000 h
99.2
99.3
99.4
99.4
99.4
99.4
99.2
99.3
99.4
99.4
99.5
99.5
99.3
99.4
99.4
99.3
99.4
99.4
99.3
99.4
99.4
99.3
99.3
99.2
99.5
25
99.4
99.4
0.07
99.2
99.5
3000 h
99.3
99.3
99.4
99.5
99.4
99.6
99.4
99.4
99.4
99.6
99.4
99.6
99.4
99.5
99.4
99.4
99.6
99.3
99.3
99.4
99.4
99.4
99.4
99.3
99.6
25
99.4
99.4
0.09
99.3
99.6
4000 h
99.4
99.4
99.5
99.4
99.6
99.8
99.4
99.5
99.5
99.7
99.7
99.5
99.5
99.8
99.5
99.4
99.8
99.5
99.5
99.5
99.4
99.6
99.6
99.3
99.7
25
99.5
99.5
0.15
99.3
99.8
5000 h
99.4
99.4
99.5
99.5
99.6
100.2
99.4
99.7
99.5
99.9
99.8
99.6
99.5
100.1
99.6
99.4
100.4
99.5
99.6
99.5
99.4
99.8
99.9
99.4
99.8
25
99.7
99.6
0.28
99.4
100.4
6000 h
99.4
99.4
99.5
99.5
99.6
101.3
99.4
100.0
99.5
100.5
100.1
99.6
99.7
100.4
99.7
99.5
101.4
99.5
99.8
99.5
99.4
100.0
100.0
99.4
100.0
25
99.8
99.6
0.55
99.4
101.4
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 28 of 65
Report No. : SQETMP424004
Data Set 4 : 85 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
85.8 °C
83.6 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 4‐4
Chromaticity Shift
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity Shift Δu'v'
0h
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
25
0.0000
0.0000
0.0000
0.0000
0.0000
500 h
0.0011
0.0010
0.0012
0.0011
0.0010
0.0012
0.0011
0.0013
0.0010
0.0010
0.0010
0.0011
0.0010
0.0011
0.0009
0.0010
0.0011
0.0010
0.0009
0.0011
0.0011
0.0010
0.0011
0.0010
0.0011
25
0.0011
0.0011
0.0001
0.0009
0.0013
1000 h
0.0011
0.0011
0.0013
0.0012
0.0012
0.0012
0.0013
0.0013
0.0011
0.0011
0.0012
0.0012
0.0012
0.0013
0.0012
0.0012
0.0012
0.0011
0.0010
0.0012
0.0013
0.0011
0.0012
0.0012
0.0012
25
0.0012
0.0012
0.0001
0.0010
0.0013
2000 h
0.0015
0.0015
0.0014
0.0014
0.0014
0.0014
0.0015
0.0015
0.0013
0.0014
0.0014
0.0015
0.0015
0.0015
0.0015
0.0014
0.0015
0.0013
0.0012
0.0014
0.0016
0.0014
0.0015
0.0015
0.0014
25
0.0014
0.0014
0.0001
0.0012
0.0016
3000 h
0.0017
0.0016
0.0017
0.0014
0.0015
0.0017
0.0015
0.0017
0.0015
0.0014
0.0015
0.0017
0.0016
0.0016
0.0016
0.0015
0.0017
0.0015
0.0014
0.0016
0.0018
0.0014
0.0016
0.0016
0.0016
25
0.0016
0.0016
0.0001
0.0014
0.0018
4000 h
0.0015
0.0016
0.0018
0.0015
0.0016
0.0017
0.0017
0.0016
0.0016
0.0015
0.0016
0.0016
0.0016
0.0016
0.0016
0.0015
0.0017
0.0015
0.0015
0.0016
0.0017
0.0015
0.0016
0.0016
0.0016
25
0.0016
0.0016
0.0001
0.0015
0.0018
5000 h
0.0017
0.0017
0.0018
0.0016
0.0017
0.0018
0.0016
0.0018
0.0017
0.0017
0.0017
0.0017
0.0018
0.0017
0.0018
0.0017
0.0016
0.0016
0.0015
0.0018
0.0018
0.0016
0.0017
0.0018
0.0017
25
0.0017
0.0017
0.0001
0.0015
0.0018
6000 h
0.0020
0.0020
0.0020
0.0019
0.0020
0.0021
0.0020
0.0020
0.0021
0.0019
0.0019
0.0018
0.0019
0.0019
0.0020
0.0019
0.0018
0.0018
0.0018
0.0019
0.0021
0.0018
0.0020
0.0021
0.0020
25
0.0019
0.0020
0.0001
0.0018
0.0021
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 29 of 65
Report No. : SQETMP424004
Data Set 4 : 85 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
85.8 °C
83.6 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 4‐5
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity u'
0h
0.2684
0.2653
0.2693
0.2665
0.2696
0.2694
0.2673
0.2696
0.2690
0.2695
0.2686
0.2695
0.2648
0.2688
0.2694
0.2681
0.2690
0.2686
0.2681
0.2698
0.2654
0.2684
0.2690
0.2668
0.2678
25
0.2682
0.2686
0.0014
0.2648
0.2698
500 h
0.2673
0.2644
0.2681
0.2654
0.2685
0.2682
0.2662
0.2683
0.2680
0.2685
0.2676
0.2683
0.2638
0.2677
0.2685
0.2671
0.2679
0.2677
0.2672
0.2687
0.2643
0.2674
0.2679
0.2657
0.2667
25
0.2672
0.2677
0.0014
0.2638
0.2687
1000 h
0.2673
0.2642
0.2680
0.2653
0.2684
0.2682
0.2660
0.2683
0.2679
0.2684
0.2674
0.2683
0.2636
0.2675
0.2682
0.2670
0.2678
0.2676
0.2671
0.2686
0.2641
0.2673
0.2677
0.2656
0.2666
25
0.2671
0.2675
0.0015
0.2636
0.2686
2000 h
0.2670
0.2638
0.2679
0.2651
0.2682
0.2680
0.2658
0.2681
0.2676
0.2681
0.2672
0.2680
0.2633
0.2673
0.2679
0.2667
0.2675
0.2673
0.2669
0.2683
0.2637
0.2670
0.2675
0.2653
0.2664
25
0.2668
0.2673
0.0015
0.2633
0.2683
3000 h
0.2667
0.2637
0.2675
0.2651
0.2681
0.2678
0.2658
0.2679
0.2675
0.2681
0.2671
0.2678
0.2633
0.2672
0.2678
0.2667
0.2673
0.2671
0.2667
0.2682
0.2636
0.2670
0.2674
0.2652
0.2662
25
0.2667
0.2671
0.0015
0.2633
0.2682
4000 h
0.2669
0.2638
0.2675
0.2650
0.2680
0.2677
0.2656
0.2680
0.2674
0.2680
0.2670
0.2679
0.2632
0.2672
0.2678
0.2666
0.2673
0.2672
0.2667
0.2682
0.2637
0.2669
0.2674
0.2652
0.2662
25
0.2667
0.2672
0.0014
0.2632
0.2682
5000 h
0.2667
0.2636
0.2675
0.2649
0.2679
0.2677
0.2657
0.2678
0.2672
0.2678
0.2669
0.2678
0.2630
0.2671
0.2676
0.2665
0.2674
0.2671
0.2666
0.2680
0.2636
0.2668
0.2673
0.2650
0.2661
25
0.2665
0.2671
0.0015
0.2630
0.2680
6000 h
0.2665
0.2634
0.2673
0.2646
0.2676
0.2675
0.2653
0.2676
0.2669
0.2677
0.2667
0.2677
0.2629
0.2670
0.2674
0.2663
0.2673
0.2668
0.2664
0.2678
0.2633
0.2666
0.2670
0.2647
0.2658
25
0.2663
0.2668
0.0015
0.2629
0.2678
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 30 of 65
Report No. : SQETMP424004
Data Set 4 : 85 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
85.8 °C
83.6 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 4‐6
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity v'
0h
0.5234
0.5218
0.5221
0.5245
0.5247
0.5238
0.5213
0.5232
0.5244
0.5256
0.5231
0.5237
0.5224
0.5233
0.5227
0.5234
0.5227
0.5239
0.5227
0.5229
0.5223
0.5223
0.5236
0.5219
0.5237
25
0.5232
0.5232
0.0010
0.5213
0.5256
500 h
0.5234
0.5217
0.5219
0.5244
0.5247
0.5238
0.5212
0.5231
0.5243
0.5255
0.5230
0.5236
0.5224
0.5231
0.5226
0.5232
0.5226
0.5237
0.5226
0.5227
0.5223
0.5222
0.5235
0.5218
0.5236
25
0.5231
0.5231
0.0010
0.5212
0.5255
1000 h
0.5233
0.5217
0.5221
0.5244
0.5246
0.5238
0.5212
0.5231
0.5244
0.5256
0.5230
0.5237
0.5223
0.5231
0.5226
0.5232
0.5227
0.5237
0.5225
0.5227
0.5223
0.5223
0.5235
0.5219
0.5236
25
0.5231
0.5231
0.0010
0.5212
0.5256
2000 h
0.5234
0.5216
0.5220
0.5245
0.5246
0.5238
0.5212
0.5232
0.5243
0.5255
0.5230
0.5237
0.5224
0.5232
0.5225
0.5233
0.5227
0.5238
0.5226
0.5228
0.5223
0.5223
0.5235
0.5220
0.5236
25
0.5231
0.5232
0.0010
0.5212
0.5255
3000 h
0.5233
0.5215
0.5220
0.5244
0.5246
0.5237
0.5212
0.5231
0.5243
0.5255
0.5229
0.5236
0.5222
0.5231
0.5226
0.5231
0.5226
0.5237
0.5226
0.5228
0.5221
0.5222
0.5234
0.5218
0.5236
25
0.5230
0.5231
0.0010
0.5212
0.5255
4000 h
0.5234
0.5216
0.5218
0.5243
0.5246
0.5237
0.5211
0.5231
0.5243
0.5256
0.5229
0.5235
0.5224
0.5231
0.5225
0.5232
0.5225
0.5237
0.5226
0.5227
0.5221
0.5222
0.5235
0.5219
0.5236
25
0.5230
0.5231
0.0010
0.5211
0.5256
5000 h
0.5232
0.5215
0.5219
0.5243
0.5246
0.5235
0.5210
0.5230
0.5242
0.5254
0.5228
0.5236
0.5223
0.5231
0.5225
0.5231
0.5224
0.5237
0.5225
0.5228
0.5221
0.5221
0.5234
0.5219
0.5235
25
0.5230
0.5230
0.0010
0.5210
0.5254
6000 h
0.5232
0.5213
0.5218
0.5243
0.5245
0.5232
0.5209
0.5230
0.5241
0.5252
0.5227
0.5234
0.5222
0.5230
0.5224
0.5230
0.5222
0.5236
0.5225
0.5227
0.5219
0.5220
0.5233
0.5217
0.5234
25
0.5228
0.5230
0.0010
0.5209
0.5252
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 31 of 65
Report No. : SQETMP424004
Data Set 5 : 85 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
87.4 °C
84.7 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Lumen Maintenance (%)
120
Avg. and Max. ‐ Min.
110
100
90
80
70
60
50
Relative Forward Voltage (%)
0h
1000 h
2000 h
3000 h
4000 h
5000 h
115
6000 h
7000 h
Avg. and Max. ‐ Min.
110
105
100
95
90
85
0h
1000 h
2000 h
3000 h
4000 h
5000 h
Chromaticity Shift (Δu'v')
0.007
6000 h
7000 h
Avg. and Max. ‐ Min.
0.006
0.005
0.004
0.003
0.002
0.001
0.000
0h
1000 h
2000 h
3000 h
4000 h
5000 h
6000 h
u'v'
0.5320
0.5300
Avg.
0.5280
R=0.007
0.5260
R=0.004
0.5220
0.5200
0.5180
0.5160
0.2760
0.2740
0.2720
0.2700
0.2680
0.2660
0.2640
0.2620
0.2600
0.5140
0.2580
v'
0.5240
u'
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
7000 h
Page 32 of 65
Report No. : SQETMP424004
Data Set 5 : 85 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
87.4 °C
84.7 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 5‐1
Initial Characteristics
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
CIE1931
CIE1976
Luminous flux
Forward voltage
CCT
ΦV [lm]
VF [V]
TCP [K]
x
y
u'
v'
114.6
113.1
114.1
113.6
113.8
114.5
114.9
115.1
113.8
113.5
115.0
114.1
114.9
113.5
114.6
114.3
114.5
114.8
114.5
114.2
114.6
114.5
115.5
115.0
113.8
25
114.3
114.5
0.59
113.1
115.5
6.25
6.24
6.23
6.25
6.24
6.24
6.25
6.23
6.25
6.23
6.24
6.24
6.23
6.24
6.23
6.24
6.23
6.24
6.25
6.25
6.25
6.25
6.23
6.25
6.23
25
6.24
6.24
0.006
6.23
6.25
2634
2583
2583
2584
2585
2598
2623
2655
2594
2619
2632
2591
2619
2588
2601
2598
2620
2648
2598
2593
2605
2602
2645
2639
2588
25
2609
2601
22.7
2583
2655
0.458
0.460
0.462
0.462
0.462
0.462
0.459
0.456
0.461
0.457
0.458
0.461
0.460
0.460
0.462
0.461
0.458
0.456
0.462
0.461
0.461
0.460
0.458
0.458
0.461
25
0.460
0.460
0.0019
0.456
0.462
0.398
0.396
0.399
0.399
0.400
0.401
0.400
0.398
0.398
0.396
0.398
0.398
0.401
0.397
0.402
0.399
0.398
0.397
0.401
0.399
0.401
0.399
0.401
0.400
0.398
25
0.399
0.399
0.0016
0.396
0.402
0.267
0.269
0.269
0.269
0.269
0.268
0.267
0.266
0.269
0.268
0.267
0.269
0.267
0.269
0.268
0.268
0.267
0.266
0.268
0.269
0.268
0.268
0.266
0.266
0.269
25
0.268
0.268
0.0011
0.266
0.269
0.522
0.522
0.523
0.523
0.524
0.524
0.523
0.522
0.523
0.521
0.522
0.523
0.524
0.522
0.524
0.523
0.522
0.521
0.524
0.523
0.524
0.523
0.523
0.523
0.523
25
0.523
0.523
0.0008
0.521
0.524
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 33 of 65
Report No. : SQETMP424004
Data Set 5 : 85 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
87.4 °C
84.7 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 5‐2
Lumen Maintenance
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Lumen Maintenance % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
99.0
99.1
98.8
98.9
98.8
98.9
99.1
99.7
98.7
98.6
98.7
98.6
98.7
98.7
98.9
98.8
98.5
98.8
99.0
98.9
98.9
98.8
98.6
99.2
98.8
25
98.9
98.8
0.24
98.5
99.7
1000 h
98.8
99.1
98.7
98.9
98.7
98.7
98.9
99.1
98.5
98.5
98.6
98.4
98.6
98.7
98.8
98.8
98.5
98.7
98.8
98.9
98.7
98.8
98.5
99.1
98.7
25
98.7
98.7
0.19
98.4
99.1
2000 h
98.1
98.4
98.0
98.4
98.0
98.0
98.1
98.0
97.7
97.8
97.9
97.8
98.0
97.9
98.0
98.0
97.8
98.0
98.3
98.1
98.0
98.0
97.8
98.4
97.9
25
98.0
98.0
0.19
97.7
98.4
3000 h
97.0
97.5
97.1
97.6
97.2
97.1
97.0
97.0
96.8
96.7
97.0
96.9
97.4
97.2
97.2
97.1
96.7
97.1
97.4
97.3
97.1
97.4
97.2
97.7
97.2
25
97.2
97.1
0.24
96.7
97.7
4000 h
96.2
96.7
96.6
97.0
96.7
96.4
96.3
96.2
96.1
96.2
96.2
96.3
96.8
96.5
96.6
96.5
95.7
96.2
96.5
96.5
96.5
96.7
96.5
96.7
96.5
25
96.4
96.5
0.27
95.7
97.0
5000 h
95.1
95.4
95.7
96.2
95.9
95.4
95.2
95.4
94.9
95.3
95.4
95.6
96.1
95.8
95.9
95.7
94.8
95.1
95.5
95.7
95.8
95.9
95.7
95.4
95.5
25
95.5
95.5
0.36
94.8
96.2
6000 h
94.2
94.6
95.0
95.5
95.1
94.5
94.1
94.7
94.1
94.6
94.3
94.9
95.2
94.9
94.9
94.9
93.6
94.2
94.8
94.8
95.0
95.1
95.1
94.9
94.8
25
94.7
94.8
0.43
93.6
95.5
TM‐21 Projection
Time
1000 h 2000 h 3000 h 4000 h 5000 h 6000 h
ln(Avg.) ‐0.0126 ‐0.0201 ‐0.0288 ‐0.0363 ‐0.0456 ‐0.0544
Test duration used
B
α
R2
Calculated L70 (6K)
Reported L70 (6K)
1000 h
to
6000 h
0.9963
8.3685E‐06
0.9989
42200
hours
> 36000
hours
Curve‐fit equation:
Φ(t)=Bexp(‐αt)
Lumen maintenance life eqation:
L 70 =ln(B/0.7)/α
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 34 of 65
Report No. : SQETMP424004
Data Set 5 : 85 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
87.4 °C
84.7 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 5‐3
Forward Voltage
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Relative Forward Voltage % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
99.1
99.2
99.3
99.2
99.2
99.1
99.2
99.2
99.2
99.4
99.1
99.2
99.2
99.2
99.4
99.2
99.3
99.1
99.2
99.1
99.2
99.3
99.3
99.3
99.4
25
99.2
99.2
0.08
99.1
99.4
1000 h
99.1
99.2
99.3
99.2
99.2
99.1
99.2
99.3
99.2
99.4
99.2
99.3
99.3
99.2
99.5
99.2
99.4
99.3
99.4
99.2
99.2
99.2
99.3
99.3
99.5
25
99.3
99.2
0.09
99.1
99.5
2000 h
99.3
99.3
99.3
99.4
99.2
99.2
99.3
99.3
99.4
99.5
99.4
99.3
99.3
99.3
99.5
99.2
99.3
99.3
99.4
99.2
99.2
99.3
99.3
99.5
99.5
25
99.3
99.3
0.09
99.2
99.5
3000 h
99.5
99.9
99.3
99.7
99.3
99.4
99.5
99.6
99.7
99.4
99.5
99.4
99.3
99.5
99.7
99.4
99.7
99.6
99.9
99.4
99.5
99.4
99.5
100.0
99.8
25
99.6
99.5
0.20
99.3
100.0
4000 h
100.1
100.6
99.5
100.4
99.3
100.2
100.0
100.1
100.7
99.6
100.1
99.6
99.4
99.8
100.2
99.6
100.3
100.2
101.0
99.8
100.0
99.7
99.5
101.6
100.5
25
100.1
100.1
0.53
99.3
101.6
5000 h
101.5
102.6
99.7
101.1
99.3
101.1
101.2
100.6
102.9
99.6
101.1
99.7
99.5
100.3
100.6
100.0
101.5
102.1
103.4
100.7
101.3
99.9
99.5
105.4
102.3
25
101.1
101.1
1.45
99.3
105.4
6000 h
103.5
105.3
100.1
101.7
99.4
101.5
103.3
101.1
106.3
99.8
102.7
100.0
99.6
100.8
101.1
101.0
103.6
104.0
106.1
102.3
103.0
100.1
99.5
109.2
103.5
25
102.3
101.7
2.50
99.4
109.2
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 35 of 65
Report No. : SQETMP424004
Data Set 5 : 85 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
87.4 °C
84.7 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 5‐4
Chromaticity Shift
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity Shift Δu'v'
0h
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
25
0.0000
0.0000
0.0000
0.0000
0.0000
500 h
0.0014
0.0013
0.0015
0.0013
0.0014
0.0013
0.0015
0.0014
0.0014
0.0015
0.0013
0.0015
0.0015
0.0013
0.0012
0.0013
0.0012
0.0014
0.0012
0.0013
0.0012
0.0013
0.0013
0.0013
0.0014
25
0.0014
0.0013
0.0001
0.0012
0.0015
1000 h
0.0016
0.0016
0.0017
0.0014
0.0014
0.0014
0.0015
0.0015
0.0017
0.0015
0.0014
0.0018
0.0019
0.0016
0.0015
0.0016
0.0015
0.0016
0.0014
0.0014
0.0013
0.0015
0.0015
0.0016
0.0016
25
0.0015
0.0015
0.0001
0.0013
0.0019
2000 h
0.0019
0.0018
0.0018
0.0018
0.0018
0.0018
0.0019
0.0019
0.0019
0.0019
0.0017
0.0020
0.0020
0.0019
0.0019
0.0018
0.0017
0.0018
0.0018
0.0017
0.0016
0.0018
0.0017
0.0019
0.0019
25
0.0018
0.0018
0.0001
0.0016
0.0020
3000 h
0.0021
0.0020
0.0021
0.0019
0.0020
0.0020
0.0022
0.0023
0.0021
0.0020
0.0018
0.0021
0.0022
0.0022
0.0020
0.0021
0.0021
0.0021
0.0019
0.0020
0.0020
0.0021
0.0020
0.0021
0.0022
25
0.0021
0.0021
0.0001
0.0018
0.0023
4000 h
0.0020
0.0021
0.0022
0.0020
0.0020
0.0020
0.0022
0.0023
0.0020
0.0021
0.0019
0.0023
0.0022
0.0022
0.0022
0.0022
0.0020
0.0021
0.0019
0.0021
0.0021
0.0021
0.0021
0.0020
0.0023
25
0.0021
0.0021
0.0001
0.0019
0.0023
5000 h
0.0021
0.0024
0.0024
0.0022
0.0023
0.0022
0.0024
0.0026
0.0022
0.0024
0.0020
0.0025
0.0024
0.0023
0.0021
0.0023
0.0021
0.0021
0.0019
0.0022
0.0021
0.0022
0.0021
0.0021
0.0024
25
0.0022
0.0022
0.0002
0.0019
0.0026
6000 h
0.0023
0.0024
0.0025
0.0023
0.0024
0.0024
0.0025
0.0028
0.0024
0.0025
0.0022
0.0026
0.0026
0.0025
0.0024
0.0026
0.0022
0.0023
0.0022
0.0025
0.0023
0.0025
0.0024
0.0023
0.0025
25
0.0024
0.0024
0.0001
0.0022
0.0028
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 36 of 65
Report No. : SQETMP424004
Data Set 5 : 85 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
87.4 °C
84.7 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 5‐5
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity u'
0h
0.2675
0.2701
0.2699
0.2697
0.2695
0.2689
0.2678
0.2665
0.2692
0.2684
0.2673
0.2694
0.2679
0.2697
0.2687
0.2691
0.2682
0.2669
0.2688
0.2692
0.2685
0.2688
0.2666
0.2671
0.2697
25
0.2685
0.2688
0.0011
0.2665
0.2701
500 h
0.2660
0.2688
0.2684
0.2684
0.2681
0.2676
0.2663
0.2652
0.2677
0.2669
0.2660
0.2679
0.2664
0.2684
0.2674
0.2678
0.2670
0.2656
0.2675
0.2679
0.2673
0.2675
0.2653
0.2658
0.2683
25
0.2672
0.2675
0.0011
0.2652
0.2688
1000 h
0.2659
0.2686
0.2682
0.2683
0.2681
0.2675
0.2662
0.2651
0.2675
0.2669
0.2659
0.2677
0.2660
0.2681
0.2672
0.2675
0.2667
0.2653
0.2673
0.2677
0.2672
0.2673
0.2651
0.2655
0.2681
25
0.2670
0.2673
0.0011
0.2651
0.2686
2000 h
0.2656
0.2683
0.2681
0.2680
0.2677
0.2672
0.2659
0.2646
0.2673
0.2665
0.2656
0.2674
0.2659
0.2679
0.2668
0.2673
0.2665
0.2651
0.2670
0.2674
0.2669
0.2671
0.2649
0.2652
0.2678
25
0.2667
0.2670
0.0011
0.2646
0.2683
3000 h
0.2654
0.2681
0.2677
0.2678
0.2676
0.2669
0.2656
0.2643
0.2671
0.2664
0.2655
0.2673
0.2657
0.2675
0.2667
0.2670
0.2661
0.2648
0.2669
0.2672
0.2665
0.2667
0.2646
0.2650
0.2675
25
0.2665
0.2667
0.0011
0.2643
0.2681
4000 h
0.2655
0.2680
0.2676
0.2677
0.2675
0.2669
0.2656
0.2642
0.2672
0.2663
0.2654
0.2671
0.2657
0.2675
0.2665
0.2668
0.2662
0.2649
0.2669
0.2670
0.2665
0.2668
0.2645
0.2651
0.2674
25
0.2664
0.2668
0.0011
0.2642
0.2680
5000 h
0.2654
0.2678
0.2674
0.2675
0.2672
0.2668
0.2654
0.2640
0.2670
0.2660
0.2653
0.2670
0.2655
0.2674
0.2666
0.2668
0.2661
0.2649
0.2669
0.2670
0.2664
0.2666
0.2645
0.2652
0.2674
25
0.2663
0.2666
0.0010
0.2640
0.2678
6000 h
0.2652
0.2678
0.2674
0.2675
0.2671
0.2666
0.2653
0.2638
0.2668
0.2659
0.2652
0.2668
0.2653
0.2673
0.2663
0.2665
0.2660
0.2646
0.2666
0.2666
0.2662
0.2664
0.2642
0.2649
0.2672
25
0.2661
0.2664
0.0011
0.2638
0.2678
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 37 of 65
Report No. : SQETMP424004
Data Set 5 : 85 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
87.4 °C
84.7 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 5‐6
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity v'
0h
0.5221
0.5217
0.5233
0.5232
0.5238
0.5238
0.5232
0.5222
0.5227
0.5211
0.5222
0.5225
0.5237
0.5220
0.5242
0.5231
0.5221
0.5215
0.5238
0.5230
0.5236
0.5229
0.5234
0.5231
0.5226
25
0.5228
0.5230
0.0008
0.5211
0.5242
500 h
0.5220
0.5217
0.5232
0.5231
0.5237
0.5237
0.5230
0.5219
0.5225
0.5209
0.5221
0.5224
0.5236
0.5221
0.5241
0.5231
0.5221
0.5213
0.5238
0.5230
0.5236
0.5228
0.5233
0.5230
0.5225
25
0.5227
0.5230
0.0008
0.5209
0.5241
1000 h
0.5221
0.5217
0.5232
0.5232
0.5237
0.5238
0.5230
0.5220
0.5226
0.5210
0.5221
0.5224
0.5237
0.5221
0.5242
0.5231
0.5221
0.5214
0.5238
0.5231
0.5236
0.5228
0.5234
0.5231
0.5226
25
0.5228
0.5230
0.0008
0.5210
0.5242
2000 h
0.5221
0.5216
0.5232
0.5232
0.5236
0.5237
0.5230
0.5219
0.5225
0.5209
0.5220
0.5224
0.5236
0.5220
0.5241
0.5230
0.5221
0.5214
0.5238
0.5230
0.5236
0.5228
0.5234
0.5230
0.5225
25
0.5227
0.5230
0.0008
0.5209
0.5241
3000 h
0.5219
0.5216
0.5231
0.5232
0.5237
0.5236
0.5229
0.5218
0.5225
0.5208
0.5220
0.5223
0.5235
0.5219
0.5240
0.5228
0.5220
0.5214
0.5237
0.5228
0.5236
0.5227
0.5233
0.5228
0.5225
25
0.5227
0.5228
0.0008
0.5208
0.5240
4000 h
0.5219
0.5215
0.5232
0.5232
0.5237
0.5237
0.5229
0.5218
0.5226
0.5209
0.5220
0.5223
0.5236
0.5220
0.5240
0.5229
0.5220
0.5213
0.5236
0.5229
0.5235
0.5228
0.5233
0.5226
0.5223
25
0.5227
0.5228
0.0008
0.5209
0.5240
5000 h
0.5217
0.5212
0.5231
0.5231
0.5237
0.5235
0.5226
0.5217
0.5223
0.5208
0.5219
0.5223
0.5236
0.5220
0.5240
0.5228
0.5220
0.5210
0.5235
0.5228
0.5234
0.5228
0.5233
0.5222
0.5222
25
0.5225
0.5226
0.0009
0.5208
0.5240
6000 h
0.5218
0.5211
0.5231
0.5230
0.5237
0.5236
0.5224
0.5217
0.5224
0.5208
0.5219
0.5222
0.5235
0.5218
0.5239
0.5227
0.5219
0.5211
0.5235
0.5227
0.5234
0.5227
0.5232
0.5224
0.5222
25
0.5225
0.5224
0.0009
0.5208
0.5239
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 38 of 65
Report No. : SQETMP424004
Data Set 6 : 85 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
89.3 °C
86.2 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Lumen Maintenance (%)
120
Avg. and Max. ‐ Min.
110
100
90
80
70
60
50
Relative Forward Voltage (%)
0h
1000 h
2000 h
3000 h
4000 h
5000 h
115
6000 h
7000 h
Avg. and Max. ‐ Min.
110
105
100
95
90
85
0h
1000 h
2000 h
3000 h
4000 h
5000 h
Chromaticity Shift (Δu'v')
0.007
6000 h
7000 h
Avg. and Max. ‐ Min.
0.006
0.005
0.004
0.003
0.002
0.001
0.000
0h
1000 h
2000 h
3000 h
4000 h
5000 h
6000 h
u'v'
0.5320
0.5300
Avg.
0.5280
R=0.007
0.5260
R=0.004
0.5220
0.5200
0.5180
0.5160
0.2760
0.2740
0.2720
0.2700
0.2680
0.2660
0.2640
0.2620
0.2600
0.5140
0.2580
v'
0.5240
u'
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
7000 h
Page 39 of 65
Report No. : SQETMP424004
Data Set 6 : 85 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
89.3 °C
86.2 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 6‐1
Initial Characteristics
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
CIE1931
CIE1976
Luminous flux
Forward voltage
CCT
ΦV [lm]
VF [V]
TCP [K]
x
y
u'
v'
146.0
146.6
147.2
147.2
146.7
146.2
147.6
147.6
146.3
146.3
147.0
145.8
145.9
148.2
147.1
146.0
147.2
145.2
147.1
145.7
145.7
147.2
146.5
148.4
146.1
25
146.7
146.6
0.82
145.2
148.4
6.51
6.50
6.49
6.49
6.51
6.51
6.49
6.51
6.49
6.50
6.50
6.51
6.50
6.50
6.49
6.48
6.49
6.49
6.50
6.49
6.50
6.50
6.49
6.49
6.50
25
6.50
6.50
0.007
6.48
6.51
2582
2622
2611
2641
2602
2610
2619
2632
2597
2617
2591
2584
2618
2624
2625
2615
2612
2585
2636
2605
2609
2616
2593
2655
2621
25
2613
2615
18.2
2582
2655
0.463
0.458
0.461
0.458
0.462
0.459
0.460
0.460
0.461
0.458
0.463
0.462
0.457
0.461
0.459
0.458
0.460
0.463
0.457
0.459
0.458
0.461
0.462
0.459
0.457
25
0.460
0.460
0.0019
0.457
0.463
0.400
0.397
0.401
0.400
0.401
0.398
0.401
0.402
0.400
0.397
0.402
0.400
0.395
0.404
0.400
0.397
0.399
0.401
0.398
0.397
0.397
0.402
0.401
0.403
0.395
25
0.399
0.400
0.0023
0.395
0.404
0.269
0.267
0.268
0.266
0.268
0.268
0.267
0.266
0.268
0.268
0.268
0.269
0.268
0.267
0.267
0.268
0.268
0.269
0.267
0.268
0.268
0.267
0.268
0.265
0.268
25
0.268
0.268
0.0009
0.265
0.269
0.524
0.522
0.524
0.523
0.524
0.522
0.524
0.524
0.523
0.522
0.524
0.524
0.521
0.525
0.523
0.522
0.523
0.524
0.522
0.522
0.522
0.524
0.524
0.524
0.521
25
0.523
0.523
0.0012
0.521
0.525
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 40 of 65
Report No. : SQETMP424004
Data Set 6 : 85 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
89.3 °C
86.2 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 6‐2
Lumen Maintenance
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Lumen Maintenance % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
98.7
98.4
98.6
98.4
98.8
98.6
98.7
98.8
98.9
98.7
98.6
98.8
98.7
98.9
98.7
98.6
98.7
98.8
98.6
98.6
98.8
98.9
99.0
98.6
98.6
25
98.7
98.7
0.14
98.4
99.0
1000 h
98.4
98.2
98.4
98.3
98.7
98.4
98.5
98.4
99.0
98.5
98.5
98.7
98.6
98.8
98.5
98.4
98.6
98.7
98.4
98.4
98.7
98.6
98.8
98.5
98.4
25
98.5
98.5
0.18
98.2
99.0
2000 h
97.2
97.0
97.1
96.9
97.5
97.2
97.4
97.0
97.7
97.4
97.3
97.5
97.2
97.3
97.2
97.1
97.1
97.5
97.1
96.7
97.3
96.9
97.3
96.9
96.9
25
97.2
97.2
0.24
96.7
97.7
3000 h
96.1
95.8
95.9
96.0
96.3
95.9
96.2
95.9
97.1
96.7
96.9
97.0
96.5
96.7
96.4
96.5
96.4
96.6
96.1
95.6
96.4
96.0
96.4
96.1
95.8
25
96.3
96.3
0.41
95.6
97.1
4000 h
95.3
94.9
95.1
95.4
95.6
94.8
95.4
95.0
96.3
95.9
96.1
96.2
95.9
96.0
95.4
95.8
95.4
95.7
94.8
93.9
95.4
94.7
95.1
95.1
94.3
25
95.3
95.4
0.58
93.9
96.3
5000 h
94.5
94.1
94.2
94.8
94.9
93.5
94.7
94.2
95.6
95.2
95.3
95.3
94.9
95.3
94.9
95.3
94.9
94.9
94.0
92.3
94.6
93.9
94.0
94.0
93.6
25
94.5
94.7
0.75
92.3
95.6
6000 h
93.5
93.4
93.7
93.8
94.0
91.6
93.9
93.5
94.8
94.0
93.7
94.2
93.9
94.1
94.1
94.5
94.2
94.1
93.3
90.5
93.8
92.7
92.5
92.7
92.5
25
93.5
93.8
0.95
90.5
94.8
TM‐21 Projection
Time
1000 h 2000 h 3000 h 4000 h 5000 h 6000 h
ln(Avg.) ‐0.0148 ‐0.0284 ‐0.0377 ‐0.0477 ‐0.0564 ‐0.0674
Test duration used
B
α
R2
Calculated L70 (6K)
Reported L70 (6K)
1000 h
to
6000 h
0.9937
1.0199E‐05
0.9958
34300
hours
34300
hours
Curve‐fit equation:
Φ(t)=Bexp(‐αt)
Lumen maintenance life eqation:
L 70 =ln(B/0.7)/α
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 41 of 65
Report No. : SQETMP424004
Data Set 6 : 85 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
89.3 °C
86.2 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 6‐3
Forward Voltage
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Relative Forward Voltage % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
99.1
99.2
99.2
99.4
99.2
99.2
99.1
99.0
99.2
99.2
99.1
99.2
99.2
99.1
99.1
99.3
99.2
99.5
99.2
99.4
99.1
99.2
99.2
99.2
99.2
25
99.2
99.2
0.11
99.0
99.5
1000 h
99.1
99.2
99.2
99.4
99.3
99.4
99.2
99.1
99.3
99.3
99.1
99.3
99.3
99.1
99.2
99.3
99.2
99.6
99.3
99.5
99.2
99.2
99.3
99.3
99.3
25
99.3
99.3
0.12
99.1
99.6
2000 h
99.2
99.4
99.5
99.7
99.8
99.8
99.3
99.3
99.5
99.5
99.2
99.5
99.3
99.3
99.3
99.3
99.4
100.0
99.5
99.7
99.3
99.4
99.3
99.3
99.6
25
99.5
99.4
0.21
99.2
100.0
3000 h
99.3
100.3
100.9
101.0
101.6
101.9
99.6
99.9
100.5
100.3
99.2
100.1
99.6
99.9
99.9
99.5
100.5
102.0
100.6
100.8
99.8
100.1
99.7
99.6
101.4
25
100.3
100.1
0.79
99.2
102.0
4000 h
99.6
102.4
105.1
103.5
104.7
106.1
100.5
101.7
102.5
102.3
99.3
100.8
100.3
100.8
101.7
99.5
104.6
104.6
103.0
103.6
101.3
102.0
100.3
99.9
104.6
25
102.2
102.0
1.98
99.3
106.1
5000 h
99.7
104.8
110.9
104.0
106.1
107.3
101.5
103.2
103.9
104.5
99.3
101.4
101.8
101.2
104.9
99.7
109.8
105.0
107.3
107.1
104.6
105.7
101.5
100.4
105.6
25
104.1
104.5
3.09
99.3
110.9
6000 h
99.9
103.7
107.6
104.0
106.0
105.3
101.9
102.7
103.6
106.4
99.5
102.0
102.1
103.2
103.3
99.8
106.8
105.2
106.1
108.5
105.0
105.1
103.1
101.1
105.2
25
103.9
103.7
2.43
99.5
108.5
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 42 of 65
Report No. : SQETMP424004
Data Set 6 : 85 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
89.3 °C
86.2 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 6‐4
Chromaticity Shift
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity Shift Δu'v'
0h
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
25
0.0000
0.0000
0.0000
0.0000
0.0000
500 h
0.0016
0.0016
0.0016
0.0016
0.0014
0.0017
0.0014
0.0016
0.0016
0.0016
0.0014
0.0016
0.0017
0.0013
0.0017
0.0015
0.0014
0.0016
0.0015
0.0015
0.0015
0.0015
0.0014
0.0014
0.0015
25
0.0015
0.0015
0.0001
0.0013
0.0017
1000 h
0.0018
0.0018
0.0018
0.0017
0.0016
0.0020
0.0016
0.0019
0.0018
0.0017
0.0016
0.0018
0.0017
0.0017
0.0018
0.0018
0.0017
0.0018
0.0017
0.0017
0.0018
0.0016
0.0017
0.0017
0.0016
25
0.0017
0.0017
0.0001
0.0016
0.0020
2000 h
0.0021
0.0022
0.0021
0.0020
0.0019
0.0022
0.0020
0.0023
0.0020
0.0021
0.0020
0.0021
0.0021
0.0021
0.0021
0.0021
0.0019
0.0021
0.0022
0.0020
0.0021
0.0020
0.0020
0.0021
0.0020
25
0.0021
0.0021
0.0001
0.0019
0.0023
3000 h
0.0025
0.0024
0.0023
0.0024
0.0022
0.0026
0.0023
0.0027
0.0024
0.0024
0.0024
0.0023
0.0024
0.0024
0.0024
0.0025
0.0022
0.0023
0.0024
0.0023
0.0024
0.0024
0.0024
0.0025
0.0023
25
0.0024
0.0024
0.0001
0.0022
0.0027
4000 h
0.0027
0.0024
0.0024
0.0024
0.0022
0.0027
0.0024
0.0026
0.0024
0.0024
0.0024
0.0026
0.0025
0.0025
0.0025
0.0026
0.0023
0.0025
0.0025
0.0024
0.0025
0.0024
0.0026
0.0027
0.0023
25
0.0025
0.0025
0.0001
0.0022
0.0027
5000 h
0.0029
0.0025
0.0024
0.0025
0.0024
0.0030
0.0026
0.0028
0.0026
0.0025
0.0027
0.0026
0.0023
0.0025
0.0026
0.0026
0.0023
0.0027
0.0025
0.0026
0.0026
0.0024
0.0027
0.0028
0.0024
25
0.0026
0.0026
0.0002
0.0023
0.0030
6000 h
0.0030
0.0028
0.0028
0.0028
0.0025
0.0032
0.0029
0.0030
0.0028
0.0027
0.0029
0.0029
0.0026
0.0028
0.0029
0.0028
0.0026
0.0030
0.0030
0.0029
0.0028
0.0028
0.0030
0.0030
0.0026
25
0.0028
0.0028
0.0002
0.0025
0.0032
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 43 of 65
Report No. : SQETMP424004
Data Set 6 : 85 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
89.3 °C
86.2 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 6‐5
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity u'
0h
0.2698
0.2681
0.2683
0.2670
0.2686
0.2686
0.2677
0.2671
0.2690
0.2683
0.2692
0.2697
0.2685
0.2675
0.2677
0.2683
0.2682
0.2696
0.2674
0.2689
0.2688
0.2680
0.2691
0.2659
0.2683
25
0.2683
0.2683
0.0009
0.2659
0.2698
500 h
0.2682
0.2665
0.2666
0.2654
0.2672
0.2670
0.2662
0.2655
0.2674
0.2667
0.2678
0.2680
0.2668
0.2662
0.2660
0.2669
0.2668
0.2680
0.2659
0.2674
0.2673
0.2665
0.2677
0.2646
0.2668
25
0.2668
0.2668
0.0009
0.2646
0.2682
1000 h
0.2680
0.2663
0.2665
0.2652
0.2670
0.2667
0.2661
0.2652
0.2672
0.2666
0.2676
0.2679
0.2668
0.2658
0.2659
0.2665
0.2665
0.2679
0.2657
0.2672
0.2670
0.2664
0.2675
0.2642
0.2667
25
0.2666
0.2666
0.0009
0.2642
0.2680
2000 h
0.2676
0.2659
0.2662
0.2649
0.2667
0.2664
0.2657
0.2648
0.2670
0.2662
0.2672
0.2676
0.2664
0.2655
0.2656
0.2663
0.2663
0.2675
0.2653
0.2670
0.2667
0.2660
0.2672
0.2638
0.2663
25
0.2662
0.2663
0.0009
0.2638
0.2676
3000 h
0.2673
0.2657
0.2659
0.2646
0.2665
0.2660
0.2654
0.2644
0.2666
0.2659
0.2668
0.2673
0.2661
0.2651
0.2653
0.2659
0.2660
0.2673
0.2651
0.2666
0.2664
0.2657
0.2667
0.2634
0.2660
25
0.2659
0.2660
0.0009
0.2634
0.2673
4000 h
0.2671
0.2657
0.2658
0.2646
0.2664
0.2660
0.2653
0.2645
0.2665
0.2659
0.2668
0.2671
0.2660
0.2650
0.2652
0.2657
0.2659
0.2671
0.2650
0.2666
0.2663
0.2656
0.2666
0.2633
0.2660
25
0.2658
0.2659
0.0009
0.2633
0.2671
5000 h
0.2669
0.2656
0.2659
0.2644
0.2663
0.2657
0.2651
0.2644
0.2664
0.2658
0.2665
0.2671
0.2662
0.2650
0.2651
0.2658
0.2659
0.2669
0.2649
0.2663
0.2662
0.2657
0.2665
0.2632
0.2659
25
0.2657
0.2659
0.0009
0.2632
0.2671
6000 h
0.2667
0.2653
0.2655
0.2642
0.2662
0.2654
0.2648
0.2641
0.2662
0.2656
0.2663
0.2668
0.2659
0.2647
0.2648
0.2655
0.2656
0.2667
0.2645
0.2660
0.2660
0.2653
0.2661
0.2630
0.2657
25
0.2655
0.2656
0.0009
0.2630
0.2668
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 44 of 65
Report No. : SQETMP424004
Data Set 6 : 85 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
89.3 °C
86.2 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 6‐6
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity v'
0h
0.5239
0.5221
0.5237
0.5227
0.5240
0.5221
0.5235
0.5240
0.5236
0.5218
0.5243
0.5235
0.5209
0.5249
0.5233
0.5217
0.5230
0.5242
0.5218
0.5220
0.5217
0.5241
0.5242
0.5241
0.5211
25
0.5230
0.5235
0.0011
0.5209
0.5249
500 h
0.5238
0.5220
0.5236
0.5225
0.5239
0.5220
0.5235
0.5240
0.5235
0.5216
0.5242
0.5235
0.5208
0.5248
0.5232
0.5216
0.5229
0.5240
0.5217
0.5220
0.5216
0.5240
0.5242
0.5240
0.5210
25
0.5230
0.5235
0.0012
0.5208
0.5248
1000 h
0.5239
0.5221
0.5237
0.5226
0.5240
0.5221
0.5236
0.5240
0.5236
0.5217
0.5243
0.5235
0.5208
0.5249
0.5233
0.5217
0.5230
0.5241
0.5218
0.5221
0.5217
0.5240
0.5243
0.5241
0.5210
25
0.5230
0.5235
0.0012
0.5208
0.5249
2000 h
0.5238
0.5220
0.5235
0.5226
0.5239
0.5220
0.5235
0.5238
0.5235
0.5216
0.5241
0.5234
0.5206
0.5246
0.5232
0.5216
0.5228
0.5241
0.5217
0.5219
0.5216
0.5240
0.5242
0.5240
0.5209
25
0.5229
0.5234
0.0012
0.5206
0.5246
3000 h
0.5240
0.5219
0.5235
0.5226
0.5238
0.5219
0.5235
0.5238
0.5234
0.5215
0.5242
0.5235
0.5206
0.5247
0.5231
0.5216
0.5227
0.5240
0.5216
0.5219
0.5216
0.5240
0.5243
0.5241
0.5208
25
0.5229
0.5234
0.0012
0.5206
0.5247
4000 h
0.5242
0.5220
0.5236
0.5228
0.5239
0.5220
0.5237
0.5239
0.5235
0.5216
0.5243
0.5237
0.5207
0.5248
0.5231
0.5217
0.5227
0.5243
0.5216
0.5220
0.5218
0.5241
0.5244
0.5243
0.5208
25
0.5230
0.5235
0.0012
0.5207
0.5248
5000 h
0.5242
0.5221
0.5236
0.5227
0.5241
0.5222
0.5238
0.5241
0.5237
0.5217
0.5243
0.5237
0.5208
0.5247
0.5231
0.5218
0.5230
0.5245
0.5217
0.5222
0.5218
0.5242
0.5244
0.5243
0.5209
25
0.5231
0.5236
0.0012
0.5208
0.5247
6000 h
0.5243
0.5222
0.5239
0.5228
0.5241
0.5222
0.5239
0.5242
0.5237
0.5216
0.5242
0.5236
0.5208
0.5246
0.5232
0.5218
0.5230
0.5245
0.5220
0.5220
0.5219
0.5241
0.5243
0.5242
0.5208
25
0.5231
0.5236
0.0012
0.5208
0.5246
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 45 of 65
Report No. : SQETMP424004
Data Set 7 : 105 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
105.5 °C
102.9 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Lumen Maintenance (%)
120
Avg. and Max. ‐ Min.
110
100
90
80
70
60
50
Relative Forward Voltage (%)
0h
1000 h
2000 h
3000 h
4000 h
5000 h
115
6000 h
7000 h
Avg. and Max. ‐ Min.
110
105
100
95
90
85
0h
1000 h
2000 h
3000 h
4000 h
5000 h
Chromaticity Shift (Δu'v')
0.007
6000 h
7000 h
Avg. and Max. ‐ Min.
0.006
0.005
0.004
0.003
0.002
0.001
0.000
0h
1000 h
2000 h
3000 h
4000 h
5000 h
6000 h
u'v'
0.5320
0.5300
Avg.
0.5280
R=0.007
0.5260
R=0.004
0.5220
0.5200
0.5180
0.5160
0.2760
0.2740
0.2720
0.2700
0.2680
0.2660
0.2640
0.2620
0.2600
0.5140
0.2580
v'
0.5240
u'
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
7000 h
Page 46 of 65
Report No. : SQETMP424004
Data Set 7 : 105 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
105.5 °C
102.9 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 7‐1
Initial Characteristics
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
CIE1931
CIE1976
Luminous flux
Forward voltage
CCT
ΦV [lm]
VF [V]
TCP [K]
x
y
u'
v'
79.9
79.2
79.8
80.3
80.5
79.7
80.0
79.8
79.5
79.5
80.5
80.4
80.1
79.4
79.3
79.5
79.5
79.7
80.6
79.5
79.8
79.7
79.4
79.8
79.1
25
79.8
79.7
0.42
79.1
80.6
5.97
5.97
5.97
5.95
5.96
5.97
5.97
5.96
5.96
5.94
5.96
5.96
5.96
5.96
5.96
5.95
5.97
5.94
5.96
5.96
5.96
5.95
5.96
5.96
5.94
25
5.96
5.96
0.008
5.94
5.97
2639
2586
2582
2639
2632
2592
2646
2613
2618
2585
2667
2621
2608
2613
2587
2615
2591
2610
2678
2600
2609
2608
2592
2598
2590
25
2613
2609
25.4
2582
2678
0.457
0.459
0.463
0.459
0.459
0.461
0.456
0.458
0.457
0.462
0.455
0.460
0.461
0.457
0.460
0.458
0.461
0.461
0.454
0.459
0.459
0.460
0.460
0.460
0.461
25
0.459
0.459
0.0021
0.454
0.463
0.398
0.395
0.400
0.400
0.401
0.400
0.397
0.397
0.396
0.400
0.398
0.400
0.401
0.395
0.397
0.397
0.399
0.401
0.397
0.396
0.398
0.399
0.397
0.398
0.398
25
0.398
0.398
0.0019
0.395
0.401
0.266
0.269
0.269
0.266
0.267
0.269
0.266
0.268
0.268
0.269
0.265
0.267
0.268
0.268
0.269
0.268
0.269
0.268
0.265
0.268
0.268
0.268
0.269
0.268
0.269
25
0.268
0.268
0.0012
0.265
0.269
0.522
0.521
0.524
0.523
0.524
0.523
0.522
0.522
0.521
0.524
0.522
0.523
0.524
0.521
0.522
0.522
0.523
0.524
0.521
0.522
0.522
0.523
0.522
0.523
0.522
25
0.522
0.522
0.0009
0.521
0.524
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 47 of 65
Report No. : SQETMP424004
Data Set 7 : 105 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
105.5 °C
102.9 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 7‐2
Lumen Maintenance
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Lumen Maintenance % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
98.6
98.8
98.7
98.3
98.5
98.7
98.6
98.5
98.5
98.7
98.8
98.4
98.7
98.6
98.4
98.3
98.6
98.8
98.4
98.4
98.5
98.6
98.6
98.5
98.4
25
98.6
98.6
0.14
98.3
98.8
1000 h
98.3
98.6
98.3
98.0
98.1
98.3
98.2
98.2
98.2
98.3
98.5
98.0
98.2
98.3
98.4
98.1
98.3
98.5
98.0
98.2
98.2
98.1
98.0
98.3
98.2
25
98.2
98.2
0.16
98.0
98.6
2000 h
97.2
97.4
97.4
97.0
97.0
97.2
97.1
97.2
97.2
97.4
97.4
96.9
97.3
97.2
97.3
97.1
97.3
97.5
97.0
97.0
97.3
97.2
96.9
97.3
97.1
25
97.2
97.2
0.16
96.9
97.5
3000 h
96.8
97.1
97.0
96.6
96.6
96.8
96.7
96.7
96.7
97.1
97.0
96.5
96.6
96.7
96.9
96.7
96.9
97.1
96.5
96.5
96.9
96.9
96.4
96.8
96.7
25
96.8
96.7
0.19
96.4
97.1
4000 h
95.8
96.1
95.7
95.3
95.2
95.5
95.8
95.7
95.5
96.3
95.8
95.0
94.8
95.4
95.7
95.5
95.7
95.9
95.2
95.0
95.7
95.7
95.3
95.4
95.4
25
95.5
95.5
0.34
94.8
96.3
5000 h
94.5
94.9
94.1
94.0
93.6
94.2
94.8
94.6
93.9
95.0
94.2
93.0
92.7
93.8
94.3
94.1
94.1
94.5
93.6
93.2
94.5
94.2
93.6
94.0
93.7
25
94.0
94.1
0.57
92.7
95.0
6000 h
92.6
92.8
91.9
92.2
91.6
92.3
93.1
92.8
91.6
93.0
92.3
90.7
90.6
92.1
92.8
92.4
92.0
92.7
91.8
91.2
92.7
92.2
91.4
92.1
91.6
25
92.1
92.2
0.67
90.6
93.1
TM‐21 Projection
Time
1000 h 2000 h 3000 h 4000 h 5000 h 6000 h
ln(Avg.) ‐0.0180 ‐0.0284 ‐0.0329 ‐0.0456 ‐0.0614 ‐0.0823
Test duration used
B
α
R2
Calculated L70 (6K)
Reported L70 (6K)
1000 h
to
6000 h
0.9986
1.2385E‐05
0.9536
28700
hours
28700
hours
Curve‐fit equation:
Φ(t)=Bexp(‐αt)
Lumen maintenance life eqation:
L 70 =ln(B/0.7)/α
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 48 of 65
Report No. : SQETMP424004
Data Set 7 : 105 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
105.5 °C
102.9 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 7‐3
Forward Voltage
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Relative Forward Voltage % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
99.5
99.4
99.5
99.5
99.4
99.5
99.4
99.4
99.6
99.6
99.5
99.5
99.5
99.5
99.5
99.6
99.5
99.6
99.5
99.5
99.5
99.5
99.5
99.5
99.6
25
99.5
99.5
0.07
99.4
99.6
1000 h
99.5
99.4
99.6
99.5
99.4
99.6
99.4
99.5
99.6
99.7
99.4
99.4
99.5
99.6
99.5
99.6
99.5
99.6
99.5
99.5
99.5
99.5
99.5
99.5
99.7
25
99.5
99.5
0.08
99.4
99.7
2000 h
99.7
99.6
99.6
99.6
99.5
99.8
99.5
99.6
99.7
99.8
99.6
99.5
99.6
99.7
99.6
99.7
99.6
99.8
99.6
99.5
99.7
99.7
99.7
99.6
99.8
25
99.6
99.6
0.09
99.5
99.8
3000 h
100.1
99.9
99.7
99.6
99.6
100.2
99.8
99.9
100.0
100.1
99.7
99.5
99.7
100.0
99.7
99.9
99.7
100.0
99.8
99.8
100.2
99.7
99.8
99.8
100.0
25
99.9
99.8
0.19
99.5
100.2
4000 h
100.9
100.2
99.8
99.8
99.6
101.1
100.3
100.4
100.4
100.8
99.8
99.7
100.0
100.4
99.8
100.2
99.8
100.1
100.1
100.1
100.9
99.8
100.0
100.2
100.3
25
100.2
100.1
0.41
99.6
101.1
5000 h
102.6
100.5
99.9
99.7
99.6
102.3
101.2
101.3
101.1
102.1
100.0
99.8
100.0
101.3
99.8
100.5
99.9
100.3
100.5
100.5
102.2
99.8
100.2
101.0
100.9
25
100.7
100.5
0.89
99.6
102.6
6000 h
103.9
100.8
99.9
99.8
99.7
102.9
102.3
102.6
101.6
104.0
100.1
99.8
100.2
101.9
99.9
100.8
100.0
100.5
100.8
101.0
103.3
100.0
100.4
102.0
101.2
25
101.2
100.8
1.34
99.7
104.0
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 49 of 65
Report No. : SQETMP424004
Data Set 7 : 105 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
105.5 °C
102.9 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 7‐4
Chromaticity Shift
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity Shift Δu'v'
0h
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
25
0.0000
0.0000
0.0000
0.0000
0.0000
500 h
0.0016
0.0015
0.0013
0.0015
0.0014
0.0016
0.0014
0.0016
0.0015
0.0014
0.0015
0.0015
0.0014
0.0013
0.0017
0.0016
0.0015
0.0014
0.0014
0.0015
0.0016
0.0013
0.0015
0.0014
0.0013
25
0.0015
0.0015
0.0001
0.0013
0.0017
1000 h
0.0016
0.0016
0.0014
0.0017
0.0015
0.0016
0.0014
0.0018
0.0015
0.0016
0.0016
0.0016
0.0015
0.0016
0.0016
0.0016
0.0016
0.0016
0.0014
0.0016
0.0016
0.0014
0.0016
0.0014
0.0014
25
0.0016
0.0016
0.0001
0.0014
0.0018
2000 h
0.0021
0.0018
0.0018
0.0020
0.0019
0.0019
0.0018
0.0021
0.0018
0.0018
0.0020
0.0020
0.0018
0.0019
0.0021
0.0019
0.0019
0.0018
0.0018
0.0020
0.0019
0.0018
0.0019
0.0019
0.0019
25
0.0019
0.0019
0.0001
0.0018
0.0021
3000 h
0.0024
0.0022
0.0021
0.0024
0.0022
0.0021
0.0022
0.0024
0.0023
0.0021
0.0023
0.0024
0.0022
0.0023
0.0024
0.0023
0.0024
0.0022
0.0022
0.0024
0.0023
0.0022
0.0023
0.0024
0.0022
25
0.0023
0.0023
0.0001
0.0021
0.0024
4000 h
0.0025
0.0023
0.0023
0.0025
0.0025
0.0023
0.0022
0.0026
0.0024
0.0023
0.0025
0.0026
0.0025
0.0025
0.0026
0.0023
0.0025
0.0024
0.0024
0.0026
0.0025
0.0022
0.0025
0.0025
0.0024
25
0.0024
0.0025
0.0001
0.0022
0.0026
5000 h
0.0025
0.0024
0.0023
0.0027
0.0026
0.0023
0.0024
0.0026
0.0024
0.0022
0.0025
0.0028
0.0026
0.0027
0.0028
0.0025
0.0026
0.0024
0.0026
0.0028
0.0026
0.0024
0.0028
0.0027
0.0026
25
0.0025
0.0026
0.0002
0.0022
0.0028
6000 h
0.0030
0.0028
0.0029
0.0030
0.0032
0.0026
0.0026
0.0029
0.0028
0.0026
0.0029
0.0031
0.0031
0.0030
0.0032
0.0028
0.0030
0.0027
0.0029
0.0032
0.0030
0.0028
0.0032
0.0030
0.0028
25
0.0029
0.0029
0.0002
0.0026
0.0032
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 50 of 65
Report No. : SQETMP424004
Data Set 7 : 105 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
105.5 °C
102.9 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 7‐5
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity u'
0h
0.2672
0.2701
0.2697
0.2669
0.2672
0.2694
0.2670
0.2687
0.2684
0.2696
0.2659
0.2679
0.2683
0.2687
0.2699
0.2685
0.2695
0.2683
0.2654
0.2691
0.2687
0.2686
0.2696
0.2691
0.2695
25
0.2685
0.2687
0.0012
0.2654
0.2701
500 h
0.2656
0.2686
0.2684
0.2654
0.2659
0.2679
0.2656
0.2671
0.2669
0.2682
0.2644
0.2664
0.2669
0.2674
0.2682
0.2669
0.2681
0.2669
0.2640
0.2676
0.2672
0.2672
0.2681
0.2677
0.2682
25
0.2670
0.2672
0.0012
0.2640
0.2686
1000 h
0.2656
0.2685
0.2683
0.2653
0.2658
0.2678
0.2656
0.2669
0.2670
0.2680
0.2643
0.2663
0.2668
0.2672
0.2683
0.2669
0.2679
0.2667
0.2639
0.2675
0.2671
0.2671
0.2680
0.2677
0.2681
25
0.2669
0.2671
0.0012
0.2639
0.2685
2000 h
0.2652
0.2682
0.2679
0.2649
0.2653
0.2675
0.2652
0.2666
0.2666
0.2678
0.2639
0.2659
0.2665
0.2668
0.2678
0.2666
0.2676
0.2666
0.2636
0.2671
0.2668
0.2668
0.2677
0.2672
0.2676
25
0.2666
0.2668
0.0013
0.2636
0.2682
3000 h
0.2648
0.2679
0.2675
0.2645
0.2650
0.2673
0.2648
0.2663
0.2662
0.2676
0.2636
0.2655
0.2661
0.2664
0.2675
0.2662
0.2671
0.2661
0.2632
0.2667
0.2664
0.2664
0.2673
0.2668
0.2673
25
0.2662
0.2664
0.0013
0.2632
0.2679
4000 h
0.2647
0.2678
0.2674
0.2645
0.2648
0.2672
0.2648
0.2661
0.2661
0.2673
0.2634
0.2653
0.2659
0.2662
0.2673
0.2662
0.2671
0.2660
0.2630
0.2665
0.2662
0.2663
0.2671
0.2666
0.2671
25
0.2660
0.2662
0.0012
0.2630
0.2678
5000 h
0.2648
0.2677
0.2674
0.2643
0.2647
0.2672
0.2647
0.2661
0.2660
0.2674
0.2634
0.2651
0.2658
0.2661
0.2671
0.2660
0.2670
0.2659
0.2628
0.2663
0.2662
0.2662
0.2668
0.2665
0.2669
25
0.2659
0.2661
0.0013
0.2628
0.2677
6000 h
0.2643
0.2673
0.2668
0.2639
0.2641
0.2669
0.2644
0.2659
0.2657
0.2671
0.2630
0.2648
0.2653
0.2658
0.2667
0.2657
0.2666
0.2656
0.2625
0.2660
0.2658
0.2658
0.2665
0.2662
0.2667
25
0.2656
0.2658
0.0013
0.2625
0.2673
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 51 of 65
Report No. : SQETMP424004
Data Set 7 : 105 °C, 100 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
105.5 °C
102.9 °C
100 mA
100 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 7‐6
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity v'
0h
0.5221
0.5210
0.5239
0.5232
0.5235
0.5234
0.5217
0.5219
0.5211
0.5238
0.5217
0.5232
0.5237
0.5206
0.5222
0.5218
0.5229
0.5237
0.5213
0.5217
0.5220
0.5227
0.5220
0.5227
0.5225
25
0.5224
0.5222
0.0010
0.5206
0.5239
500 h
0.5222
0.5210
0.5239
0.5232
0.5235
0.5233
0.5216
0.5218
0.5211
0.5237
0.5218
0.5231
0.5237
0.5207
0.5222
0.5218
0.5229
0.5237
0.5213
0.5217
0.5223
0.5226
0.5220
0.5227
0.5226
25
0.5224
0.5223
0.0009
0.5207
0.5239
1000 h
0.5222
0.5211
0.5239
0.5231
0.5234
0.5233
0.5216
0.5217
0.5211
0.5237
0.5218
0.5232
0.5238
0.5207
0.5222
0.5218
0.5228
0.5237
0.5213
0.5216
0.5222
0.5227
0.5220
0.5227
0.5226
25
0.5224
0.5222
0.0009
0.5207
0.5239
2000 h
0.5220
0.5209
0.5239
0.5231
0.5233
0.5232
0.5215
0.5217
0.5211
0.5238
0.5217
0.5230
0.5237
0.5206
0.5221
0.5217
0.5229
0.5236
0.5212
0.5216
0.5221
0.5226
0.5219
0.5225
0.5225
25
0.5223
0.5221
0.0010
0.5206
0.5239
3000 h
0.5220
0.5209
0.5239
0.5231
0.5233
0.5232
0.5215
0.5217
0.5211
0.5237
0.5217
0.5230
0.5237
0.5206
0.5221
0.5217
0.5229
0.5236
0.5212
0.5215
0.5220
0.5226
0.5219
0.5225
0.5225
25
0.5223
0.5221
0.0010
0.5206
0.5239
4000 h
0.5219
0.5209
0.5238
0.5231
0.5232
0.5231
0.5215
0.5216
0.5211
0.5237
0.5215
0.5230
0.5236
0.5205
0.5221
0.5217
0.5229
0.5235
0.5210
0.5214
0.5219
0.5225
0.5217
0.5223
0.5225
25
0.5222
0.5221
0.0010
0.5205
0.5238
5000 h
0.5216
0.5208
0.5237
0.5230
0.5232
0.5229
0.5215
0.5214
0.5209
0.5236
0.5215
0.5228
0.5234
0.5203
0.5221
0.5216
0.5227
0.5234
0.5209
0.5212
0.5217
0.5224
0.5216
0.5221
0.5225
25
0.5221
0.5221
0.0010
0.5203
0.5237
6000 h
0.5215
0.5206
0.5235
0.5228
0.5230
0.5228
0.5213
0.5211
0.5205
0.5235
0.5212
0.5226
0.5231
0.5202
0.5220
0.5215
0.5226
0.5232
0.5207
0.5209
0.5214
0.5222
0.5213
0.5218
0.5224
25
0.5219
0.5218
0.0010
0.5202
0.5235
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 52 of 65
Report No. : SQETMP424004
Data Set 8 : 105 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
106.9 °C
104.2 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Lumen Maintenance (%)
120
Avg. and Max. ‐ Min.
110
100
90
80
70
60
50
Relative Forward Voltage (%)
0h
1000 h
2000 h
3000 h
4000 h
5000 h
115
6000 h
7000 h
Avg. and Max. ‐ Min.
110
105
100
95
90
85
0h
1000 h
2000 h
3000 h
4000 h
5000 h
Chromaticity Shift (Δu'v')
0.007
6000 h
7000 h
Avg. and Max. ‐ Min.
0.006
0.005
0.004
0.003
0.002
0.001
0.000
0h
1000 h
2000 h
3000 h
4000 h
5000 h
6000 h
u'v'
0.5320
0.5300
Avg.
0.5280
R=0.007
0.5260
R=0.004
0.5220
0.5200
0.5180
0.5160
0.2760
0.2740
0.2720
0.2700
0.2680
0.2660
0.2640
0.2620
0.2600
0.5140
0.2580
v'
0.5240
u'
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
7000 h
Page 53 of 65
Report No. : SQETMP424004
Data Set 8 : 105 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
106.9 °C
104.2 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 8‐1
Initial Characteristics
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
CIE1931
CIE1976
Luminous flux
Forward voltage
CCT
ΦV [lm]
VF [V]
TCP [K]
x
y
u'
v'
114.5
114.7
113.7
115.0
115.6
116.2
115.2
114.0
114.6
115.6
115.2
114.8
114.9
114.7
115.0
114.5
115.2
115.2
114.4
115.4
115.2
114.1
114.7
114.3
113.6
25
114.8
114.8
0.60
113.6
116.2
6.25
6.25
6.25
6.25
6.25
6.24
6.24
6.25
6.25
6.25
6.24
6.24
6.25
6.25
6.23
6.25
6.24
6.25
6.25
6.25
6.24
6.23
6.25
6.25
6.23
25
6.25
6.25
0.008
6.23
6.25
2597
2615
2591
2605
2659
2679
2620
2602
2618
2611
2626
2620
2617
2606
2630
2621
2608
2633
2606
2645
2649
2635
2600
2635
2608
25
2621
2618
20.8
2591
2679
0.462
0.460
0.459
0.461
0.456
0.457
0.459
0.460
0.459
0.462
0.460
0.459
0.460
0.460
0.459
0.458
0.461
0.459
0.459
0.458
0.457
0.457
0.461
0.457
0.459
25
0.459
0.459
0.0017
0.456
0.462
0.401
0.400
0.395
0.401
0.399
0.402
0.400
0.398
0.399
0.403
0.401
0.398
0.401
0.399
0.399
0.398
0.402
0.400
0.398
0.400
0.399
0.397
0.400
0.397
0.397
25
0.399
0.399
0.0019
0.395
0.403
0.268
0.267
0.269
0.268
0.265
0.264
0.267
0.268
0.267
0.267
0.267
0.267
0.267
0.268
0.267
0.267
0.268
0.267
0.268
0.266
0.266
0.267
0.268
0.267
0.268
25
0.267
0.267
0.0010
0.264
0.269
0.524
0.523
0.521
0.524
0.522
0.524
0.523
0.523
0.523
0.525
0.524
0.522
0.523
0.523
0.523
0.522
0.524
0.523
0.522
0.523
0.523
0.522
0.523
0.521
0.522
25
0.523
0.523
0.0009
0.521
0.525
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 54 of 65
Report No. : SQETMP424004
Data Set 8 : 105 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
106.9 °C
104.2 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 8‐2
Lumen Maintenance
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Lumen Maintenance % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
99.2
98.6
98.5
98.5
98.4
98.6
98.8
98.6
98.5
98.4
98.5
98.5
98.7
98.6
98.0
98.3
98.4
98.2
98.4
98.8
98.9
98.2
98.4
98.3
97.9
25
98.5
98.5
0.27
97.9
99.2
1000 h
98.3
97.9
97.6
97.8
97.7
97.8
98.1
97.8
97.7
97.7
97.8
97.8
98.1
98.0
97.3
97.6
97.7
97.6
97.7
98.3
98.4
97.6
97.8
97.6
97.2
25
97.8
97.8
0.29
97.2
98.4
2000 h
97.2
96.6
96.5
96.7
96.4
96.5
96.9
96.7
96.5
96.8
96.9
97.0
97.2
97.0
96.3
96.6
96.7
96.5
96.6
96.9
97.2
96.6
96.7
96.5
96.1
25
96.7
96.7
0.28
96.1
97.2
3000 h
96.6
95.7
95.8
95.9
95.5
95.4
96.0
95.9
95.4
96.0
96.1
96.0
95.9
96.0
95.5
95.8
95.7
95.6
95.8
96.3
96.4
95.7
95.6
95.7
95.4
25
95.8
95.8
0.31
95.4
96.6
4000 h
95.3
94.2
94.0
93.9
93.5
93.3
94.0
94.1
93.1
94.2
94.7
94.3
94.0
94.3
93.7
94.4
93.7
93.6
94.0
94.5
94.6
94.1
93.8
93.6
93.9
25
94.0
94.0
0.47
93.1
95.3
5000 h
94.0
92.6
92.2
92.1
91.6
91.5
91.9
91.9
90.8
92.3
93.2
92.5
92.0
92.5
91.9
93.0
91.6
91.8
92.1
92.8
92.9
92.6
92.1
91.9
92.2
25
92.2
92.1
0.64
90.8
94.0
6000 h
92.0
90.5
89.9
89.9
89.0
89.0
89.4
89.4
88.2
90.3
91.2
90.4
89.7
90.4
89.9
91.3
89.3
89.8
89.9
90.9
90.8
90.5
90.0
89.6
90.3
25
90.1
89.9
0.83
88.2
92.0
TM‐21 Projection
Time
1000 h 2000 h 3000 h 4000 h 5000 h 6000 h
ln(Avg.) ‐0.0222 ‐0.0335 ‐0.0426 ‐0.0615 ‐0.0807 ‐0.1048
Test duration used
B
α
R2
Calculated L70 (6K)
Reported L70 (6K)
1000 h
to
6000 h
0.9997
1.6368E‐05
0.9716
21800
hours
21800
hours
Curve‐fit equation:
Φ(t)=Bexp(‐αt)
Lumen maintenance life eqation:
L 70 =ln(B/0.7)/α
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 55 of 65
Report No. : SQETMP424004
Data Set 8 : 105 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
106.9 °C
104.2 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 8‐3
Forward Voltage
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Relative Forward Voltage % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
99.5
99.4
99.4
99.4
99.5
99.5
99.5
99.4
99.4
99.5
99.4
99.5
99.4
99.4
99.6
99.5
99.4
99.3
99.4
99.4
99.4
99.7
99.4
99.3
99.6
25
99.4
99.4
0.09
99.3
99.7
1000 h
99.6
99.5
99.4
99.5
99.5
99.6
99.5
99.6
99.4
99.5
99.5
99.6
99.5
99.5
99.7
99.5
99.4
99.3
99.5
99.5
99.5
99.8
99.4
99.3
99.6
25
99.5
99.5
0.11
99.3
99.8
2000 h
100.0
100.0
99.5
100.0
99.7
100.0
99.7
100.0
99.6
99.8
99.7
99.8
99.9
99.9
99.9
100.2
99.6
99.4
99.8
100.0
99.6
100.0
99.9
99.5
99.8
25
99.8
99.8
0.20
99.4
100.2
3000 h
100.3
101.1
99.7
101.3
100.1
101.2
99.8
100.7
99.7
100.1
99.9
100.0
101.4
100.7
100.1
102.1
99.8
99.6
100.7
100.9
99.7
100.1
101.7
99.6
100.0
25
100.4
100.1
0.73
99.6
102.1
4000 h
100.5
101.5
99.9
103.6
100.7
102.5
99.9
101.6
99.8
100.4
100.1
100.1
103.7
101.5
100.2
105.2
99.9
99.6
101.4
101.5
99.8
100.3
103.2
99.8
100.2
25
101.1
100.4
1.50
99.6
105.2
5000 h
100.8
101.5
100.1
104.8
101.5
102.2
100.0
102.8
100.0
100.7
100.4
100.3
105.5
102.1
100.4
107.5
100.1
99.8
101.7
102.1
100.0
100.5
102.7
100.0
100.4
25
101.5
100.7
1.95
99.8
107.5
6000 h
101.2
101.7
100.2
102.9
102.0
102.1
100.2
104.4
100.1
101.1
100.6
100.5
106.8
102.3
100.7
107.6
100.3
100.0
102.0
102.5
100.1
100.8
102.5
100.2
100.6
25
101.7
101.1
1.99
100.0
107.6
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 56 of 65
Report No. : SQETMP424004
Data Set 8 : 105 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
106.9 °C
104.2 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 8‐4
Chromaticity Shift
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity Shift Δu'v'
0h
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
25
0.0000
0.0000
0.0000
0.0000
0.0000
500 h
0.0016
0.0015
0.0017
0.0016
0.0017
0.0016
0.0017
0.0015
0.0017
0.0016
0.0016
0.0015
0.0015
0.0016
0.0014
0.0016
0.0016
0.0016
0.0016
0.0015
0.0015
0.0016
0.0016
0.0017
0.0017
25
0.0016
0.0016
0.0001
0.0014
0.0017
1000 h
0.0017
0.0018
0.0019
0.0017
0.0020
0.0018
0.0019
0.0018
0.0020
0.0019
0.0016
0.0018
0.0017
0.0019
0.0017
0.0019
0.0017
0.0017
0.0017
0.0016
0.0017
0.0018
0.0018
0.0018
0.0019
25
0.0018
0.0018
0.0001
0.0016
0.0020
2000 h
0.0022
0.0021
0.0023
0.0021
0.0024
0.0022
0.0023
0.0021
0.0024
0.0023
0.0022
0.0021
0.0022
0.0023
0.0020
0.0023
0.0022
0.0020
0.0022
0.0020
0.0022
0.0023
0.0022
0.0022
0.0024
25
0.0022
0.0022
0.0001
0.0020
0.0024
3000 h
0.0025
0.0025
0.0027
0.0024
0.0029
0.0026
0.0026
0.0024
0.0028
0.0027
0.0027
0.0026
0.0025
0.0027
0.0024
0.0025
0.0027
0.0026
0.0025
0.0023
0.0026
0.0027
0.0026
0.0026
0.0028
25
0.0026
0.0026
0.0001
0.0023
0.0029
4000 h
0.0027
0.0027
0.0029
0.0025
0.0031
0.0028
0.0029
0.0026
0.0031
0.0027
0.0027
0.0027
0.0025
0.0028
0.0026
0.0026
0.0029
0.0027
0.0027
0.0025
0.0028
0.0029
0.0027
0.0028
0.0030
25
0.0028
0.0027
0.0002
0.0025
0.0031
5000 h
0.0028
0.0028
0.0031
0.0028
0.0032
0.0029
0.0029
0.0028
0.0033
0.0029
0.0029
0.0028
0.0029
0.0029
0.0027
0.0026
0.0030
0.0029
0.0028
0.0028
0.0029
0.0030
0.0029
0.0030
0.0031
25
0.0029
0.0029
0.0001
0.0026
0.0033
6000 h
0.0031
0.0030
0.0034
0.0033
0.0036
0.0032
0.0034
0.0032
0.0038
0.0034
0.0032
0.0032
0.0031
0.0033
0.0031
0.0030
0.0035
0.0033
0.0032
0.0031
0.0033
0.0035
0.0033
0.0034
0.0034
25
0.0033
0.0033
0.0002
0.0030
0.0038
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 57 of 65
Report No. : SQETMP424004
Data Set 8 : 105 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
106.9 °C
104.2 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 8‐5
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity u'
0h
0.2689
0.2681
0.2697
0.2685
0.2663
0.2649
0.2679
0.2689
0.2681
0.2680
0.2673
0.2681
0.2679
0.2687
0.2673
0.2679
0.2682
0.2672
0.2687
0.2665
0.2666
0.2675
0.2687
0.2674
0.2687
25
0.2678
0.2680
0.0010
0.2649
0.2697
500 h
0.2673
0.2666
0.2680
0.2669
0.2646
0.2633
0.2662
0.2674
0.2664
0.2664
0.2657
0.2666
0.2664
0.2671
0.2658
0.2663
0.2666
0.2657
0.2671
0.2651
0.2651
0.2659
0.2672
0.2657
0.2670
25
0.2663
0.2664
0.0010
0.2633
0.2680
1000 h
0.2671
0.2663
0.2678
0.2668
0.2643
0.2631
0.2660
0.2671
0.2662
0.2661
0.2657
0.2663
0.2662
0.2668
0.2656
0.2661
0.2664
0.2656
0.2669
0.2649
0.2649
0.2657
0.2670
0.2656
0.2668
25
0.2660
0.2662
0.0010
0.2631
0.2678
2000 h
0.2667
0.2660
0.2673
0.2664
0.2640
0.2628
0.2656
0.2668
0.2657
0.2657
0.2651
0.2660
0.2657
0.2663
0.2652
0.2657
0.2659
0.2652
0.2665
0.2645
0.2644
0.2652
0.2666
0.2652
0.2663
25
0.2656
0.2657
0.0010
0.2628
0.2673
3000 h
0.2664
0.2656
0.2670
0.2661
0.2634
0.2623
0.2653
0.2665
0.2654
0.2652
0.2646
0.2655
0.2654
0.2660
0.2649
0.2654
0.2655
0.2647
0.2662
0.2642
0.2640
0.2648
0.2661
0.2648
0.2659
25
0.2652
0.2654
0.0010
0.2623
0.2670
4000 h
0.2661
0.2654
0.2668
0.2659
0.2633
0.2621
0.2650
0.2663
0.2650
0.2653
0.2646
0.2654
0.2654
0.2659
0.2647
0.2653
0.2653
0.2645
0.2660
0.2640
0.2638
0.2646
0.2660
0.2646
0.2657
25
0.2651
0.2653
0.0010
0.2621
0.2668
5000 h
0.2660
0.2652
0.2666
0.2657
0.2631
0.2620
0.2650
0.2661
0.2649
0.2651
0.2644
0.2652
0.2651
0.2658
0.2645
0.2653
0.2652
0.2644
0.2659
0.2637
0.2637
0.2645
0.2658
0.2644
0.2656
25
0.2649
0.2651
0.0010
0.2620
0.2666
6000 h
0.2658
0.2651
0.2663
0.2652
0.2628
0.2618
0.2645
0.2657
0.2644
0.2646
0.2641
0.2649
0.2649
0.2654
0.2642
0.2650
0.2647
0.2640
0.2655
0.2634
0.2634
0.2641
0.2654
0.2640
0.2653
25
0.2646
0.2647
0.0010
0.2618
0.2663
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 58 of 65
Report No. : SQETMP424004
Data Set 8 : 105 °C, 150 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
106.9 °C
104.2 °C
150 mA
150 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 8‐6
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity v'
0h
0.5237
0.5234
0.5211
0.5238
0.5222
0.5238
0.5230
0.5225
0.5226
0.5245
0.5237
0.5223
0.5234
0.5228
0.5227
0.5220
0.5241
0.5232
0.5221
0.5229
0.5227
0.5216
0.5234
0.5213
0.5218
25
0.5228
0.5228
0.0009
0.5211
0.5245
500 h
0.5238
0.5234
0.5212
0.5239
0.5221
0.5237
0.5230
0.5225
0.5225
0.5245
0.5237
0.5223
0.5234
0.5229
0.5227
0.5221
0.5240
0.5232
0.5220
0.5229
0.5226
0.5214
0.5234
0.5211
0.5217
25
0.5228
0.5229
0.0009
0.5211
0.5245
1000 h
0.5238
0.5233
0.5212
0.5239
0.5220
0.5237
0.5231
0.5224
0.5225
0.5245
0.5236
0.5223
0.5234
0.5230
0.5226
0.5220
0.5241
0.5233
0.5221
0.5229
0.5225
0.5214
0.5233
0.5210
0.5216
25
0.5228
0.5229
0.0009
0.5210
0.5245
2000 h
0.5238
0.5232
0.5211
0.5239
0.5219
0.5235
0.5231
0.5225
0.5225
0.5244
0.5236
0.5222
0.5233
0.5229
0.5226
0.5220
0.5240
0.5233
0.5220
0.5228
0.5224
0.5215
0.5233
0.5210
0.5216
25
0.5227
0.5228
0.0009
0.5210
0.5244
3000 h
0.5240
0.5232
0.5213
0.5238
0.5219
0.5235
0.5232
0.5226
0.5224
0.5246
0.5236
0.5223
0.5234
0.5229
0.5226
0.5219
0.5240
0.5233
0.5220
0.5228
0.5225
0.5216
0.5234
0.5210
0.5216
25
0.5228
0.5228
0.0009
0.5210
0.5246
4000 h
0.5241
0.5232
0.5213
0.5238
0.5218
0.5236
0.5231
0.5226
0.5223
0.5246
0.5238
0.5224
0.5234
0.5228
0.5227
0.5220
0.5241
0.5232
0.5220
0.5229
0.5224
0.5217
0.5235
0.5208
0.5216
25
0.5228
0.5228
0.0010
0.5208
0.5246
5000 h
0.5241
0.5232
0.5212
0.5238
0.5217
0.5235
0.5231
0.5224
0.5222
0.5245
0.5237
0.5222
0.5235
0.5228
0.5226
0.5220
0.5240
0.5231
0.5219
0.5229
0.5223
0.5216
0.5234
0.5208
0.5215
25
0.5227
0.5228
0.0010
0.5208
0.5245
6000 h
0.5240
0.5231
0.5210
0.5237
0.5217
0.5233
0.5228
0.5222
0.5219
0.5244
0.5235
0.5221
0.5234
0.5226
0.5225
0.5219
0.5238
0.5229
0.5217
0.5227
0.5221
0.5214
0.5231
0.5205
0.5213
25
0.5225
0.5226
0.0010
0.5205
0.5244
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 59 of 65
Report No. : SQETMP424004
Data Set 9 : 105 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
107.6 °C
104.3 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Lumen Maintenance (%)
120
Avg. and Max. ‐ Min.
110
100
90
80
70
60
50
Relative Forward Voltage (%)
0h
1000 h
2000 h
3000 h
4000 h
5000 h
115
6000 h
7000 h
Avg. and Max. ‐ Min.
110
105
100
95
90
85
0h
1000 h
2000 h
3000 h
4000 h
5000 h
Chromaticity Shift (Δu'v')
0.007
6000 h
7000 h
Avg. and Max. ‐ Min.
0.006
0.005
0.004
0.003
0.002
0.001
0.000
0h
1000 h
2000 h
3000 h
4000 h
5000 h
6000 h
u'v'
0.5320
0.5300
Avg.
0.5280
R=0.007
0.5260
R=0.004
0.5220
0.5200
0.5180
0.5160
0.2760
0.2740
0.2720
0.2700
0.2680
0.2660
0.2640
0.2620
0.2600
0.5140
0.2580
v'
0.5240
u'
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
7000 h
Page 60 of 65
Report No. : SQETMP424004
Data Set 9 : 105 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
107.6 °C
104.3 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 9‐1
Initial Characteristics
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
CIE1931
CIE1976
Luminous flux
Forward voltage
CCT
ΦV [lm]
VF [V]
TCP [K]
x
y
u'
v'
144.8
148.1
146.6
147.0
147.4
148.1
146.8
146.7
145.6
149.1
146.9
147.0
147.1
146.4
147.0
147.4
146.9
146.4
147.6
146.0
147.0
146.1
146.8
146.7
146.5
25
146.9
146.9
0.85
144.8
149.1
6.49
6.49
6.49
6.50
6.49
6.50
6.49
6.51
6.50
6.50
6.50
6.49
6.50
6.50
6.50
6.49
6.50
6.50
6.50
6.50
6.50
6.51
6.51
6.50
6.50
25
6.50
6.50
0.006
6.49
6.51
2584
2658
2611
2624
2625
2624
2616
2626
2585
2680
2619
2607
2627
2618
2628
2636
2591
2580
2605
2601
2620
2587
2637
2584
2586
25
2614
2618
24.4
2580
2680
0.460
0.457
0.461
0.459
0.460
0.461
0.459
0.459
0.461
0.457
0.459
0.461
0.459
0.459
0.458
0.458
0.463
0.463
0.462
0.461
0.458
0.461
0.456
0.463
0.463
25
0.460
0.460
0.0020
0.456
0.463
0.395
0.400
0.401
0.399
0.401
0.403
0.399
0.400
0.398
0.403
0.399
0.401
0.399
0.398
0.399
0.400
0.401
0.401
0.403
0.399
0.397
0.398
0.396
0.401
0.402
25
0.400
0.400
0.0020
0.395
0.403
0.269
0.265
0.268
0.267
0.267
0.267
0.267
0.267
0.269
0.264
0.267
0.268
0.267
0.267
0.267
0.266
0.268
0.269
0.268
0.268
0.267
0.269
0.267
0.269
0.269
25
0.267
0.267
0.0012
0.264
0.269
0.521
0.523
0.524
0.523
0.523
0.525
0.523
0.523
0.523
0.524
0.523
0.524
0.523
0.522
0.522
0.523
0.524
0.524
0.525
0.523
0.522
0.523
0.521
0.524
0.525
25
0.523
0.523
0.0010
0.521
0.525
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 61 of 65
Report No. : SQETMP424004
Data Set 9 : 105 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
107.6 °C
104.3 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 9‐2
Lumen Maintenance
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Lumen Maintenance % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
98.1
98.4
98.0
98.2
98.2
98.2
98.3
98.6
98.2
98.3
98.5
98.3
98.3
98.2
98.1
98.1
98.3
97.9
98.4
98.7
98.0
98.4
98.2
98.2
98.2
25
98.3
98.2
0.18
97.9
98.7
1000 h
97.1
97.5
97.1
97.0
97.2
97.1
97.3
97.8
97.2
97.4
97.5
97.5
97.5
97.2
97.0
97.3
97.5
97.1
97.6
98.1
97.2
97.5
97.1
97.3
97.5
25
97.3
97.3
0.24
97.0
98.1
2000 h
95.7
96.1
95.8
95.4
95.6
95.4
95.8
96.4
95.6
96.1
95.8
96.0
95.7
96.0
95.9
95.9
95.8
95.6
96.4
96.8
95.9
96.1
95.9
95.7
96.2
25
95.9
95.9
0.31
95.4
96.8
3000 h
94.8
95.4
95.0
95.1
95.2
94.7
95.4
95.8
94.7
95.3
95.1
95.5
94.6
95.5
95.3
95.2
94.7
94.5
95.7
96.0
95.2
95.0
95.1
94.6
95.6
25
95.1
95.2
0.40
94.5
96.0
4000 h
93.0
93.7
93.4
94.8
94.7
93.9
94.5
94.2
93.0
93.7
93.7
93.9
93.0
94.1
93.8
93.4
92.5
93.0
93.9
94.3
93.4
92.8
93.2
92.7
94.4
25
93.6
93.7
0.65
92.5
94.8
5000 h
91.1
91.9
91.1
94.2
94.3
93.2
93.1
92.6
91.2
91.7
92.0
92.1
91.4
92.6
91.9
91.8
90.5
91.6
92.3
92.9
91.7
90.7
91.5
90.8
93.2
25
92.1
91.9
1.00
90.5
94.3
6000 h
88.6
89.5
88.5
92.4
92.2
91.2
89.7
90.7
88.9
89.5
90.1
89.9
89.6
90.6
89.5
89.7
88.2
89.7
90.2
91.1
89.4
88.1
89.4
88.5
91.5
25
89.9
89.7
1.15
88.1
92.4
TM‐21 Projection
Time
1000 h 2000 h 3000 h 4000 h 5000 h 6000 h
ln(Avg.) ‐0.0270 ‐0.0418 ‐0.0497 ‐0.0657 ‐0.0828 ‐0.1068
Test duration used
B
α
R2
Calculated L70 (6K)
Reported L70 (6K)
1000 h
to
6000 h
0.9915
1.5365E‐05
0.9757
22700
hours
22700
hours
Curve‐fit equation:
Φ(t)=Bexp(‐αt)
Lumen maintenance life eqation:
L 70 =ln(B/0.7)/α
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 62 of 65
Report No. : SQETMP424004
Data Set 9 : 105 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
107.6 °C
104.3 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 9‐3
Forward Voltage
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Relative Forward Voltage % ( Normalized to 100 % at 0 hours )
0h
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
100.0
25
100.0
100.0
0.00
100.0
100.0
500 h
99.3
99.5
99.6
99.4
99.5
99.4
99.5
99.4
99.4
99.3
99.4
99.5
99.3
99.4
99.4
99.4
99.3
99.4
99.4
99.6
99.4
99.3
99.3
99.3
99.3
25
99.4
99.4
0.09
99.3
99.6
1000 h
99.4
99.6
99.8
99.6
99.7
99.6
99.7
99.7
99.9
99.5
99.9
99.7
99.6
99.6
99.6
99.6
99.6
99.7
99.6
99.8
99.7
99.4
99.5
99.6
99.4
25
99.6
99.6
0.13
99.4
99.9
2000 h
99.9
100.0
101.9
101.3
100.9
101.0
100.8
100.5
101.0
100.2
103.0
100.9
100.2
100.6
100.3
100.0
100.1
101.4
100.0
100.1
100.5
99.8
100.1
101.5
99.8
25
100.6
100.5
0.77
99.8
103.0
3000 h
100.7
100.6
105.2
103.9
104.3
104.3
104.3
101.2
101.8
101.8
106.9
102.5
100.6
101.6
102.9
100.1
100.7
103.0
100.4
100.4
101.3
100.1
100.5
104.5
100.2
25
102.2
101.6
1.91
100.1
106.9
4000 h
101.7
101.1
106.6
103.0
105.0
106.1
105.5
102.1
102.4
102.1
106.1
102.8
101.2
102.5
105.8
100.5
101.2
103.6
100.8
100.8
102.0
100.6
101.1
106.6
100.7
25
102.9
102.1
2.13
100.5
106.6
5000 h
102.0
101.5
106.9
104.1
104.4
104.6
107.1
107.7
103.0
102.9
105.5
102.7
101.7
103.1
108.4
100.8
101.7
104.2
101.1
101.1
102.8
101.0
101.6
107.9
101.1
25
103.5
102.9
2.43
100.8
108.4
6000 h
102.3
101.9
111.1
103.3
103.4
107.4
108.8
103.9
103.8
103.2
104.9
102.8
102.1
103.7
109.5
101.0
102.0
104.4
101.4
101.4
103.4
101.4
101.8
110.1
101.4
25
104.0
103.3
2.97
101.0
111.1
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 63 of 65
Report No. : SQETMP424004
Data Set 9 : 105 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
107.6 °C
104.3 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 9‐4
Chromaticity Shift
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity Shift Δu'v'
0h
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
0.0000
25
0.0000
0.0000
0.0000
0.0000
0.0000
500 h
0.0020
0.0018
0.0018
0.0019
0.0017
0.0018
0.0017
0.0018
0.0019
0.0018
0.0017
0.0017
0.0018
0.0017
0.0018
0.0017
0.0018
0.0017
0.0016
0.0017
0.0017
0.0017
0.0018
0.0018
0.0017
25
0.0018
0.0018
0.0001
0.0016
0.0020
1000 h
0.0024
0.0022
0.0020
0.0020
0.0019
0.0021
0.0019
0.0020
0.0022
0.0021
0.0020
0.0020
0.0021
0.0020
0.0020
0.0020
0.0021
0.0021
0.0018
0.0021
0.0021
0.0021
0.0022
0.0022
0.0020
25
0.0021
0.0021
0.0001
0.0018
0.0024
2000 h
0.0027
0.0026
0.0025
0.0025
0.0022
0.0023
0.0022
0.0026
0.0025
0.0025
0.0022
0.0023
0.0024
0.0022
0.0024
0.0025
0.0024
0.0025
0.0023
0.0025
0.0025
0.0024
0.0026
0.0024
0.0025
25
0.0024
0.0025
0.0001
0.0022
0.0027
3000 h
0.0031
0.0030
0.0029
0.0030
0.0027
0.0027
0.0026
0.0030
0.0030
0.0031
0.0026
0.0027
0.0028
0.0026
0.0028
0.0029
0.0028
0.0030
0.0027
0.0029
0.0028
0.0028
0.0030
0.0027
0.0029
25
0.0029
0.0028
0.0002
0.0026
0.0031
4000 h
0.0031
0.0030
0.0030
0.0030
0.0028
0.0028
0.0026
0.0030
0.0031
0.0031
0.0027
0.0028
0.0030
0.0026
0.0028
0.0030
0.0029
0.0031
0.0027
0.0030
0.0028
0.0029
0.0031
0.0027
0.0030
25
0.0029
0.0030
0.0002
0.0026
0.0031
5000 h
0.0033
0.0031
0.0030
0.0030
0.0028
0.0030
0.0028
0.0031
0.0032
0.0033
0.0029
0.0029
0.0029
0.0026
0.0029
0.0032
0.0030
0.0031
0.0030
0.0032
0.0030
0.0032
0.0032
0.0029
0.0030
25
0.0030
0.0030
0.0002
0.0026
0.0033
6000 h
0.0036
0.0034
0.0034
0.0032
0.0031
0.0031
0.0030
0.0034
0.0035
0.0036
0.0031
0.0031
0.0032
0.0028
0.0032
0.0035
0.0034
0.0034
0.0032
0.0034
0.0033
0.0036
0.0035
0.0032
0.0033
25
0.0033
0.0033
0.0002
0.0028
0.0036
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 64 of 65
Report No. : SQETMP424004
Data Set 9 : 105 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
107.6 °C
104.3 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 9‐5
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity u'
0h
0.2701
0.2659
0.2682
0.2678
0.2676
0.2675
0.2681
0.2675
0.2697
0.2648
0.2680
0.2684
0.2676
0.2681
0.2674
0.2671
0.2691
0.2696
0.2682
0.2688
0.2681
0.2696
0.2673
0.2694
0.2694
25
0.2681
0.2681
0.0012
0.2648
0.2701
500 h
0.2680
0.2641
0.2664
0.2659
0.2659
0.2656
0.2664
0.2657
0.2678
0.2630
0.2662
0.2667
0.2658
0.2664
0.2657
0.2654
0.2673
0.2679
0.2667
0.2671
0.2664
0.2679
0.2655
0.2676
0.2676
25
0.2664
0.2664
0.0012
0.2630
0.2680
1000 h
0.2677
0.2638
0.2662
0.2658
0.2657
0.2653
0.2662
0.2655
0.2675
0.2627
0.2659
0.2664
0.2655
0.2660
0.2654
0.2650
0.2670
0.2675
0.2664
0.2667
0.2660
0.2675
0.2651
0.2672
0.2673
25
0.2661
0.2660
0.0012
0.2627
0.2677
2000 h
0.2674
0.2634
0.2657
0.2654
0.2654
0.2652
0.2660
0.2649
0.2671
0.2623
0.2658
0.2661
0.2652
0.2659
0.2650
0.2646
0.2668
0.2671
0.2660
0.2664
0.2656
0.2672
0.2647
0.2671
0.2668
25
0.2657
0.2658
0.0012
0.2623
0.2674
3000 h
0.2670
0.2630
0.2653
0.2649
0.2649
0.2648
0.2655
0.2645
0.2667
0.2618
0.2654
0.2658
0.2649
0.2655
0.2646
0.2642
0.2663
0.2666
0.2656
0.2659
0.2653
0.2668
0.2643
0.2667
0.2665
25
0.2653
0.2654
0.0012
0.2618
0.2670
4000 h
0.2670
0.2630
0.2653
0.2650
0.2650
0.2647
0.2656
0.2646
0.2666
0.2618
0.2653
0.2657
0.2647
0.2656
0.2647
0.2642
0.2663
0.2665
0.2656
0.2658
0.2654
0.2667
0.2642
0.2667
0.2665
25
0.2653
0.2654
0.0012
0.2618
0.2670
5000 h
0.2668
0.2629
0.2653
0.2650
0.2650
0.2646
0.2654
0.2645
0.2665
0.2616
0.2652
0.2657
0.2648
0.2656
0.2646
0.2639
0.2661
0.2665
0.2654
0.2657
0.2652
0.2664
0.2641
0.2666
0.2665
25
0.2652
0.2653
0.0012
0.2616
0.2668
6000 h
0.2665
0.2625
0.2648
0.2647
0.2646
0.2644
0.2651
0.2641
0.2662
0.2613
0.2649
0.2654
0.2644
0.2653
0.2643
0.2635
0.2657
0.2662
0.2650
0.2654
0.2648
0.2660
0.2638
0.2662
0.2661
25
0.2649
0.2649
0.0012
0.2613
0.2665
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
Page 65 of 65
Report No. : SQETMP424004
Data Set 9 : 105 °C, 200 mA
Actual Case Temperature [TS]
Actual Ambient Temperature [TA]
Drive Current [IF]
Measurement Current
107.6 °C
104.3 °C
200 mA
200 mA
NOTES:
TS and TA were measured during initial setup.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
TABLE 9‐6
Chromaticity
LED
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
n
Avg.
Med.
σ
Min.
Max.
Chromaticity v'
0h
0.5213
0.5228
0.5237
0.5226
0.5235
0.5246
0.5227
0.5231
0.5229
0.5239
0.5229
0.5239
0.5229
0.5222
0.5224
0.5228
0.5243
0.5239
0.5248
0.5231
0.5217
0.5226
0.5213
0.5241
0.5245
25
0.5231
0.5229
0.0010
0.5213
0.5248
500 h
0.5212
0.5229
0.5236
0.5227
0.5236
0.5245
0.5227
0.5230
0.5228
0.5239
0.5230
0.5238
0.5229
0.5222
0.5224
0.5228
0.5241
0.5238
0.5248
0.5231
0.5216
0.5226
0.5212
0.5242
0.5244
25
0.5231
0.5230
0.0010
0.5212
0.5248
1000 h
0.5214
0.5228
0.5236
0.5227
0.5236
0.5246
0.5227
0.5231
0.5230
0.5240
0.5231
0.5238
0.5230
0.5223
0.5225
0.5230
0.5241
0.5238
0.5248
0.5232
0.5216
0.5226
0.5213
0.5242
0.5246
25
0.5232
0.5231
0.0010
0.5213
0.5248
2000 h
0.5215
0.5229
0.5236
0.5228
0.5238
0.5248
0.5228
0.5232
0.5230
0.5242
0.5230
0.5240
0.5232
0.5223
0.5227
0.5231
0.5242
0.5238
0.5250
0.5232
0.5218
0.5227
0.5214
0.5242
0.5247
25
0.5233
0.5232
0.0010
0.5214
0.5250
3000 h
0.5216
0.5233
0.5240
0.5233
0.5242
0.5251
0.5231
0.5236
0.5234
0.5245
0.5234
0.5243
0.5234
0.5226
0.5229
0.5233
0.5244
0.5241
0.5253
0.5234
0.5220
0.5229
0.5217
0.5245
0.5250
25
0.5236
0.5234
0.0010
0.5216
0.5253
4000 h
0.5217
0.5234
0.5242
0.5235
0.5245
0.5254
0.5234
0.5237
0.5235
0.5246
0.5236
0.5245
0.5236
0.5227
0.5230
0.5234
0.5245
0.5243
0.5254
0.5235
0.5222
0.5230
0.5217
0.5246
0.5253
25
0.5237
0.5236
0.0010
0.5217
0.5254
5000 h
0.5217
0.5234
0.5242
0.5236
0.5246
0.5255
0.5235
0.5237
0.5234
0.5246
0.5237
0.5246
0.5235
0.5228
0.5229
0.5234
0.5244
0.5244
0.5255
0.5236
0.5222
0.5230
0.5218
0.5247
0.5254
25
0.5238
0.5236
0.0010
0.5217
0.5255
6000 h
0.5214
0.5232
0.5238
0.5232
0.5244
0.5252
0.5230
0.5235
0.5231
0.5244
0.5236
0.5242
0.5234
0.5224
0.5225
0.5231
0.5242
0.5242
0.5253
0.5235
0.5220
0.5227
0.5215
0.5243
0.5253
25
0.5235
0.5235
0.0011
0.5214
0.5253
The certificate shall not be reproduced, except in full, without written approval of the laboratory.
The laboratory is accredited in acordance with the recognized International Standard ISO/IEC 17025:2005.
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Page 2 of 37
Report No.: 15094290 001
TEST REPORT
IEC 60598-2-3
Luminaires
Part 2: Particular requirements:
Section Three – Luminaires for road and street lighting
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Report Reference No. ..................... :
15094290 001
Date of issue..................................... :
See cover page
Total number of pages ......................
See cover page
CB Testing Laboratory................... :
TÜV Rheinland (Shanghai) Co., Ltd.
Address ............................................ :
B1-13F No. 177, Lane 777 West Guangzhong Road Zhabei District
Shanghai CHINA
Applicant’s name ............................ :
Shanghai Shinetoo Lighting Co., Ltd.
Address ............................................ :
No. 1505 Xinfei Road, Xinqiao Town, Songjiang Industrial zone,
Shanghia 201612, P.R. China
Test specification:
Standard ........................................... :
IEC 60598-2-3(Third Edition):2002 + A1:2011 used in conjunction
with IEC 60598-1(Seventh Edition):2008
Test procedure ................................. :
CB
Non-standard test method…………..:
N/A
Test Report Form No. ..................... :
IEC60598_2_3I
Test Report Form(s) Originator ........ :
Intertek Semko AB
Master TRF....................................... :
2013-03
Copyright © 2013 Worldwide System for Conformity Testing and Certification of Electrotechnical
Equipment and Components (IECEE), Geneva, Switzerland. All rights reserved.
This publication may be reproduced in whole or in part for non-commercial purposes as long as the IECEE is acknowledged as
copyright owner and source of the material. IECEE takes no responsibility for and will not assume liability for damages resulting from
the reader's interpretation of the reproduced material due to its placement and context.
If this Test Report Form is used by non-IECEE members, the IECEE/IEC logo and the reference to the CB
Scheme procedure shall be removed.
This report is not valid as a CB Test Report unless signed by an approved CB Testing Laboratory and
appended to a CB Test Certificate issued by an NCB in accordance with IECEE 02.
Test item description .....................:
LED high mast light
Trade Mark ....................................... :
N/A
Manufacturer .................................... :
Shanghai Shinetoo Lighting Co., Ltd.
Address ............................................ :
No. 1505 Xinfei Road, Xinqiao Town, Songjiang Industrial zone,
Shanghia 201612, P.R. China
Model/Type reference ...................... :
ST-LHM300N,ST-LHM400N,ST-LHM500N,ST-LHM600N
Ratings ............................................. :
AC100-240V, 50/60Hz, IP65, detail see the “General information”
Page 3 of 37
Report No.: 15094290 001
Testing procedure and testing location:
Testing Laboratory:
TÜV Rheinland (Shanghai) Co., Ltd.
Testing location/ address ..........................: B1-13F No. 177, Lane 777 West Guangzhong Road Zhabei
District Shanghai CHINA
Associated CB Laboratory:
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Testing location/ address ..........................:
Tested by (name + signature) .........: See cover page
Approved by (+ signature) ...............: See cover page
Testing procedure: TMP
Tested by (name + signature) .........:
Approved by (+ signature) ...............:
Testing location/ address ..........................:
Testing procedure: WMT
Tested by (name + signature) .........:
Witnessed by (+ signature) .............:
Approved by (+ signature) ...............:
Testing location/ address ..........................:
Testing procedure: SMT
Tested by (name + signature) .........:
Approved by (+ signature) ...............:
Supervised by (+ signature) ............:
Testing location/ address ..........................:
Testing procedure: RMT
Tested by (name + signature) .........:
Approved by (+ signature) ...............:
Supervised by (+ signature) ............:
Testing location/ address ..........................:
Page 4 of 37
Report No.: 15094290 001
Summary of testing:
Tests performed (name of test and test clause):
All related test was tested against test specification:
IEC 60598-1:2008, IEC 60598-2-3:2003+A1.
All related tests are performed in
TÜV Rheinland (Shanghai) Co., Ltd.
Testing location:
TÜV Rheinland (Shanghai) Co., Ltd.
B1-13F No. 177, Lane 777 West Guangzhong Road
Zhabei District Shanghai CHINA
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Summary of compliance with National Differences: see page 36-37
List of countries addressed:
EU Group Differences.
The product fulfils the requirements of IEC 60598-2-3:2002 + A1:2011 used in conjunction with
IEC 60598-1:2008, EN 60598-2-3:2003 + A1:2011 used in conjunction with EN 60598-1:2008 + A11:2009.
TRF No. IEC60598_2_3G
Page 5 of 37
Report No.: 15094290 001
Copy of marking plate
Take model ST-HML300N as an example:
LED High Mast Light
Model No.• •ST-HML300N
Rated Voltage: AC 100V-240V, 50/60Hz
Rated wattage: 300W
CCT: 5000K
IP65
Ta: 50°C
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Shanghai Shinetoo Lighting Co., Ltd.
No. 1505 Xinfei Road, Xinqiao Town, Songjiang Industrial zone, Shanghia
201612, P.R. China
Importer: XXXXXXX
Address: XXXX
Rated voltage(V, Hz)
Rated wattage
(W)
IP degree
CCT
(K)
ST-HML300N
AC100-240V,50/60Hz
300W
IP65
2700K-6500K
ST-HML400N
AC100-240V,50/60Hz
400W
IP65
2700K-6500K
ST-HML500N
AC100-240V,50/60Hz
500W
IP65
2700K-6500K
ST-HML600N
AC100-240V,50/60Hz
600W
IP65
2700K-6500K
Type List
TRF No. IEC60598_2_3G
Page 6 of 37
Test item particulars .............................................. :
LED high mast light
Classification of installation and use ........................ :
Class I
Supply Connection ................................................... :
Connecting leads
Report No.: 15094290 001
.................................................................................. :
.................................................................................. :
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Possible test case verdicts:
- test case does not apply to the test object ............. :
N/A
- test object does meet the requirement ................... :
P (Pass)
- test object does not meet the requirement ............. :
F (Fail)
Testing ..................................................................... :
Date of receipt of test item ....................................... :
23.03.2016
Date (s) of performance of tests ............................... :
12.04.2016-25.04.2016
General remarks:
The test results presented in this report relate only to the object tested.
This report shall not be reproduced, except in full, without the written approval of the Issuing testing
laboratory.
"(See Enclosure #)" refers to additional information appended to the report.
"(See appended table)" refers to a table appended to the report.
Throughout this report a
comma /
point is used as the decimal separator.
Clause numbers between brackets refer to clauses in IEC 60598-1
Manufacturer’s Declaration per sub-clause 4.2.5 of IECEE 02:
The application for obtaining a CB Test Certificate
includes more than one factory location and a
declaration from the Manufacturer stating that the
sample(s) submitted for evaluation is (are)
representative of the products from each factory has
been provided .............................................................. :
Yes
Not applicable
When differences exist; they shall be identified in the General product information section.
Name and address of factory (ies) ...................... : Shanghai Shinetoo Lighting Co., Ltd.
No. 1505 Xinfei Road, Xinqiao Town, Songjiang
Industrial zone, Shanghia 201612, P.R. China
TRF No. IEC60598_2_3G
Page 7 of 37
Report No.: 15094290 001
General product information:
1. LED high mast light, AC 100-240V, 50/60Hz, IP 65, Class I, 2700K-6500K, details see the below table;
2. All models have the same construction except for the LED driver.
Model
Rated Wattage
(W)
LED modules
LED driver
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ST-HML300N
300W
2 LED modules in series,
each module contains 300
LED chips.
2xHLG-185-36A
ST-HML400N
400W
2 LED modules in series,
each module contains 400
LED chips
2xHLG-240-36A
500W
2 LED modules in series,
each module contains 500
LED chips
2xHLG-320H-36A
ST-HML500N
600W
2 LED modules in series,
each module contains 600
LED chips
2xHLG-320H-36A
ST-HML600N
3. The Independent LED drivers are appvoved by TUVRheinland, made by Mean well Enterprises Co.,
Ltd., details see the ANNEX 1: components;
4. ST-HML600N was selected for type tests. ST-HML300N, ST-HML400N were also selected for
endurance and thermal tests.
5. The lamps belong to Exempt Group according to IEC 62471: 2008, details see Attachment 2.
6. All tests were passed.
TRF No. IEC60598_2_3G
Page 8 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
3.2 (0)
GENERAL TEST REQUIREMENTS
3.2 (0.1)
Information for luminaire design considered
Result - Remark
Verdict
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Standard
Yes

No
3.2 (0.3)
More sections applicable ........................................: Yes
3.4 (2)
CLASSIFICATION
P
3.4 (2.2)
Type of protection (Class 0 excluded) .................. : Class I

3.4 (2.3)
Degree of protection (Requirement: Ordinary) ..... : IP65

3.4 (2.4)
Luminaire suitable for direct mounting on normally Yes
flammable surfaces .............................................. :
No

3.4 (2.5)
Luminaire for normal use ..................................... : Yes
No

Luminaire for rough service ................................. : Yes
No

3.4 (-)
No
Modes of installation of road or street lighting


- on a pipe
Yes
No

- on a mast arm
Yes
No

- on a post top
Yes
No

- on span or suspension wires
Yes
No

- on a wall
Yes
No

3.5 (3)
MARKING
P
3.5 (3.2)
Mandatory markings
P
Position of the marking
3.5 (3.3)
On the enclosure
P
Format of symbols/text
P
Additional information
P
Language of instructions
English
P
3.5 (3.3.1)
Combination luminaires
3.5 (3.3.2)
Nominal frequency in Hz
3.5 (3.3.3)
Operating temperature
N/A
3.5 (3.3.4)
Symbol or warning notice
N/A
3.5 (3.3.5)
Wiring diagram
3.5 (3.3.6)
Special conditions
N/A
3.5 (3.3.7)
Metal halide lamp luminaire – warning
N/A
TRF No. IEC60598_2_3G
N/A
50/60Hz
Stated in the instruction
P
P
Page 9 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
3.5 (3.3.8)
Limitation for semi-luminaires
N/A
3.5 (3.3.9)
Power factor and supply current
N/A
3.5 (3.3.10)
Suitability for use indoors
N/A
3.5 (3.3.11)
Luminaires with remote control
N/A
3.5 (3.3.12)
Clip-mounted luminaire – warning
N/A
3.5 (3.3.13)
Specifications of protective shields
N/A
3.5 (3.3.14)
Symbol for nature of supply
3.5 (3.3.15)
Rated current of socket outlet
N/A
3.5 (3.3.16)
Rough service luminaire
N/A
3.5 (3.3.17)
Mounting instruction for type Y, type Z and some
type X attachments
N/A
3.5 (3.3.18)
Non-ordinary luminaires with PVC cable
N/A
3.5 (3.3.19)
Protective conductor current in instruction if
applicable
N/A
3.5 (3.3.20)
Provided with information if not intended to be
mounted within arms reach
N/A
3.5 (3.4)
Test with water
15s
P
Test with hexane
15s
P
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3.5 (-)
P
Legible after test
P
Label attached
P
Additional information in instruction leaflet
P
a) Design attitude
P
b) Weight
P
c) Overall dimensions
P
d) Maximum projected area if applicable
P
e) Cross-sectional area of wires if applicable
P
f) Suitability for indoors use
N/A
g) Dimensions of the compartment
P
h) Torque setting to be applied to bolts or screws
P
i) Maximum mounting height
P
TRF No. IEC60598_2_3G
Page 10 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
3.6 (4)
CONSTRUCTION
3.6 (4.2)
Components replaceable without difficulty
3.6 (4.3)
Wireways smooth and free from sharp edges
3.6 (4.4)
Lampholders
N/A
3.6 (4.4.1)
Integral lampholder
N/A
3.6 (4.4.2)
Wiring connection
N/A
3.6 (4.4.3)
Lampholder for end-to-end mounting
N/A
3.6 (4.4.4)
Positioning
N/A
- pressure test (N) ................................................ :
N/A
After test the lampholder comply with relevant
standard sheets and show no damage
N/A
After test on single-capped lampholder the
lampholder have not moved from its position and
show no permanent deformation
N/A
- bending test (N) ................................................. :
N/A
After test the lampholder have not moved from its
position and show no permanent deformation
N/A
3.6 (4.4.5)
Peak pulse voltage
N/A
3.6 (4.4.6)
Centre contact
N/A
3.6 (4.4.7)
Parts in rough service luminaires resistant to
tracking
N/A
3.6 (4.4.8)
Lamp connectors
N/A
3.6 (4.4.9)
Caps and bases correctly used
N/A
3.6 (4.5)
Starter holders
N/A
Starter holder in luminaires other than class II
N/A
Starter holder class II construction
N/A
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3.6 (4.6)
N/A
P
Terminal blocks
P
Tails
P
Unsecured blocks
N/A
3.6 (4.7)
Terminals and supply connections
3.6 (4.7.1)
Contact to metal parts
N/A
3.6 (4.7.2)
Test 8 mm live conductor
N/A
Test 8 mm earth conductor
N/A
Terminals for supply conductors
N/A
3.6 (4.7.3)
TRF No. IEC60598_2_3G
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Page 11 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
3.6 (4.7.3.1)
Welded connections:
N/A
- stranded or solid conductor
N/A
- spot welding
N/A
- welding between wires
N/A
- Type Z attachment
N/A
- mechanical test according to 15.8.2
N/A
- electrical test according to 15.9
N/A
- heat test according to 15.9.2.3 and 15.9.2.4
N/A
3.6 (4.7.4)
Terminals other than supply connection
N/A
3.6 (4.7.5)
Heat-resistant wiring/sleeves
N/A
3.6 (4.7.6)
Multi-pole plug
N/A
- test at 30 N
N/A
Switches:
N/A
- adequate rating
N/A
- adequate fixing
N/A
- polarized supply
N/A
- compliance with 61058-1 for electronic switches
N/A
3.6 (4.9)
Insulating lining and sleeves
N/A
3.6 (4.9.1)
Retainement
N/A
Method of fixing .................................................... :
N/A
Insulated linings and sleeves
N/A
Resistant to a temperature > 20 °C to the wire
temperature or
N/A
a) & c) Insulation resistance and electric strength
N/A
b) Ageing test. Temperature (°C) ......................... :
N/A
3.6 (4.10)
Insulation of Class II luminaires
N/A
3.6 (4.10.1)
No contact, mounting surface – accessible metal
parts – wiring of basic insulation
N/A
Safe installation fixed luminaires
N/A
Capacitors and switches
N/A
Interference suppression capacitors according to
IEC 60384-14
N/A
Assembly gaps:
N/A
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3.6 (4.8)
3.6 (4.9.2)
3.6 (4.10.2)
TRF No. IEC60598_2_3G
Page 12 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
- not coincidental
N/A
- no straight access with test probe
N/A
Retainment of insulation:
N/A
- fixed
N/A
- unable to be replaced; luminaire inoperative
N/A
- sleeves retained in position
N/A
- lining in lampholder
N/A
3.6 (4.11)
Electrical connections
P
3.6 (4.11.1)
Contact pressure
P
3.6 (4.11.2)
Screws:
P
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O
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3.6 (4.10.3)
3.6 (4.11.3)
- self-tapping screws
N/A
- thread-cutting screws
N/A
Screw locking:
N/A
- spring washer
N/A
- rivets
N/A
3.6 (4.11.4)
Material of current-carrying parts
P
3.6 (4.11.5)
No contact to wood or mounting surface
P
3.6 (4.11.6)
Electro-mechanical contact systems
N/A
3.6 (4.12)
Mechanical connections and glands
P
3.6 (4.12.1)
Screws not made of soft metal
P
Screws of insulating material
N/A
Torque test: torque (Nm); part .............................. : Fixing LED driver: 1,2Nm
P
Torque test: torque (Nm); part .............................. : Fixing the cover of LED
module: 1,2Nm
P
Torque test: torque (Nm); part .............................. : Fixing cover of junction box:
1,2Nm
P
Torque test: torque (Nm); part .............................. :
N/A
3.6 (4.12.2)
Screws with diameter < 3 mm screwed into metal
N/A
3.6 (4.12.4)
Locked connections:
N/A
- fixed arms; torque (Nm) ...................................... :
N/A
- lampholder; torque (Nm)..................................... :
N/A
- push-button switches; torque 0,8 Nm ................. :
N/A
TRF No. IEC60598_2_3G
Page 13 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
3.6 (4.12.5)
Screwed glands; force (Nm) ................................. : 3,25Nm
P
3.6 (4.13)
Mechanical strength
P
3.6 (4.13.1)
Impact tests:
P
- fragile parts; energy (Nm) ................................... : Lamp cover: 0,5Nm
P
- other parts; energy (Nm) .................................... : Metal enclosure: 0,7Nm
P
- other parts; energy (Nm) .................................... : Junction box: 0,7Nm
P
1) live parts
P
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2) linings
N/A
3) protection
P
4) covers
P
3.6 (4.13.3)
Straight test finger
P
3.6 (4.13.4)
Rough service luminaires
N/A
- IP54 or higher
N/A
a) fixed
N/A
b) hand-held
N/A
c) delivered with a stand
N/A
d) for temporary installations and suitable for
mounting on a stand
N/A
3.6 (4.13.6)
Tumbling barrel
N/A
3.6 (4.14)
Suspensions and adjusting devices
P
3.6 (4.14.1)
Mechanical load:
P
A) four times the weight
3.6 (4.14.2)
4xMax. 28,5Kg=114Kg
P
B) torque 2,5 Nm
N/A
C) bracket arm; bending moment (Nm) ................ :
N/A
D) load track-mounted luminaires
N/A
E) clip-mounted luminaires, glass-shelve.
Thickness (mm) ................................................... :
N/A
Metal rod. diameter (mm) .................................... :
N/A
Fixed luminaire or independent control gear
without fixing devices
N/A
Load to flexible cables
N/A
Mass (kg) ............................................................. :
N/A
Stress in conductors (N/mm²) .............................. :
N/A
TRF No. IEC60598_2_3G
Page 14 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
Mass (kg) of semi-luminaire ................................. :
N/A
Bending moment (Nm) of semi-luminaire ............ :
N/A
Adjusting devices:
N/A
- flexing test; number of cycles ............................. :
N/A
- strands broken
N/A
- electric strength test afterwards
N/A
3.6 (4.14.4)
Telescopic tubes: cords not fixed to tube; no
strain on conductors
N/A
3.6 (4.14.5)
Guide pulleys
N/A
3.6 (4.14.6)
Strain on socket-outlets
N/A
3.6 (4.15)
Flammable materials:
N/A
- glow-wire test 650 °C
N/A
- spacing ≥ 30 mm
N/A
- screen withstanding test of 13.3.1
N/A
- screen dimensions
N/A
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
3.6 (4.14.3)
- no fiercely burning material
3.6 (4.15.2)
3.6 (4.16)
3.6 (4.16.1)
3.6 (4.16.2)
P
- thermal protection
N/A
- electronic circuits exempted
N/A
Luminaires made of thermoplastic material with lamp control gear
N/A
a) construction
N/A
b) temperature sensing control
N/A
c) surface temperature
N/A
Luminaires for mounting on normally flammable surfaces
N/A
No lamp control gear
N/A
(compliance with Section 12)
Lamp control gear spacing:
N/A
- spacing 35 mm
N/A
- spacing 10 mm
N/A
Thermal protection:
N/A
- in lamp control gear
N/A
- external
N/A
- fixed position
N/A
- temperature marked lamp control gear
N/A
TRF No. IEC60598_2_3G
Page 15 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
3.6 (4.16.3)
Design to satisfy the test of 12.6
(see 12.6)
3.6 (4.17)
Drain holes
N/A
Clearance at least 5 mm
N/A
3.6 (4.18)
Resistance to corrosion:
P
3.6 (4.18.1)
- rust-resistance
P
3.6 (4.18.2)
- season cracking in copper
P
3.6 (4.18.3)
- corrosion of aluminium
P
3.6 (4.19)
Ignitors compatible with ballast
N/A
3.6 (4.20)
Rough service vibration
N/A
3.6 (4.21)
Protective shield:
N/A
3.6 (4.21.1)
Shield fitted
N/A
Shield of glass if tungsten halogen lamps
N/A
3.6 (4.21.2)
Particles from a shattering lamp not impair safety
N/A
3.6 (4.21.3)
No direct path
N/A
3.6 (4.21.4)
Impact test on shield
N/A
Glow-wire test on lamp compartment
N/A
3.6 (4.22)
Attachments to lamps
N/A
3.6 (4.23)
Semi-luminaires comply Class II
N/A
3.6 (4.24)
UV radiation for tungsten halogen lamps and
metal halide lamps (Annex P)
N/A
3.6 (4.25)
No sharp point or edges
P
3.6 (4.26)
Short-circuit protection:
N/A
3.6 (4.26.1)
Uninsulated accessible SELV parts
N/A
3.6 (4.26.2)
Short-circuit test
N/A
3.6 (4.26.3)
Test chain according to Figure 29
N/A
3.6.1 (-)
At least IP X3 or X5 respectively
N/A
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
IP65
P
Column-integrated luminaires:
N/A
- parts below 2,5 m
N/A
- parts above 2,5 m
N/A
3.6.2 (-)
Suspension on span wires
N/A
3.6.3 (-)
Means for attaching the luminaire or external
parts to its support appropriate to the weight
TRF No. IEC60598_2_3G
P
Page 16 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
3.6.3.1 (-)
Static load test
P
- drag coefficient ................................................... : 1,2
P
- loaded area (m²) ................................................. :
P
- used load (N) ...................................................... : Max. 722.1N
P
- measured deformation (cm/m) .......................... :
P
- no rotation
P
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
3.6.4 (-)
Adjustable lampholders
3.6.5 (-)
Luminaires installed above 5 m, glass covers shall be:
P
a) glass that fractures into small pieces (test
according to 3.6.5.1), or
P
3.6.5.1 (-)
N/A
b) glass having a high impact shock resistance
(test according to 3.6.5.2), or
N/A
c) protected by any means to retain glass
fragments
N/A
For tunnel luminaires 3.6.5.1 apply
N/A
Method of protection declared by the
manufacturer
N/A
Glass covers fractures into small pieces
P
- number of particles is more than 40 ................... : >60
P
3.6.5.2 (-)
Glass covers protected by the use of high impact resistant glass
N/A
3.6.5.2.1 (-)
Glass covers have high mechanical strength
N/A
Test according IEC 62262 with test apparatus
according IEC 60068-2-75 with impact energy of
5J
N/A
Glass covers not brake into large pieces
N/A
- test according 3.6.5.1, number of particles is
more than 20 ......................................................... :
N/A
Connection compartment of column-integrated luminaire
N/A
- provides adequate space
N/A
- means for attachment
N/A
3.6.7 (-)
Compliance with .................................................. :
N/A
3.6.8 (-)
Doors of column-integrated luminaires:
N/A
- corrosion resistance
N/A
- opening only possible for an authorized person
N/A
3.6.5.2.2 (-)
3.6.6 (-)
TRF No. IEC60598_2_3G
Page 17 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
- impact test
N/A
Column-integrated luminaire:
N/A
- dimension of the entry slot (mm) ........................ :
N/A
- cable path from the slot to the connection
compartment (mm) .............................................. :
N/A
- cable path free from obstruction that might
cause abrasion of the cable
N/A
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
3.6.9 (-)
3.7 (11)
CREEPAGE DISTANCES AND CLEARANCES
P
Working voltage (V) .............................................. : AC 100-240V

Voltage form
Sinusoidal
Non-sinusoidal

PTI
< 600

Impulse withstand category (Normal category II)
(Category III Annex U)
Category II
> 600
Category III

Rated pulse voltage (kV) ...................................... :

(1) Current-carrying parts of different polarity: cr
Approved LED control gear
(mm); cl (mm) ....................................................... : used, SELV part passed 500V
electric strength
P
(2) Current-carrying parts and accessible parts: cr Approved LED control gear
(mm); cl (mm) ....................................................... : used, SELV part passed 500V
electric strength
P
(3) Parts becoming live due to breakdown of
basic insulation and metal parts:
cr (mm); cl (mm) ................................................... :
N/A
(4) Outer surface of cable where it is clamped and Cr• •Cl>10,0mm
metal parts: cr (mm); cl (mm)................................ :
N/A
(5) Not used

(6) Current-carrying parts and supporting surface: Cr• •Cl>4,0mm
cr (mm); cl (mm) ................................................... :
3.8 (7)
PROVISION FOR EARTHING
3.8 (7.2.1
+ 7.2.3)
Accessible metal parts
P
Metal parts in contact with supporting surface
P
Resistance < 0,5 Ω
TRF No. IEC60598_2_3G
Approved LED controlgear for earthing
N/A
0,05Ω
P
P
Page 18 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
Self-tapping screws used
N/A
Thread-forming screws
N/A
Thread-forming screw used in a grove
N/A
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Earth makes contact first
P
3.8 (7.2.2
+ 7.2.3)
Earth continuity in joints etc.
P
3.8 (7.2.4)
Locking of clamping means
P
Compliance with 4.7.3
N/A
Terminal blocks with integrated screwless
earthing contacts tested according Annex V
N/A
3.8 (7.2.5)
Earth terminal integral part of connector socket
N/A
3.8 (7.2.6)
Earth terminal adjacent to mains terminals
N/A
3.8 (7.2.7)
Electrolytic corrosion of the earth terminal
P
3.8 (7.2.8)
Material of earth terminal
N/A
Contact surface bare metal
3.8 (7.2.10)
3.8 (7.2.11)
Class II luminaire for looping-in
N/A
Double or reinforced insulation to functional earth
N/A
Earthing core coloured green-yellow
P
Length of earth conductor
P
3.8.1 (-)
Attachment prevented from rotation
3.9 (14)
SCREW TERMINALS
3.9 (15)
P
N/A
P
Separately approved; component list
(see Annex 1)
P
Part of the luminaire
(see Annex 3)
N/A
SCREWLESS TERMINALS AND ELECTRICAL CONNECTIONS
N/A
Separately approved; component list
(see Annex 1)
N/A
Part of the luminaire
(see Annex 4)
N/A
3.10 (5)
EXTERNAL AND INTERNAL WIRING
P
3.10 (5.2)
Supply connection and external wiring
P
3.10 (5.2.1)
Means of connection............................................. : Connecting leads
P
TRF No. IEC60598_2_3G
Page 19 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
3.10 (5.2.2)
Type of cable ........................................................ : H05RN-F
Verdict
P
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Nominal cross-sectional area (mm²)..................... : 3x1,0mm
2
P
Cables equal to IEC 60227 or IEC 60245
N/A
3.10 (5.2.3)
Type of attachment, X, Y or Z
N/A
3.10 (5.2.5)
Type Z not connected to screws
N/A
3.10 (5.2.6)
Cable entries:
P
- suitable for introduction
P
- adequate degree of protection
P
3.10 (5.2.7)
Cable entries through rigid material have rounded
edges
P
3.10 (5.2.8)
Insulating bushings:
P
- suitably fixed
P
- material in bushings
P
- material not likely to deteriorate
P
- tubes or guards made of insulating material
N/A
3.10 (5.2.9)
Locking of screwed bushings
N/A
3.10 (5.2.10)
Cord anchorage:
P
- covering protected from abrasion
P
- clear how to be effective
P
- no mechanical or thermal stress
P
- no tying of cables into knots etc.
P
- insulating material or lining
P
3.10
(5.2.10.1)
Cord anchorage for type X attachment:
N/A
a) at least one part fixed
N/A
b) types of cable
N/A
c) no damaging of the cable
N/A
d) whole cable can be mounted
N/A
e) no touching of clamping screws
N/A
f) metal screw not directly on cable
N/A
g) replacement without special tool
N/A
Glands not used as anchorage
N/A
TRF No. IEC60598_2_3G
Page 20 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
Labyrinth type anchorages
N/A
3.10
(5.2.10.2)
Adequate cord anchorage for type Y and type Z
attachment
N/A
3.10
(5.2.10.3)
Tests:
P
- impossible to push cable; unsafe
P
- pull test: 25 times; pull (N) .................................. : 60N
P
- torque test: torque (Nm) ..................................... : 0,25Nm
P
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
- displacement ≤ 2 mm
0,4mm
P
- no movement of conductors
P
- no damage of cable or cord
P
3.10 (5.2.11)
External wiring passing into luminaire
P
3.10 (5.2.12)
Looping-in terminals
N/A
3.10 (5.2.13)
Wire ends not tinned
N/A
Wire ends tinned: no cold flow
N/A
Mains plug same protection
N/A
Class III luminaire plug
N/A
Appliance inlets (IEC 60320)
N/A
Appliance couplers of class II type
N/A
3.10 (5.2.17)
No standardized interconnecting cables properly
assembled
N/A
3.10 (5.2.18)
Used plug in accordance with
N/A
- IEC 60083
N/A
- other standard
N/A
3.10 (5.2.14)
3.10 (5.2.16)
3.10 (5.3)
Internal wiring
P
3.10 (5.3.1)
Internal wiring of suitable size and type
P
Through wiring
N/A
- not delivered/ mounting instruction
N/A
- factory assembled
N/A
- socket outlet loaded (A) ...................................... :
N/A
- temperatures ...................................................... : (see Annex 2)
N/A
Green-yellow for earth only
3.10 (5.3.1.1) Internal wiring connected directly to fixed wiring
TRF No. IEC60598_2_3G
P
P
Page 21 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Cross-sectional area (mm²) .................................. : 1,0mm
2
Verdict
P
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Insulation thickness
Extra insulation added where necessary
3.10 (5.3.1.2) Internal wiring connected to fixed wiring via internal current-limiting device
Adequate cross-sectional area and insulation
thickness
P
N/A
N/A
N/A
3.10 (5.3.1.3) Double or reinforced insulation for class II
N/A
3.10 (5.3.1.4) Conductors without insulation
N/A
3.10 (5.3.1.5) SELV current-carrying parts
N/A
3.10 (5.3.1.6) Insulation thickness other than PVC or rubber
N/A
3.10 (5.3.2)
3.10 (5.3.3)
Sharp edges etc.
P
No moving parts of switches etc.
N/A
Joints, raising/lowering devices
N/A
Telescopic tubes etc.
N/A
No twisting over 360°
P
Insulating bushings:
P
- suitable fixed
N/A
- material in bushings
N/A
- material not likely to deteriorate
N/A
- cables with protective sheath
N/A
3.10 (5.3.4)
Joints and junctions effectively insulated
N/A
3.10 (5.3.5)
Strain on internal wiring
N/A
3.10 (5.3.6)
Wire carriers
N/A
3.10 (5.3.7)
Wire ends not tinned
N/A
Wire ends tinned: no cold flow
N/A
3.10.1 (-)
Cord anchorage if applicable
P
- pull test: 25 times; pull (N) .................................. : 60N
P
- torque test: torque (Nm) ..................................... : 0,25Nm
P
3.11 (8)
PROTECTION AGAINST ELECTRIC SHOCK
P
3.11 (8.2.1)
Live parts not accessible with standard test finger
P
TRF No. IEC60598_2_3G
Page 22 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Basic insulated parts not used on the outer
surface without appropriate protection
Result - Remark
Verdict
P
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Basic insulated parts not accessible with standard
test finger on portable and adjustable luminaires
N/A
Basic insulated parts not accessible with Ø 50
mm probe from outside, within arms reach, on
wall-mounted luminaires
N/A
Lamp and starterholders in portable and
adjustable luminaires comply with double or
reinforced insulation requirements
N/A
Basic insulation only accessible under lamp or
starter replacement
N/A
Protection in any position
3.11 (8.2.2)
P
Double-ended tungsten filament lamp
N/A
Insulation lacquer not reliable
N/A
Double-ended high pressure discharge lamp
N/A
Relevant warning according to 3.2.18 fitted to the
luminaire
N/A
Portable luminaire adjusted in most unfavourable
position
N/A
3.11 (8.2.3.a) Class II luminaire:
N/A
- basic insulated metal parts not accessible during
starter or lamp replacement
N/A
- basic insulation not accessible other than during
starter or lamp replacement
N/A
- glass protective shields not used as
supplementary insulation
N/A
3.11 (8.2.3.b) BC lampholder of metal in class I luminaires shall
be earthed
N/A
3.11 (8.2.3.c) Class III luminaires with exposed SELV parts:
N/A
3.11 (8.2.4)
Ordinary luminaire:
N/A
- touch current ...................................................... :
N/A
- no-load voltage ................................................... :
N/A
Other than ordinary luminaire:
N/A
- nominal voltage ................................................. :
N/A
Portable luminaire:
N/A
- protection independent of supporting surface
N/A
TRF No. IEC60598_2_3G
Page 23 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
- terminal block completely covered
Verdict
N/A
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
3.11 (8.2.5)
Compliance with the standard test finger or
relevant probe
P
3.11 (8.2.6)
Covers reliably secured
P
3.11 (8.2.7)
Discharging of capacitors ≥ 0,5 µF
P
Portable plug connected luminaire with capacitor
N/A
Other plug connected luminaire with capacitor
N/A
Discharge device on or within capacitor
N/A
Discharge device mounted separately
N/A
3.12 (12)
ENDURANCE TEST AND THERMAL TEST
P
3.12 (12.3)
Endurance test:
P
- mounting-position ............................................... : As normal use

- test temperature (°C) .......................................... : 60°C

- total duration (h) ................................................. : 240h

- supply voltage: Un factor; calculated voltage (V) : 264V

- lamp used ........................................................... : LED

After endurance test:
P
- no part unserviceable
P
- luminaire not unsafe
P
3.12 (12.3.2)
- no damage to track system
N/A
- marking legible
P
- no cracks, deformation etc.
P
3.12 (12.4)
Thermal test (normal operation)
(see Annex 2)
P
3.12 (12.5)
Thermal test (abnormal operation)
(see Annex 2)
P
3.12 (12.6)
Thermal test (failed lamp control gear condition):
3.12 (12.6.1)
Through wiring or looping-in wiring loaded by a
current of (A) ........................................................ :

- case of abnormal conditions ............................... :

- electronic lamp control gear
- measured winding temperature (°C): at 1,1 Un . :
TRF No. IEC60598_2_3G
N/A
N/A

Page 24 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
- measured mounting surface temperature (°C) at
1,1 Un ................................................................... :
N/A
- calculated mounting surface temperature (°C) .. :
N/A
- track-mounted luminaires
N/A
Temperature sensing control
N/A
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
3.12 (12.6.2)
- case of abnormal conditions ............................... :

- thermal link
N/A
- manual reset cut-out
N/A
- auto reset cut-out
N/A
- measured mounting surface temperature (°C) ... :
N/A
- track-mounted luminaires
N/A
3.12 (12.7)
Thermal test (failed lamp control gear in plastic luminaires):
N/A
3.12 (12.7.1)
Luminaire without temperature sensing control
N/A
3.12
(12.7.1.1)
Luminaire with fluorescent lamp × 70W
N/A
Test method 12.7.1.1 or Annex V ......................... :
Test according to 12.7.1.1:
3.12
(12.7.1.2)

N/A
- case of abnormal conditions

- Ballast failure at supply voltage (V) ................... :

- Components retained in place after the test
N/A
- Test with standard test finger after the test
N/A
Test according to Annex V:
N/A
- case of abnormal conditions

- measured winding temperature (°C): at 1,1 Un .. :

- measured temperature of fixing point/exposed
part (°C): at 1,1 Un................................................ :

- calculated temperature of fixing point/exposed
part (°C) ................................................................ :

Ball-pressure test:
N/A
- part tested; temperature (°C) .............................. :
N/A
- part tested; temperature (°C) .............................. :
N/A
Luminaire with discharge lamp, fluorescent lamp > 70W, transformer > 10 VA
N/A
TRF No. IEC60598_2_3G
Page 25 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
- case of abnormal conditions

- measured winding temperature (°C): at 1,1 Un .. :

- measured temperature of fixing point/exposed
part (°C): at 1,1 Un................................................ :

- calculated temperature of fixing point/exposed
part (°C) ................................................................ :

A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
3.12
(12.7.1.3)
Ball-pressure test:
N/A
- part tested; temperature (°C) .............................. :
N/A
- part tested; temperature (°C) .............................. :
N/A
Luminaire with short circuit proof transformers
× 10 VA
N/A
- case of abnormal conditions
3.12 (12.7.2)

- Components retained in place after the test
N/A
- Test with standard test finger after the test
N/A
Luminaire with temperature sensing control
N/A
- thermal link
Yes
No

- manual reset cut-out
Yes
No

- auto reset cut-out
Yes
No

- case of abnormal conditions

- highest measured temperature of fixing
point/exposed part (°C): ........................................ :

Ball-pressure test:
N/A
- part tested; temperature (°C) .............................. :
N/A
- part tested; temperature (°C) .............................. :
N/A
3.12.1 (-)
Temperature reduction if for outdoor use only
P
3.12.2 (-)
If IP > IP 20 relevant test of (12.4), (12.5) and (12.6) after (9.2) before (9.3)
specified in 3.13

3.12.3 (-)
Glass covers used within the thermal limits
declared by the glassmanufacturer
3.13 (9)
RESISTANCE TO DUST, SOLID OBJECTS AND MOISTURE
P
3.13 (9.2)
Tests for ingress of dust, solid objects and moisture:
P
- classification according to IP .............................. : IP65

TRF No. IEC60598_2_3G
N/A
Page 26 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
- mounting position during test ............................. : Normal operation

- fixing screws tightened; torque (Nm) .................. : 2/3 torque

- tests according to clauses .................................. : Clause 9.2.2 & 9.2.6

- electric strength test afterwards
P
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
a) no deposit in dust-proof luminaire
N/A
b) no talcum in dust-tight luminaire
P
c) no trace of water on current-carrying parts or
SELV parts or where it could become a hazard
P
d) i) For luminaires without drain holes – no water
entry
P
d) ii) For luminaires with drain holes – no
hazardous water entry
N/A
e) no water in watertight luminaire
N/A
f) no contact with live parts (IP 2X)
N/A
f) no entry into enclosure (IP 3X and IP 4X)
N/A
f) no contact with live parts (IP3X and IP4X)
N/A
g) no trace of water on part of lamp requiring
protection from splashing water
N/A
P
h) no damage of protective shield or glass
envelope
3.13 (9.3)
Humidity test 48 h
25ºC, 93%
3.13.1 (-)
If IP > IP 20 the order of the test specified in clause 3.12

3.14 (10)
INSULATION RESISTANCE AND ELECTRIC STRENGTH
P
3.14 (10.2.1)
Insulation resistance test
P
Cable or cord covered by metal foil or replaced by
a metal rod of mm Ø ............................................ :

Insulation resistance (MΩ)

SELV:
P
- between current-carrying parts of different
polarity .................................................................. :
P
N/A
×2000M×
- between current-carrying parts and mounting
surface .................................................................. :
P
- between current-carrying parts and metal parts ×2000M×
of the luminaire ..................................................... :
P
TRF No. IEC60598_2_3G
Page 27 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
- between the outer surface of a flexible cord or
cable where it is clamped in a cord anchorage
and accessible metal parts ................................... :
N/A
- Insulation bushings as described in Section 5 .. :
N/A
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Other than SELV:
- between live parts of different polarity ................ :
3.14 (10.2.2)
P
N/A
- between live parts and mounting surface ........... : ×2000M×
P
- between live parts and metal parts ..................... : ×2000M×
P
- between live parts of different polarity through
action of a switch .................................................. :
N/A
- between the outer surface of a flexible cord or
cable where it is clamped in a cord anchorage
and accessible metal parts ................................... :
N/A
- Insulation bushings as described in Section 5 .. :
N/A
Electric strength test
P
Dummy lamp
N/A
Luminaires with ignitors after 24 h test
N/A
Luminaires with manual ignitors
N/A
Test voltage (V):
P
SELV:
P
- between current-carrying parts of different
polarity .................................................................. :
N/A
500V
- between current-carrying parts and mounting
surface .................................................................. :
P
- between current-carrying parts and metal parts 500V
of the luminaire ..................................................... :
P
- between the outer surface of a flexible cord or
cable where it is clamped in a cord anchorage
and accessible metal parts ................................... :
N/A
- Insulation bushings as described in Section 5 .. :
N/A
Other than SELV:
- between live parts of different polarity ................ : Approved LED driver used.
P
N/A
- between live parts and mounting surface ........... : 1480V
P
- between live parts and metal parts ..................... : 1480V
P
- between live parts of different polarity through
action of a switch .................................................. :
TRF No. IEC60598_2_3G
N/A
Page 28 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
- between the outer surface of a flexible cord or
cable where it is clamped in a cord anchorage
and accessible metal parts ................................... :
N/A
- Insulation bushings as described in Section 5 .. :
N/A
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
3.14 (10.3)
Touch current (mA) ............................................... : 0,03mA
P
3.15 (13)
RESISTANCE TO HEAT, FIRE AND TRACKING
P
3.15 (13.2.1)
Ball-pressure test:
P
- part tested; temperature (°C) .............................. : Connector: 125°C, 0,9mm
P
- part tested; temperature (°C) .............................. : Junction box: 125°C, 1,2mm
P
- part tested; temperature (°C) .............................. :
3.15 (13.3.1)
3.15 (13.3.2)
3.15 (13.4.1)
N/A
Needle flame test (10 s):
P
- part tested ........................................................... : Connector
P
Glow-wire test (650°C):
P
- part tested ........................................................... : Junction box
P
- part tested ........................................................... :
N/A
Tracking test: part tested ...................................... :
N/A
TRF No. IEC60598_2_3G
Page 29 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
ANNEX 1: components
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
object/part
No.
co
de
manufacturer/
trademark
LED
controlgear
(for 300W)
B
Mean well
Enterprises Co.,
Ltd.
LED
controlgear
(for 400W)
B
Mean well
Enterprises Co.,
Ltd.
LED
controlgear
B
(for
500W,600W)
Mean well
Enterprises Co.,
Ltd.
LED(For
B
2700-4500K)
NICHIA
CORPORATION
LED(For
B
5000-6500K)
NICHIA
CORPORATION
Yuyao Jingyi
Electronics
Co., Ltd.
Power cord
B
Closed-end
wire
connector
B
HEAVYPOWER
Enterprises Co.,
Ltd.
type/model
technical data
Input:AC100-240V,
50/60Hz;
HLG-185-36A
Output:DC36V,
5,2A
Input:AC100-240V,
50/60Hz;
HLG-240-36A
Output:DC36V,
6,7A
Input:AC100-240V,
HLG-320H50/60Hz;
36A
Output:DC36V,
8,9A
standard
EN61347-1;
EN61347-2-13;
EN61347-1;
EN61347-2-13;
EN61347-1;
EN61347-2-13;
mark(s) of
conformity
TUV
(R 50185176)
TUV
(R 50171751)
TUV
(R 50210986)
NF2L757GRT
If=200mA, Vf=5,77,1V
EN 62471
Test with
appliance
NF2W757GR
T
If=200mA, Vf=5,77,1V
EN 62471
Test with
appliance
H05RN-F
3x1,0mm
EN50525-2-21
VDE
(40017356)
CE5I, CE5X
105• •, 300V
EN60598-2-3;
EN60598-1
Test with
appliance
2
The codes above have the following meaning:
A
- The component is replaceable with another one, also certified, with equivalent characteristics
B
- The component is replaceable if authorised by the test house
C
- Integrated component tested together with the appliance
D
- Alternative component
TRF No. IEC60598_2_3G
Page 30 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
ANNEX 2: temperature measurements, thermal tests of Section 12
P
Type reference .....................................................: ST-HBL600N

Lamp used............................................................: LED

Lamp control gear used .......................................: HLG-320H-36A

Mounting position of luminaire .............................: Normal operation

Supply wattage (W) ..............................................: 596W

Supply current (A) ................................................: 2,39A

Power factor .........................................................: --

Table: measured temperatures corrected for ta = 50°C:
P
- abnormal operating mode ..................................: Short-circuit LED driver output

- test 1: rated voltage ...........................................:

1,06 times rated
- test 2: 1,06 times rated voltage or 1,05 times
rated wattage........................................................: voltage=254,4V

- test 3: Load on wiring to socket-outlet,
1,06 times voltage or 1,05 times wattage ............:

1,1 times rated voltage=264V
- test 4: 1,1 times rated voltage or 1,05 times
rated wattage........................................................:

Through wiring or looping-in wiring loaded by a
current of A during the test ..................................:

A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Clause 12.4 – normal
temperature (°C) of part
Clause 12.5 – abnormal
test 1
test 2
test 3
limit
test 4
limit
Mounting surface
--
59,2
--
90
52,3
130
Metal Enclosure
--
80,3
--
Ref.
--
--
Power cord
--
55,2
--
90
--
--
Driver enclosure (Tc)
--
60,7
--
90
53.5
90
--
95,3
--
--
--
LED module
--
97,5
--
Ref.
--
--
Lamp cover(glass)
--
70,3
--
Ref.
--
--
Internal wire to LED (near
LED)
TRF No. IEC60598_2_3G
120
Page 31 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Junction box
--
55,1
--
Ball-pressure
--
--
Ambient
--
50
--
--
50
--
Type reference .....................................................: ST-HBL400N

Lamp used............................................................: LED

Lamp control gear used .......................................: HLG-240-36A

Mounting position of luminaire .............................: Normal operation

Supply wattage (W) ..............................................: 405,3

Supply current (A) ................................................: 1,64

Power factor .........................................................:

Table: measured temperatures corrected for ta = 50 °C:
P
- abnormal operating mode ..................................: Short-circuit LED driver output

- test 1: rated voltage ...........................................:

1,06 times rated
- test 2: 1,06 times rated voltage or 1,05 times
rated wattage........................................................: voltage=254,4V

- test 3: Load on wiring to socket-outlet,
1,06 times voltage or 1,05 times wattage ............:

1,1 times rated voltage=264V
- test 4: 1,1 times rated voltage or 1,05 times
rated wattage........................................................:

Through wiring or looping-in wiring loaded by a
current of A during the test ..................................:

Clause 12.4 – normal
temperature (°C) of part
Clause 12.5 – abnormal
test 1
test 2
test 3
limit
test 4
limit
Mounting surface
--
57,5
--
90
51,5
130
Metal Enclosure
--
80,3
--
Ref.
--
--
Power cord
--
56,2
--
90
--
--
Driver enclosure (Tc)
--
68,2
--
90
53,7
90
--
90,3
--
--
--
--
95,2
--
--
--
Internal wire to LED (near
LED)
LED module
TRF No. IEC60598_2_3G
120
Ref.
Page 32 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Lamp cover
--
Junction box
Ambient
65,2
--
57,1
--
50
Ref.
--
--
50
--
Ball-pressure
--
--
Type reference .....................................................: ST-HBL300N

Lamp used............................................................: LED

Lamp control gear used .......................................: HLG-185-36A

Mounting position of luminaire .............................: Normal operation

Supply wattage (W) ..............................................: 305,8

Supply current (A) ................................................: 1,27

Power factor .........................................................:

Table: measured temperatures corrected for ta = 50 °C:
P
- abnormal operating mode ..................................: Short-circuit LED driver output

- test 1: rated voltage ...........................................:

1,06 times rated
- test 2: 1,06 times rated voltage or 1,05 times
rated wattage........................................................: voltage=254,4V

- test 3: Load on wiring to socket-outlet,
1,06 times voltage or 1,05 times wattage ............:

1,1 times rated voltage=264V
- test 4: 1,1 times rated voltage or 1,05 times
rated wattage........................................................:

Through wiring or looping-in wiring loaded by a
current of A during the test ..................................:

Clause 12.4 – normal
temperature (°C) of part
Clause 12.5 – abnormal
test 1
test 2
test 3
limit
test 4
limit
Mounting surface
--
58,1
--
90
53
130
Metal Enclosure
--
73,6
--
Ref.
--
--
Power cord
--
54,3
--
90
--
--
Driver enclosure (Tc)
--
63,5
--
90
51,3
90
--
85,2
--
--
--
Internal wire to LED (near
LED)
TRF No. IEC60598_2_3G
120
Page 33 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
LED module
--
86,5
--
Ref.
--
--
Lamp cover
--
66,8
--
Ref.
--
--
50
--
Junction box
Ambient
55,2
--
50
Ball-pressure
--
--
ANNEX 3: screw terminals (part of the luminaire)
N/A
(14)
SCREW TERMINALS
N/A
(14.2)
Type of terminal....................................................:

Rated current (A) ..................................................:

(14.3.2.1)
One or more conductors
N/A
(14.3.2.2)
Special preparation
N/A
(14.3.2.3)
Terminal size
N/A
Cross-sectional area (mm²)..................................:
N/A
(14.3.3)
Conductor space (mm).........................................:
N/A
(14.4)
Mechanical tests
N/A
(14.4.1)
Minimum distance
N/A
(14.4.2)
Cannot slip out
N/A
(14.4.3)
Special preparation
N/A
(14.4.4)
Nominal diameter of thread (metric ISO thread) ..:
N/A
External wiring
N/A
No soft metal
N/A
(14.4.5)
Corrosion
N/A
(14.4.6)
Nominal diameter of thread (mm) ........................:
N/A
Torque (Nm) .........................................................:
N/A
Between metal surfaces
N/A
Lug terminal
N/A
Mantle terminal
N/A
Pull test; pull (N) ...................................................:
N/A
Without undue damage
N/A
(14.4.7)
(14.4.8)
TRF No. IEC60598_2_3G
Page 34 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
Requirement + Test
Result - Remark
Verdict
ANNEX 4: screwless terminals (part of the luminaire)
N/A
(15)
SCREWLESS TERMINALS
N/A
(15.2)
Type of terminal....................................................:

Rated current (A) ..................................................:

A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
(15.3.1)
Material
N/A
(15.3.2)
Clamping
N/A
(15.3.3)
Stop
N/A
(15.3.4)
Unprepared conductors
N/A
(15.3.5)
Pressure on insulating material
N/A
(15.3.6)
Clear connection method
N/A
(15.3.7)
Clamping independently
N/A
(15.3.8)
Fixed in position
N/A
(15.3.10)
Conductor size
N/A
Type of conductor
N/A
(15.5.1)
Terminals internal wiring
N/A
(15.5.1.1)
Pull test spring-type terminals (4 N,
4 samples)….:
N/A
(15.5.1.2)
Pull test pin or tab terminals (4 N,
4 samples)……:
N/A
Insertion force not exceeding 50 N
N/A
(15.5.2)
Permanent connections: pull-off test (20 N)
N/A
(15.6)
Electrical tests
N/A
Voltage drop (mV) after 1 h (4 samples) ..............:
N/A
Voltage drop of two inseparable joints
N/A
Number of cycles..................................................:

Voltage drop (mV) after 10th alt. 25th cycle
(4 samples)...........................................................:
N/A
Voltage drop (mV) after 50th alt. 100th cycle
(4 samples)...........................................................:
N/A
After ageing, voltage drop (mV) after 10th alt.
25th cycle (4 samples) .........................................:
N/A
After ageing, voltage drop (mV) after 50th alt.
100th cycle (4 samples) .......................................:
N/A
TRF No. IEC60598_2_3G
Page 35 of 37
Report No.: 15094290 001
IEC 60598-2-3
Clause
(15.7)
Requirement + Test
Result - Remark
Verdict
Terminals external wiring
N/A
Terminal size and rating
N/A
Pull test spring-type terminals or welded
connections (4 samples); pull (N) ........................:
N/A
Pull test pin or tab terminals (4 samples);
pull (N) .................................................................:
N/A
Contact resistance test
N/A
Voltage drop (mV) after 1 h
N/A
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
(15.8.1)
(15.9)
terminal
1
2
3
4
voltage drop (mV)
13
14
14
14
5
6
7
8
9
10
Voltage drop of two inseparable joints
N/A
Voltage drop after 10th alt. 25th cycle
N/A
Max. allowed voltage drop (mV) ................ :
terminal
1
2
3
4
5

6
7
8
9
10
voltage drop (mV)
Voltage drop after 50th alt. 100th cycle
N/A
Max. allowed voltage drop (mV) ................ :
terminal
1
2
3
4
voltage drop (mV)
19
17
20
20
5

6
7
8
9
10
Continued ageing: voltage drop after 10th alt. 25th cycle
P
Max. allowed voltage drop (mV) ................ :

terminal
1
2
3
4
5
6
7
8
9
10
voltage drop (mV)
Continued ageing: voltage drop after 50th alt. 100th cycle
N/A
Max. allowed voltage drop (mV) ................ :
terminal
voltage drop (mV)
TRF No. IEC60598_2_3G
1
2
3
4
5

6
7
8
9
10
Page 36 of 37
Report No.: 15094290 001
IEC60598_2_3I - ATTACHMENT
Clause
Requirement + Test
Result - Remark
Verdict
ATTACHMENT TO TEST REPORT IEC 60598-2-3
EUROPEAN GROUP DIFFERENCES AND NATIONAL DIFFERENCES
Luminaires
Part 2: Particular requirements:
Section Three – Luminaires for road and street lighting
Differences according ....................: EN 60598-2-3:2003 + A1:2011 used in conjunction with
EN 60598-1:2008 + A11:2009
Annex Form No. ..............................: EU_GD_IEC_60598_2_3I
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Annex Form Originator .....................: IMQ S.p.A.
Master Annex Form ..........................: 2013-03
Copyright © 2013 IEC System for Conformity Testing and Certification of Electrical Equipment
(IECEE), Geneva, Switzerland. All rights reserved.
CENELEC COMMON MODIFICATIONS (EN)
P
3.5 (3)
MARKING
P
3.5 (3.3.101)
Adequate warning on the package
3.6 (4)
CONSTRUCTION
3.6 (4.11.6)
Electro-mechanical contact systems
3.10 (5)
EXTERNAL AND INTERNAL WIRING
P
3.10 (5.2.1)
Connecting leads
P
N/A
P
N/A
- without a means for connection to the supply
N/A
- terminal block specified
N/A
- relevant information provided
- compliance with 4.6, 4.7.1, 4.7.2, 4.10.1, 11.2,
12 and 13.2 of Part 1
P
N/A
3.10 (5.2.2)
Cables equal to HD21 S2 or HD22 S2
P
3.12 (12)
ENDURANCE TEST AND THERMAL TEST
P
3.12 (12.4.2c) Thermal test (normal operation)
N/A
ZB
ANNEX ZB, SPECIAL NATIONAL CONDITIONS (EN)
N/A
(3.3)
DK: power supply cord with label
N/A
IT: warning label on Class 0 luminaire
N/A
(4.5.1)
DK: socket-outlets
N/A
(5.2.1)
CY, DK, FI, SE, GB: type of plug
N/A
Page 37 of 37
Report No.: 15094290 001
IEC60598_2_3I - ATTACHMENT
Clause
Requirement + Test
Result - Remark
Verdict
ZC
ANNEX ZC, NATIONAL DEVIATIONS (EN)
N/A
(4 & 5)
FR: Shuttered socket-outlets 10/16A
N/A
A
O
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L E 01
O
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0
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(13.3)
(13.3)
FR: Glow-wire test 850°C alt. 750°C for
luminaires in premises open to public or 960°C
for luminaires in emergency exits
GB: Requirements according to United Kingdom
Building Regulation
N/A
N/A
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
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2
N P 20
O
A
C R LA
A PA M
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P A
D
O
A
C LID -G
O
Á
V OT
C
LED WALL WASHER 150W RGB IP65 15° 120-240VAC
DMX
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
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C LID -G
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V OT
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Categoría: Proyectores LED
Código: B4508
Tipo: WALL WASHER
Color: SILVER
Potencia: 150W
CCT: RGB
Voltaje: 120-240VAC
Frecuencia: 60Hz
Factor de protección: FP>0.9
Ángulo: 15°
Horas de vida: 50000
IP: IP65
Medidas: 400x320x290mm
Dimerizable: OPCIONAL
Profesional: SI
@ledex.ec
www.ledex.ec
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
TOPKING INTERNATIONAL GROUP LIMITED
A
O
LVD REPORT D
S
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L E 01
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0
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N P 20
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A PA M
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Prepared For :
TOPKING INTERNATIONAL GROUP LIMITED
Flat/Rm A 7/F China Overseas Building 139 Hennessy Road Wanchai Hong
Kong
Product Name:
LED WALL WASHER
Model :
LWW-7-72P, LWW-7-36P, LWW-7A-72P, LWW-7A-36P, LWW-8A-144P,
LWW-8B-108P, LWW-8C-216P, LWW-8C-108P, LWW-2-72P, LWW-2-144P
Prepared By :
Shenzhen BST Technology Co., Ltd.
Building No.23-24, Zhiheng industrial park, Guankouer Road,
Nantou, Nanshan District, Shenzhen, Guangdong, China
Test Date:
Nov. 18, 2013 –Nov. 29, 2013
Date of Report :
Dec. 02, 2013
Report No.:
BST13110811Y-1SR-2
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 1 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
TEST REPORT
EN 60598-2-1
A
O
D
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A
L E 01
O
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0
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Luminaires
Part 2: Particular requirements
Section One – Fixed general purpose luminaires
Testing Laboratory Name ............... : Shenzhen BST Technology Co.,Ltd.
Address ........................................... : Building No.23-24, Zhiheng industrial park, Guankouer Road,
Nantou, Nanshan District, Shenzhen, Guangdong, China
Testing location ............................... : Shenzhen BST Technology Co.,Ltd.
Applicant's Name ............................ :
TOPKING INTERNATIONAL GROUP LIMITED
Address ........................................... : Flat/Rm A 7/F China Overseas Building 139 Hennessy Road
Wanchai Hong Kong
Manufacturer …………… …………… TOPKING OPTO-ELECTRONIC TECHNOLOGY CO., LTD.
Address ………………… ……………. Dacheng Road, Jichang Industrial Zone,Dongfeng Town,
Zhongshan City, Guangdong Province P.R. China
Test specification
Standard .......................................... : EN 60598-2-1:1989
EN 60598-1:2008+A11:2009
Trade Name
Procedure deviation ........................ : N/A
Non-standard test method .............. : N/A
Test item description ....................... : LED WALL WASHER
Model and/or type reference ........... : LWW-7-72P, LWW-7-36P, LWW-7A-72P, LWW-7A-36P,
LWW-8A-144P, LWW-8B-108P, LWW-8C-216P,
LWW-8C-108P, LWW-2-72P, LWW-2-144P
Rating(s) .......................................... : 100-240Vac, 50/60Hz, 180W
Test case verdicts
Test case does not apply to the
N/A
test object
Test item does meet the
requirement :
P(ass)
Test item does not meet the
F(ail)
requirement :
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 2 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
General remarks
This report shall not be reproduced except in full without the written approval of the testing laboratory.
The test results presented in this report relate only to the item(s) tested.
A
O
D
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A
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”(see remark #)" refers to a remark appended to the report.
"(see Annex #)" refers to an annex appended to the report.
Clause numbers between brackets refer to clauses in EN 60598-2-1
General product information:
(Note: the series products have the same circuit diagram, pcb layout and functionality. The differences
are the model name, so, we select LWW-7-72P to test.)
Copy of marking plate:
Product : LED WALL WASHER
Input: 100-240Vac, 50/60Hz, 180W
Model: LWW-7-72P
65
TOPKING INTERNATIONAL GROUP LIMITED
Prepared by :
Engineer
Reviewer :
Supervisor
Approved & Authorized Signer :
Christina / Manager
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 3 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
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P A
D
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A
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1.1 (0)
SCOPE
1.1 (0.1)
More sections applicable .................................... : Yes [√ ]
1.4 (2)
CLASSIFICATION
P
1.4 (2.2)
Type of protection ............................................... : Class Ⅰ
⎯
1.4 (2.3)
Degree of protection ........................................... : IP65
⎯
1.4 (2.4)
Portable or handheld luminaire .......................... : No
⎯
Fixed luminaire suitable for normally flammable
Yes
surfaces............................................................... :
⎯
Fixed luminaire suitable for non-combustible
No
materials only ..................................................... :
⎯
Luminaire for normal use ................................... : Yes
⎯
Luminaire for rough service ............................... : No
⎯
1.5 (3)
MARKING
P
1.5 (3.2)
Mandatory markings
P
1.4 (2.5)
1.5 (3.3)
P
No [ ]
⎯
Position of the marking
On the enclosure
P
Format of symbols/text
See rating label
P
Additional information
Language of instructions
P
English
P
1.5 (3.3.1)
Combination luminaires
N
1.5 (3.3.2)
Nominal frequency in Hz
50/60Hz
P
1.5 (3.3.3)
Operating temperature
Unmarked
N
1.5 (3.3.4)
Symbol or warning notice
1.5 (3.3.5)
Wiring diagram
1.5 (3.3.6)
Special conditions
1.5 (3.3.7)
Metal halid lamp luminaire – warning
Not metal halide lamp
N
1.5 (3.3.8)
Limitation for semi-luminaires
Not semi-luminaires
N
1.5 (3.3.9)
Power factor and supply current
1.5
(3.3.10)
Suitability for use indoors
1.5
(3.3.11)
Luminaires with remote control
P
No Wiring diagram
N
N
N
Suitability for use indoors and
outdoors
No remote control
P
N
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 4 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
1.5
(3.3.12)
Clip-mounted luminaire – warning
Not clip-mounted luminaire
1.5
(3.3.13)
Specifications of protective shields
1.5
(3.3.14)
Symbol for nature of supply
~
P
1.5
(3.3.15)
Rated current of socket outlet
No socket outlet
N
1.5
(3.3.16)
Rough service luminaire
Ordinary luminaire
N
1.5
(3.3.17)
Mounting instruction for type Y, type Z and some
type X attachments
Type Y
P
1.5
(3.3.18)
Non-ordinary luminaires with PVC cable
Ordinary luminaire
N
1.5(3.319)
Protective conductor current in instruction if
applicable
N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
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A
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N
N
1.5(3.3.20) Provided with information if not intended to be
mounted within arms reach
P
1.5
P
Terminal block supplied with luminaire
(3.3.101)
1.5 (3.4)
Test with water
15s with water
P
Test with hexane
15s with hexane
P
Legible after test
The marking is legible
P
Label attached
The marking not be easily
removable and shows no
curling
P
1.6 (4)
CONSTRUCTION
P
1.6 (4.2)
Components replaceable without difficulty
N
1.6 (4.3)
Wireways smooth and free from sharp edges
1.6 (4.4)
Lampholders
N
1.6 (4.4.1)
Integral lampholder
N
1.6 (4.4.2)
Wiring connection
P
1.6 (4.4.3)
Lampholder for end-to-end mounting
N
1.6 (4.4.4)
Positioning
P
1.6 (4.4.5)
Peak pulse voltage
N
1.6 (4.4.6)
Centre contact
P
Wireways smooth and free
from sharp edges
P
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 5 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
1.6 (4.4.7)
Rough service luminaires
Ordinary luminaires
1.6 (4.4.8)
Lamp connectors
P
1.6 (4.5)
Starter holders
--
Starter holder in luminaires other than class II
N
Starter holder class II construction
N
Terminal blocks
P
Tails
N
Unsecured blocks
P
1.6 (4.7)
Terminals and supply connections
--
1.6 (4.7.1)
Contact to metal parts
N
1.6 (4.7.2)
Test 8 mm live conductor
N
Test 8 mm earth conductor
N
1.6 (4.7.3)
Terminals for supply conductors
N
1.6 (4.7.4)
Terminals other than supply connection
N
1.6 (4.7.5)
Heat-resistant wiring/sleeves
1.6 (4.7.6)
Multi-pole plug
N
1.6 (4.8)
Switches:
--
- adequate rating
N
- adequate fixing
N
- polarized supply
N
1.6 (4.9)
Insulating lining and sleeves
P
1.6 (4.9.1)
Retainment
P
N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
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1.6 (4.6)
Method of fixing .......................................... :
1.6 (4.9.2)
Heat-resistant wiring
Normal fixed
P
P
Insulated linings and sleeves
--
a) & c) Insulation resistance and electric strength
P
b) Ageing test. Temperature (°C) .............. :
P
1.6 (4.10)
Insulation of Class II luminaires
N
1.6
(4.10.1)
No contact, mounting surface - accessible metal
parts - wiring of basic insulation
N
Safe installation fixed luminaires
Safe installation fixed
luminaires
P
Capacitors
N
Interference suppression capacitors according to VDE approved
IEC 60384-14
N
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 6 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
1.6
(4.10.2)
Assembly gaps:
--
- not coincidental
N
- no straight access with test probe
N
Retainment of insulation:
--
- fixed
P
- unable to be replaced; luminaire inoperative
N
- sleeves retained in position
P
- lining in lampholder
P
1.6 (4.11)
Electrical connections
--
1.6
(4.11.1)
Contact pressure
1.6
(4.11.2)
Screws:
--
- self-tapping screws
N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
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1.6
(4.10.3)
- thread-cutting screws
Not transmitted through
insulating material
Thread-cutting screws
P
P
- at least two self-tapping screws
N
Screw locking:
P
- spring washer
N
- rivets
P
1.6
(4.11.4)
Material of current-carrying parts
N
1.6
(4.11.5)
No contact to wood
No wood material in the
luminaire
P
1.6
(4.11.6)
Electro-mechanical contact systems
No such systems
N
1.6 (4.12)
Mechanical connections and glands
--
1.6
(4.12.1)
Screws not made of soft metal
P
Screws of insulating material
N
Torque test: torque (Nm); part ............................ : 3.8mm 0.5Nm
P
Torque test: torque (Nm); part ............................ :
N
Torque test: torque (Nm); part ............................ :
N
Screws with diameter < 3 mm screwed into metal Screws with diameter < 3 mm
P
1.6
(4.11.3)
1.6
(4.12.2)
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
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Page 7 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
1.6
(4.12.4)
Locked connections:
--
- fixed arms; torque (Nm) .................................... : 2.5Nm connect the
lampholder and enclosure
P
- lampholder; torque (Nm) ................................... : 3Nm
P
- push-button switches; torque 0,8 Nm ............... :
N
1.6
(4.12.5)
Screwed glands; force (N) .................................. : Screwed glands 60N
P
1.6 (4.13)
Mechanical strength
P
1.6
(4.13.1)
Impact tests:
P
- fragile parts; energy (Nm) ................................. : 0.2 Nm
P
- other parts; energy (Nm) .................................. : 0.35Nm
P
1) live parts
N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
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Not access
2) linings
P
3) protection
Continue to afford the degree
of protection against ingress
of dust, solid objects and
moisture
P
4) covers
No break
P
1.6
(4.13.3)
Straight test finger
Can’t touch with live part with
30N
P
1.6
(4.13.4)
Rough service luminaires
--
a) fixed
N
b) hand-held
N
c) delivered with a stand
N
d) for temporary installations and suitable for
mounting on a stand
N
1.6
(4.13.6)
Tumbling barrel
N
1.6 (4.14)
Suspensions and adjusting devices
N
1.6
(4.14.1)
Mechanical load:
P
A) four times the weight
P
B) torque 2,5 Nm
Torque 2,5 Nm
N
C) bracket arm; bending moment (Nm) .............. :
N
D) load track-mounted luminaires
N
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 8 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
E) clip-mounted luminaires, glass-shelve.
Thickness (mm) ................................................. :
N
metal rod. Diameter (mm) .................................. :
N
Load to flexible cables
--
Mass (kg) ............................................................ :
N
Stress in conductors (N/mm²) ............................. :
N
Semi-luminaires – mass (kg) ............................. :
N
Semi-luminaires – bending moment (Nm) .......... :
N
Adjusting devices:
P
- flexing test; number of cycles ........................... :
P
- strands broken
P
- electric strength test afterwards
P
1.6
(4.14.4)
Telescopic tubes: cords not fixed to tube; no
strain on conductors
N
1.6
(4.14.5)
Guide pulleys
P
1.6
(4.14.6)
Strain on socket-outlets
N
1.6 (4.15)
Flammable materials:
P
- glow-wire test 650 °C
N
- spacing ≥ 30 mm
P
- screen withstanding test of 13.3.1
P
- screen dimensions
N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
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2
N P 20
O
A
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A PA M
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D
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1.6
(4.14.2)
1.6
(4.14.3)
- no fiercely burning material
1.6
(4.15.2)
1.6 (4.16)
1.6
(4.16.1)
No fiercely burning material
P
- thermal protection
N
- electronic circuits exempted
N
Luminaires made of thermoplastic material with lamp control gear
--
a) construction
N
Metal enclosure
b) temperature sensing control
N
c) surface temperature
N
Luminaires marked with F-symbol
--
No lamp control gear
N
Lamp control gear spacing:
P
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 9 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
- spacing 35 mm
N
- spacing 10 mm
P
Thermal protection:
N
- in lamp control gear
N
- external
N
- fixed position
N
- temperature marked lamp control gear
N
1.6
(4.16.3)
"F" curve measured
N
1.6 (4.17)
Drain holes
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
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C
1.6
(4.16.2)
Ordinary luminaire
P
Clearance at least 5 mm
P
1.6 (4.18)
Resistance to corrosion:
--
1.6
(4.18.1)
- rust-resistance
1.6
(4.18.2)
- season cracking in copper
N
1.6
(4.18.3)
- corrosion of aluminium
P
1.6 (4.19)
Ignitors compatible with ballast
1.6 (4.20)
Rough service vibration ...................................... : Ordinary luminaire
N
1.6 (4.21)
Protective shield:
--
1.6
(4.21.1)
Shield fitted
1.6
(4.21.2)
Particles from a shattering lamp not impair safety Safety
P
1.6
(4.21.3)
No direct path
N
1.6
(4.21.4)
Impact test on shield
Ordinary luminaire
No ignitors
Fixed
No broken
Glow-wire test on lamp compartment
P
N
P
P
P
1.6 (4.22)
Attachments to lamps
No attachments
N
1.6 (4.23)
Semi-luminaires comply class II
Class Ⅰ
N
1.6 (4.24)
UV radiation
1.6 (4.25)
No sharp point or edges
1.6 (4.26)
Short-circuit protection:
N
No sharp points or edges
P
N
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 10 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
1.6
(4.26.1)
Uninsulated accessible SELV parts
N
1.6
(4.26.2)
Short-circuit test
N
1.6
(4.26.3)
Test chain according to IEC 61032
N
1.7 (11)
CREEPAGE DISTANCES AND CLEARANCES
P
Working voltage (V) ............................................ : 100-240Vac
⎯
Voltage form
Sinusoidal
⎯
PTI
< 600V
⎯
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Rated pulse voltage (kV) .................................... :
⎯
(1) Current-carrying parts of different polarity: cr Cr >2.5mm, Cl>1.5mm
(mm); cl (mm) ...................................................... :
P
(2) Current-carrying parts and accessible parts:
Cr >2.5mm, Cl>1.5mm
cr (mm); cl (mm) .................................................. :
P
(3) Parts becoming live due to breakdown of
basic insulation and metal parts:
cr (mm); cl (mm) .................................................. :
N
(4) Outer surface of cable where it is clamped
and metal parts: cr (mm); cl (mm)....................... :
N
(5) Current-carrying parts of switches and metal
parts, after removal of insulation:
cr (mm); cl (mm) .................................................. :
N
(6) Current-carrying parts and supporting
Cr >2.5mm, Cl>1.5mm
surface: cr (mm); cl (mm) .................................... :
P
1.8 (7)
PROVISION FOR EARTHING
1.8 (7.2.1
+ 7.2.3)
Accessible metal parts
P
P
Metal parts in contact with supporting surface
P
Resistance < 0,5 Ω
0.083Ω
P
Two self-tapping screws used
P
Thread-forming screws
P
Connector earthing first
P
1.8 (7.2.2
+ 7.2.3)
Earth continuity in joints etc.
N
1.8 (7.2.4)
Locking of clamping means
P
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 11 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
Compliance with 4.7.3
P
1.8 (7.2.5)
Earth terminal integral part of connector socket
N
1.8 (7.2.6)
Earth terminal adjacent to mains terminals
P
1.8 (7.2.7)
Electrolytic corrosion of the earth terminal
P
1.8 (7.2.8)
Material of earth terminal
P
Contact surface bare metal
P
1.8
(7.2.10)
Class II luminaire for looping-in
N
1.8
(7.2.11)
Earthing core coloured green-yellow
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Green-yellow
P
Length of earth conductor
P
SCREW TERMINALS
N
Separately approved; component list
N
Part of the luminaire
N
SCREWLESS TERMINALS
N
Separately approved; component list
N
Part of the luminaire
N
1.10 (5)
EXTERNAL AND INTERNAL WIRING
P
1.10 (5.2)
Supply connection and external wiring
P
1.10
(5.2.1)
Means of connection ........................................... :
P
1.10
(5.2.2)
Type of cable ...................................................... :
P
Nominal cross-sectional area (mm²) ................... : 0.824mm²
P
1.10
(5.2.3)
Type of attachment, X, Y or Z
P
1.10
(5.2.5)
Type Z not connected to screws
N
1.10
(5.2.6)
Cable entries:
--
1.9 (14)
1.9 (15)
- suitable for introduction
1.10
(5.2.7)
Type Y attachment
Suitable
P
- adequate degree of protection
P
Cable entries through rigid material have
rounded edges
P
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 12 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
1.10
(5.2.8)
Insulating bushings:
Result
Verdict
P
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
- suitably fixed
Suitably fixed
P
- material in bushings
N
- tubes or guards made of insulating material
N
1.10
(5.2.9)
Locking of screwed bushings
N
1.10
(5.2.10)
Cord anchorage:
N
- covering protected from abrasion
N
- clear how to be effective
N
- no mechanical or thermal stress
N
- no tying of cables into knots etc.
N
- insulating material or lining
N
Cord anchorage for type X attachment:
--
a) at least one part fixed
N
b) types of cable
N
c) no damaging of the cable
N
d) whole cable can be mounted
N
e) no touching of clamping screws
N
f) metal screw not directly on cable
N
g) replacement without special tool
N
Glands not used as anchorage
N
Labyrinth type anchorages
N
1.10
(5.2.10.1)
1.10
(5.2.10.2)
Adequate cord anchorage for type Y and type Z
attachment
Type Y
1.10
(5.2.10.3)
Tests:
P
- impossible to push cable; unsafe
P
- pull test: 25 times; pull (N) ................................ : 60N
P
- torque test: torque (Nm).................................... : 0.15Nm
P
- displacement ≤ 2 mm
P
0.12 mm
P
- no movement of conductors
- no damage of cable or cord
P
No damage of cable or cord
P
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 13 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
1.10
(5.2.11)
External wiring passing into luminaire
External wiring passing into
luminaire
1.10
(5.2.12)
Looping-in terminals
N
1.10
(5.2.13)
Wire ends not tinned
N
P
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Wire ends tinned: no cold flow
1.10
(5.2.14)
No cold flow
P
Mains plug same protection
N
Class III luminaire plug
N
1.10
(5.2.15)
Colour code low voltage
N
1.10
(5.2.16)
Appliance inlets (IEC 60320)
No appliance inlet
N
Appliance couplers of class II type
N
1.10 (5.3)
Internal wiring
--
1.10
(5.3.1)
Internal wiring of suitable size and type
P
Through wiring
P
- not delivered/ mounting instruction
N
- factory assembled
P
- socket outlet loaded (A) .................................... :
N
- temperatures ..................................................... : 105℃
P
Green-yellow for earth only
P
1.10
(5.3.1.1)
Internal wiring connected directly to fixed wiring
P
Cross-sectional area (mm²) ................................ :
P
Insulation thickness
P
Extra insulation added where necessary
1.10
(5.3.1.2)
Green-yellow
Only for mechanical protective
P
Internal wiring connected to fixed wiring via internal current-limiting device
--
Adequate cross-sectional area and insulation
thickness
P
1.10
(5.3.1.3)
Double or reinforced insulation for class II
N
1.10
(5.3.1.4)
Conductors without insulation
No such conductors
N
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 14 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
1.10
(5.3.1.5)
SELV current-carrying parts
N
1.10
(5.3.1.6)
Insulation thickness other than PVC or rubber
N
1.10
(5.3.2)
Sharp edges etc.
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Inner wire can’t touch the
sharp edges , rivets and
similar components
P
No moving parts of switches etc.
P
Joints, raising/lowering devices
P
Telescopic tubes etc.
No such device
N
No twisting over 360°
N
Openings
P
Bushings not removable
N
Bushings in sharp openings
N
Cables with protective sheath
N
1.10
(5.3.4)
Joints and junctions effectively insulated
P
1.10
(5.3.5)
Strain on internal wiring
P
1.10
(5.3.6)
Wire carriers
N
1.10
(5.3.7)
Wire ends not tinned
N
Wire ends tinned: no cold flow
P
1.11 (8)
PROTECTION AGAINST ELECTRIC SHOCK
P
1.11
(8.2.1)
Live parts not accessible
1.10
(5.3.3)
No access of live part in
normal use
P
Protection in any position
P
Double-ended tungsten filament lamp
N
Insulation lacquer not reliable
No insulation lacquer
N
Double-ended high pressure discharge lamp
N
1.11
(8.2.2)
Portable luminaire adjusted in most unfavourable
position
N
1.11
(8.2.3)
Class II luminaire:
--
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 15 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
- basic insulated metal parts not accessible
during starter or lamp replacement
Class I luminaire
Verdict
N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
- basic insulation not accessible other than during
starter or lamp replacement
N
- glass protective shields not used as
supplementary insulation
N
Class I luminaire with BC lampholder
N
Portable luminaire:
--
- protection independent of supporting surface
N
- terminal block completely covered
N
1.11
(8.2.6)
Covers reliably secured
N
1.11
(8.2.7)
Discharging of capacitors ≥ 0,5 μF
N
Portable plug connected luminaire with capacitor
N
Other plug connected luminaire with capacitor
N
Discharge device on or within capacitor
N
Discharge device mounted separately
N
ENDURANCE TEST AND THERMAL TEST
P
1.11
(8.2.4)
1.12 (12)
1.12 (12.3) Endurance test:
1.12
(12.3.2)
P
- mounting-position ............................................. : Normal position
⎯
- test temperature (°C) ........................................ : 35°C
⎯
- total duration (h) ................................................ : 168h
⎯
- supply voltage: Un factor; calculated voltage (V) 240X1.1=264V
............................................................................ :
⎯
- lamp used ......................................................... : Normal
⎯
After endurance test:
--
- no part unserviceable
P
- luminaire not unsafe
luminaire safe
- no damage to track system
P
N
- marking legible
Marking legible
P
- no cracks, deformation etc.
No cracks, deformation etc.
P
1.12 (12.4) Thermal test (normal operation)
P
1.12 (12.5) Thermal test (abnormal operation)
P
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 16 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
1.12 (12.6) Thermal test (failed lamp control gear condition):
--
1.12
(12.6.1)
- case of abnormal conditions ............................. :
⎯
- electronic lamp control gear
N
- measured winding temperature (°C) at 1,1 Un . :
⎯
- measured mounting surface temperature (°C) at
1,1 Un.................................................................. :
N
- calculated mounting surface temperature (°C) . :
N
- track-mounted luminaires
N
Temperature sensing control
N
- case of abnormal conditions ............................. :
⎯
- thermal link
N
- manual reset cut-out
N
- auto reset cut-out
N
- measured mounting surface temperature (°C) :
P
- track-mounted luminaires
N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
1.12
(12.6.2)
1.12 (12.7) Thermal test (failed lamp control gear in plastic luminaires):
N
- case of abnormal conditions ............................. :
⎯
- measured winding temperature (°C) at 1,1 Un . :
⎯
- measured temperature of fixing point/ exposed
part (°C) at 1,1 Un ............................................... :
N
- calculated temperature of fixing point/ exposed
part (°C) .............................................................. :
N
Temperature sensing control
--
- thermal link
N
- manual reset cut-out
N
- auto reset cut-out
N
- measured temperature of fixing point/ exposed
part (°C) ............................................................... :
N
1.13 (9)
RESISTANCE TO DUST, SOLID OBJECTS AND MOISTURE
P
1.13 (9.2)
Tests for ingress of dust, solid objects and moisture:
--
- classification according to IP ............................ : IP65
P
1.12
(12.7.1)
1.12
(12.7.2)
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 17 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
- mounting position during test ............................ :
⎯
- fixing screws tightened; torque (Nm) ................ :
⎯
- tests according to clauses ................................ :
⎯
- electric strength test afterwards
P
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
a) no deposit in dust-proof luminaire
no deposit in dust-proof
luminaire
b) no talcum in dust-tight luminaire
P
c) no trace of water on current-carrying parts or
where it could become a hazard
P
d) i) For luminaires without drain holes – no water
entry
N
d) ii) For luminaires with drain holes – no
hazardous water entry
No water entry
e) no water in watertight luminaire
1.13 (9.3)
P
P
P
f) no contact with live parts (IP 2X)
IP65
P
f) no entry into enclosure (IP 3X and IP 4X)
IP65
P
Humidity test 48 h
R.H.:94%
P
T:26℃ 48H
1.14 (10)
INSULATION RESISTANCE AND ELECTRIC STRENGTH
P
1.14
(10.2.1)
Insulation resistance test
--
Insulation resistance (MΩ):
--
SELV:
N
- between current-carrying parts of different
polarity................................................................. :
N
- between current-carrying parts and mounting
surface ................................................................ :
N
- between current-carrying parts and metal parts
of the luminaire ................................................... :
N
Other than SELV:
--
- between live parts of different polarity .............. : Insulation resistance >2MΩ
P
- between live parts and mounting surface ......... : Insulation resistance >4MΩ
P
- between live parts and enclosure ..................... : Insulation resistance >4MΩ
P
- between live parts of different polarity through No switch
action of a switch ................................................ :
N
Electric strength test
P
1.14
(10.2.2)
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
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Page 18 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
Dummy lamp
N
Luminaires with ignitors after 24 h test
N
Luminaires with manual ignitors
N
Test voltage (V):
--
SELV:
N
- between current-carrying parts of different
polarity................................................................. :
N
- between current-carrying parts and mounting
surface ................................................................ :
N
- between current-carrying parts and metal parts
of the luminaire ................................................... :
N
Other than SELV:
--
- between live parts of different polarity .............. : 1480V no broken
- between live parts and mounting surface ......... : 1480V no broken
P
- between live parts and enclosure ..................... : 1480V no broken
P
- between live parts of different polarity through
action of a switch ................................................ :
N
1.14
(10.3.1)
Leakage current (mA) ......................................... : 0.128mA < 1mA
P
1.15 (13)
RESISTANCE TO HEAT, FIRE AND TRACKING
P
1.15
(13.2.1)
Ball-pressure test:
--
- part tested; temperature (°C) ............................ :
N
- part tested; temperature (°C) ............................ :
N
Needle flame test (10 s):
--
- part tested ......................................................... :
N
- part tested ......................................................... :
N
Glow wire test (650°C):
--
- part tested ......................................................... :
N
- part tested ......................................................... :
N
Tracking test: part tested .................................... :
N
COMMON MODIFICATIONS
N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
1.15
(13.3.1)
1.15
(13.3.2)
1.15
(13.4.1)
P
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 19 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
(3.3.101 +
5.2.1)
For luminaires connected by tails, information
about terminal block
N
(5.2.2)
Cables equal to HD 21 S2 or HD 22 S2
N
(5.2.15)
Colour code low voltage
N
ZB
ANNEX ZB, SPECIAL NATIONAL CONDITIONS
N
(2.2)
Class 0 not accepted
N
(3.3)
DK: power supply cord with label
N
IT: warning label on Class 0 luminaire
N
(4.5.1)
DK: socket-outlets
N
(4.5.1)
FR: socket-outlets
N
(5.2.1)
DK, FI, SE, GB: type of plug
N
ZC
ANNEX ZC, NATIONAL DEVIATIONS
N
(13.3)
DK: Needle flame test or glow-wire test 750°C
for luminaires in access routes
N
(13.3)
GB: Requirements according to United Kingdom
Building Regulation
N
(13.3.2)
FR: Glow-wire test 850°C alt. 750°C for
luminaires in premises open to public and
workers
N
ANNEX 1: components
N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
object/part No.
manufacturer/
trademark
type/model
technical data
standard
mark(s) of
conformity
ANNEX 2: temperature measurements, thermal tests of Section 12
P
Type reference .................................................... : See page 2
⎯
Lamp used .......................................................... : LED
⎯
Lamp control gear used ...................................... : BUILD-IN
⎯
Mounting position of luminaire ............................ : Normal position
⎯
Supply wattage (W)............................................. : 180W
⎯
Supply current (A) ............................................... : --
⎯
Calculated power factor ...................................... : --
⎯
Table: measured temperatures corrected for ta = 25 °C:
- abnormal operating mode ................................. : --
⎯
- test 1: rated voltage .......................................... : --
⎯
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
Certificate Search: http://www.bst-lab.com, Tel: 400-882-9628, 8009990305, E-mail:[email protected]
Page 20 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
- test 2: 1,06 times rated voltage or 1,05 times
240X1.06=254.4V
rated wattage ...................................................... :
⎯
- test 3: Load on wiring to socket-outlet,
-1,06 times voltage or 1,05 times wattage ........... :
⎯
- test 4: 1,1 times rated voltage or 1,05 times
-rated wattage ...................................................... :
⎯
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
clause 12.4 - normal
temperature (°C) of part
test 1
test 2
test 3
clause 12.5 - abnormal
limits
Enclosure surface
35.6
90
Enclosure inside
32.5
85
Internal wiring
36.5
105
Ambient
27.4
test 4
limit
ANNEX 3: screw terminals (part of the luminaire)
N
(14)
SCREW TERMINALS
--
(14.2)
Type of terminal .................................................. :
⎯
Rated current (A) ................................................ :
⎯
(14.3.2.1)
One or more conductors
N
(14.3.2.2)
Special preparation
N
(14.3.2.3)
Terminal size
N
Cross-sectional area (mm²) ................................ :
N
(14.3.3)
Conductor space (mm) ....................................... :
N
(14.4)
Mechanical tests
--
(14.4.1)
Minimum distance
N
(14.4.2)
Cannot slip out
N
(14.4.3)
Special preparation
N
(14.4.4)
Nominal diameter of thread (metric ISO thread) . :
N
External wiring
N
No soft metal
N
(14.4.5)
Corrosion
N
(14.4.6)
Nominal diameter of thread (mm) ....................... :
N
Torque (Nm) ........................................................ :
N
Between metal surfaces
N
Lug terminal
N
Mantle terminal
N
Pull test; pull (N) .................................................. :
N
(14.4.7)
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
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Page 21 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
(14.4.8)
Without undue damage
N
ANNEX 4: SCREWLESS TERMINALS (PART OF THE LUMINAIRE)
N
(15)
SCREWLESS TERMINALS
--
(15.2)
Type of terminal .................................................. :
⎯
Rated current (A) ................................................ :
⎯
(15.3.1)
Material
N
(15.3.2)
Clamping
N
(15.3.3)
Stop
N
(15.3.4)
Unprepared conductors
N
(15.3.5)
Pressure on insulating material
N
(15.3.6)
Clear connection method
N
(15.3.7)
Clamping independently
N
(15.3.8)
Fixed in position
N
(15.3.10)
Conductor size
N
Type of conductor
N
(15.5.1)
Terminals internal wiring
N
(15.5.1.1)
Pull test spring-type terminals (4 N, 4 samples)
N
(15.5.1.2)
Pull test pin or tab terminals (4 N, 4 samples)
N
Insertion force not exceeding 50 N
N
(15.5.2)
Permanent connections: pull-off test (20 N)
N
(15.6)
Electrical tests
N
Voltage drop (mV) after 1 h (4 samples)............. :
N
Voltage drop of two inseparable joints
N
Number of cycles ................................................ :
⎯
Voltage drop (mV) after 10th alt. 25th cycle
(4 samples) ......................................................... :
N
Voltage drop (mV) after 50th alt. 100th cycle
(4 samples) ......................................................... :
N
After ageing, voltage drop (mV) after 10th alt.
25th cycle (4 samples) ........................................ :
N
After ageing, voltage drop (mV) after 50th alt.
100th cycle (4 samples) ...................................... :
N
Terminals external wiring
N
Terminal size and rating
N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
(15.7)
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
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Page 22 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
EN 60598-2-1&EN 60598-1
Cl.
Requirement – Test
Result
Verdict
(15.8.1)
Pull test spring-type terminals (4 samples); pull
(N)
N
Pull test pin or tab terminals (4 samples); pull (N)
N
Contact resistance test
N
Voltage drop (mV) after 1 h
N
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
(15.9)
terminal
1
2
3
4
5
6
7
8
9
10
voltage drop (mV)
Voltage drop of two inseparable joints
Voltage drop after 10th alt. 25th cycle
⎯
Max. allowed voltage drop (mV) ................. :
terminal
1
2
3
4
5
6
7
8
9
10
voltage drop (mV)
Voltage drop after 50th alt. 100th cycle
⎯
Max. allowed voltage drop (mV) ................. :
terminal
1
2
3
4
5
6
7
8
9
10
voltage drop (mV)
Continued ageing: voltage drop after 10th alt. 25th cycle
⎯
Max. allowed voltage drop (mV) ................. :
terminal
1
2
3
4
5
6
7
8
9
10
voltage drop (mV)
Continued ageing: voltage drop after 50th alt. 100th cycle
⎯
Max. allowed voltage drop (mV) ................. :
terminal
1
2
3
4
5
6
7
8
9
10
voltage drop (mV)
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
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Page 23 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
ANNEX A:
Photo-documentation
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
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Page 24 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Photo 1 Overview
Photo 2 Bottom View
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
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Page 25 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Photo 3 Overview
Photo 4 Inside Overview
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
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Page 26 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Photo 5 LWW-2-72P Overview
Photo 6 LWW-2-72P Overview
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
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Page 27 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Photo 7 LWW-2-144P Overview
Photo 8 LWW-2-144P Overview
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
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Page 28 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Photo 9 LWW-7-36P Overview
Photo 10 LWW-7-36P Overview
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
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Page 29 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Photo 11 LWW-7A-36P Overview
Photo 12 LWW-7A-36P Overview
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
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Page 30 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Photo 13 LWW-7A-72P Overview
Photo 14 LWW-7A-72P Overview
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
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Page 31 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Photo 15 LWW-8A-144P Overview
Photo 16 LWW-8B-108P Overview
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
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Page 32 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Photo 17 LWW-8B-108P Overview
Photo 18 LWW-8B-108P Overview
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
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Page 33 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Photo 19 LWW-8C-108P Overview
Photo 20 LWW-8C-108P Overview
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
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Page 34 of 35
Shenzhen BST Technology Co., Ltd.
Report No.: BST13110811Y-1SR-2
A
O
D
S
A
L E 01
O
C
0
R
O
0
T
R
2
N P 20
O
A
C R LA
A PA M
I
P A
D
O
A
C LID -G
O
Á
V OT
C
Photo 21 LWW-8C-216P Overview
Photo 22 LWW-8C-216P Overview
Add:Building No.23-24,Zhiheng Industrial Park,Guankouer Road,Nantou,Nanshan District,Shenzhen,Guangdong,China
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Page 35 of 35