TEST REPORT PPP 11023A:2011 Rev. 00 TUV SUD Test report ... · 62560 (clause numbers between parentheses refer to IEC 62560) 4.1 (7) Lamps shall be so constructed that no internal

Page 1 of 26 Report Reference No.: 611401102601

Test Report TUV_PPP_11023A:2011 Rev.0

TEST REPORT PPP 11023A:2011 Rev. 00

TUV SUD Test report for T8/T5 LED tube Lamp Report reference No. ......................... : 611401102601

Date of issue ...................................... : 2011-06-14

Project handler�…�…�…�… .................... : Alin Hung

Testing laboratory .............................. : TÜV SÜD Asia Ltd. Taiwan Branch

Address .............................................. : 7F., No. 37, Sec. 2, Zhongyang S., Rd., Beitou District, Taipei City,

11270, Taiwan

Testing location .................................. : as above

Client ................................................... : ShenZhen Ruizi Light Electricity Technology Co., Ltd.

Client number�…�…�…�… ...................... : 77278

Address .............................................. : 6F, Building A, No.8 East of Shangxue Technology Zone Bantian

Street Community, Longgang District 518129 Shenzhen

PEOPLE'S REPUBLIC OF CHINA

Contact person�…�… ............................ LV Jun Cal

Standard ............................................. : This TUV SUD test report PPP_11023A:2011 is based on the following standards:

IEC 62560: 2011 EN 61347-2-13: 2006 EN 60598-1: 2008 EN 62471:2008 IEC 62471-2:2009 draft IEC 62560 Annex C

Also taken into consideration of the followings: ETF5/ETF11/OSM/LUM DSH 0744 EK1 475-10 LVD ADCO Recommendation: 2011-02

TRF originated by. .............................. : TUV SUD Product Service GmbH, Mr. Jay Chen

Copyright blank test report ................. : This test report was prepared by TUV SUD Product Service GmbH. TUV SUD Group 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.

Test procedure .................................. : Bauart Mark TÜV Mark, EU-Directive, without certification Non-standard test method ................. : N.A.

National deviations ............................. : N.A.

Number of pages (Report) ................. : 26

Number of pages (Attachments) ....... : 36

Compiled by .... : Alin Hung Approved by ..... : Jay Chen

(+ signature) (+ signature)



Test sample�…�…�…�…�…�…�…�…�…�…....:

Type of test object .............................. : LED Tube

Trademark .......................................... : ERVAN

Model and/or type reference .............. : L05G600MM, L05G900MM, L05G1200MM, L05G1500MM,

L06G600MM, L06G900MM, L06G1200MM-216,

L06G1200MM-264, L06G1500MM, L06F1200MM

Rating(s) ............................................. : 100-240 Vac, 50-60 Hz,

11 W for L05G600MM;

15W for L06G600MM;

20W for L05G900MM, L05G1200MM, L06G900MM,

L06G1200MM-216, and L06G1200MM-264;

24W for L05G1500MM, L06G1500MM, and L06F1200MM

Manufacturer ...................................... : Same as applicant

Manufacturer number�… ..................... : Same as applicant

Address .............................................. : Same as applicant

Sub-contractors/ tests (clause) .......... : N.A.

Name .................................................. : N.A.

Order description�… ............................ : Complete test according to TRF

Partial test according to manufacturer's specifications

Preliminary test

Spot check

Date of order�…�…�… ........................... : 2011-03-10

Date of receipt of test item ................. : 2011-03-15

Date(s) of performance of test ........... : 2011-03-16~2011-06-13

Test item particulars:

1. Marking test 10. Electric strength test

2. Adjusting device test 11. Heating test

3. Access to live part 12. Ball pressure test

4. Voltage discharge test 13. Glow wire test

5. Interchangeability and dimensions 14. Needle flame test

6. Torque test for lamp cap 15. Extreme Electrical Conditions Test For Non-Dimmable Lamp

7. Protection against electric shock 16. Fault conditions test

8. Humidity treatment test 17. Overpower conditoin test

9. Insulation resistance test

Attachments: Enclosure 1: Test report for EN 62471:2008. (13 pages) Enclosure 2: Test report for IEC 62471-2:2009. (4 pages) Enclosure 3: Photographs of the items tested. (19 pages)



General remarks:

"(see remark #)" refers to a remark appended to the report. "(see appended table)" refers to a table appended to the report. Throughout this report a comma is used as the decimal separator. 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 testing laboratory.

Summary of testing:

Tested on models L06G1500MM and L06F1200MM to represent all models.

deviation(s) found

no deviations found If additional information is necessary, please provide Model difference:

Model No. Tube Size (X*A)mm

LED QTY

(PCS)

Input Current˄A˅

Driver Output Voltage (V)DC

Driver Output current

(A)

Rated Wattage

(W)

L05G600MM 26*598 108 0.11 40 245 11

L05G900MM 26*898 216 0.20 40 450 20

L05G1200MM 26*1198 216 0.20 40 450 20

L05G1500MM 26*1498 240 0.24 40 540 24

L06G600MM 26*598 144 0.15 40 340 15

L06G900MM 26*898 216 0.20 40 450 20

L06G1200MM-216 26*1198 216 0.20 40 450 20

L06G1200MM-264 26*1198 264 0.20 40 450 20

L06G1500MM 26*1498 240 0.24 40 540 24

L06F1200MM 30*1198 384 0.24 78 260 24



Copy of marking plate:

Representative marking label

Picture of the product

See Enclosure 3

Characteristic data (not shown on the marking plate)

Marking in installation manual - For lamps with a weight significantly higher than that of the lamps for which they are a replacement, attention should be drawn to the fact that the increased weight may reduce the mechanical stability of certain luminaires and lampholders and may impair contact making and lamp retention. - The light distribution of the luminaire will be changed when replacing a fluorescent lamp with a LED tube. This can have influences for sufficient illumination of working places. - This LED lamp is for replacement of the conventional fluorescent lamp with mangnetic ballast only. - No any constructive change of the luminaire is permitted, except the exchange of the starter in the luminaire by short-circuited or fused starter contacts. - The warranty of the original luminaire might be void after replacing fluorescent lamp with LED tube. - Not suitable for dimming.

Characteristic data Factory (only if certification is provided)

ShenZhen Ruizi Light Electricity Technology Co., Ltd. (Factory ID: 77278) 6F, Building A, No.8 East of Shangxue Technology Zone Bantian Street Community, Longgang District 518129 Shenzhen PEOPLE'S REPUBLIC OF CHINA



Purpose of the product (Description of intended use)

The products are LED tubular lamps with G13 cap, intended to replace the conventional fluorescent lamp with mangnetic ballast only.

Possible test case verdicts:

- test case does not apply to the test object ................. : N(.A.) / not included in the order

- test object does meet the requirement ....................... : P(ass)

- test object does not meet the requirement ................. : F(ail)

Possible suffixes to the verdicts:

- suffix for detailed information for the li t

- C(omment)

- suffix for important information for factory inspection...: - M(anufacturing)


Clause Requirement Test Measuring result Remark Verdict


1 Scope Double-capped LED lamps with caps G5 and G

13, intended for replacing fluorescent lamps with the same caps

Double-capped LED lamps with caps G 13

P

2 MARKING Marking shall be in compliance with IEC 62560

(clause numbers between parentheses refer to IEC 62560)

2.1 (5.1) Lamps shall be clearly and durably marked with the following mandatory markings:

a) Mark of origin ERVAN P

b) Rated voltage/voltage range (V) 100-240 VAC P

c) Rated wattage (W) 11W, 15 W, 20 W, 24 W P

d) Rated frequency (Hz) 50-60 Hz P

2.2 (5.2) Additional markings on the lamp or immediate lamp wrapping or container or in installation instructions:

a) rated current P

b) �“For lamps with a weight significantly higher than that of the lamps for which they are a replacement, attention should be drawn to the fact that the increased weight may reduce the mechanical stability of certain luminaires and lampholders and may impair contact making and lamp retention.�”

P

c) Special conditions or restrictions observed for lamp operation; operation in dimming circuits

P

d) Not suitable for dimming ;

symbol used

P

e) For eye protection warning if other than Exempt Risk Group. (EK1 475-10)

See separate test report of EN 62471 and IEC TR 62471-2

P

2.3 (C.3) The LED lamp must be accompanied by an installation instruction describing all necessary steps for the exchange of the fluorescent lamp against a double-capped LED lamp. (Clause numbers between parentheses refer to draft IEC 62560 Annex C)

P

The manual or installation instruction shall include the followings precautions:




a) For lamps with a weight significantly higher than that of the lamps for which they are a replacement, attention should be drawn to the fact that the increased weight may reduce the mechanical stability of certain luminaires and lampholders and may impair contact making and lamp retention.�”

P

b) This LED lamp is for replacement of the conventional fluorescent lamp with magnetic ballast only

P

c) No any constructive change of the luminaire is permitted, except the exchange of the starter in the luminaire by short-circuited or fused starter contacts

P

d) The light distribution of the luminaire will be changed when replacing a fluorescent lamp with a LED tube. This can have influences to the illumination of working places.

P

e) The warranty of the original luminaire might be void after replacing fluorescent lamp with LED tube

P

The manual shall be written in the country's language where the lamp is sold

English P

2.4 (5.3) a) Presence and legibility of the marking by visual inspection

P

b) The durability of the marking is checked by rubbing lightly with water and hexane for 15 s

P

c) Availability of information by visual inspection P

3 INTERCHANGEABILITY Interchangability shall be in compliance with draft IEC 62560 Annex C

(clause numbers between parentheses refer to draft IEC 62560 Annex C)

3.1 (C.4.1) Cap interchangeability

Interchangeability shall be ensured by the use of caps in accordance with IEC 60061-1

P

Compliance of the combination of cap and bulb is checked by the use of qauqes

P

G5 lamp cap: N.A.

Cap dimensions 7004-52 N.A.




Cap dimensions to be checked by the gauges 7006-44 and 7006-45

N.A.

G13 lamp cap: P

Cap dimensions 7004-51 P

Cap dimensions to be checked by the gauges 7006-46 and 7006-47

P

3.2 (C.4.2) Mass

The entire mass of a LED lamp should not exceed: 200 g for a G5-capped lamp .................................. :

N.A.

500 g for a G13-capped lamp ................................ : 444 g for L05G1500MM; 500 g for L06G1500MM; 500 g for L06F1200MM

P

3.3 (C.4.3) Dimensions

The LED lamps shall have the dimensions of the corresponding lamps of IEC 60081.

P

4 PROTECTION AGAINST ACCIDENTAL CONTACT WITH LIVE PARTS 4.1 Protection against accidental contact with live parts shall be in compliance with IEC

62560 (clause numbers between parentheses refer to IEC 62560)

4.1 (7) Lamps shall be so constructed that no internal metal parts or live parts are accessible, when the lamps is installed in a prescribed lampholder. Compliance is checked by means of the standard test finger with force of 10 N

P

External metal parts shall be so designed that live parts are not accessible (test of Cl. 8)

P

4.2 Protection against accidental contact with live parts shall be in compliance with EN 60598-1 (numbers in parentheses refer to the clause number in EN 60598-1). (LVD ADCO Recommendation)

4.2 (8.1) The pin(s) or contacts of the cap protected against accidental contact with live parts

P

Current measured according to IEC 60990, figure 4 and clause 7.1: max. 0,7 mA (peak) or 2,0 mA d.c., for f 1000 Hz max. 70 mA .................................. :

0.095 mA for L06G1500MM; 0.080 mA for L06F1200MM

P

Voltage at 50 k (V): max. 34 V (peak) ................ : 16 V for L06G1500MM; 14.8 V for L06F1200MM

P

4.3 (8.2.7) Capacitors > 0,5 F: voltage after 1 s (V): < 34 V . : 0 V P 4.3 Protection against accidental contact with live parts shall be in compliance with EN

61347-2-13 (clause numbers between parentheses refer to EN 61347-2-13)




4.4 (8.2) One capacitor Y1 or two capacitors Y2 of the same values used in series between SELV or SELV-equivalent output and primary circuits - Capacitor complying with IEC 60384-14 - Other components bridging the separating transformer complying with IEC 60065, clause 14

Y1 capacitor used

4.4 Protection against accidental contact with live parts shall be in compliance with draft IEC 62560 Annex C (clause numbers between parentheses refer to draft IEC 62560 Annex C)

4.5 (C.5) The insulation between the metal shell of the cap and the pin(s) or contacts by measurement with a 500 V d.c. 2 M ................................................... :

No metal shell N.A.

The insulation between the pin(s) or contacts of one cap and the pin(s) or contacts of the other cap by measurement with a 500 V d.c. 2 M ............ :

20 M P

5 INSULATION RESISTANCE AND ELECTRIC STRENGTH AFTER HUMIDITY TREATMENT

Insulation resistance and electric strength after humidity treatment for lamp shall be in compliance with IEC 62560 (clause numbers between parentheses refer to IEC 62560)

5.1 (8.1) Insulation resistance and electric strength shall be adequate between live parts of the lamp and accessible parts of the lamp

P

5.2 (8.2) After storage 48 h at a 91~95 % relative humidity and at 20~30 C

P

Insulation resistance with 500 V d.c., required 4 M .

P

5.3 (8.3) Immediately after the insulation resistance test, electric strength test for 1 min.

P

Test voltage (V): --

SELV:

- between current-carrying parts of different polarity, basic insulation ....................................... :

N.A.

- between current-carrying parts and mounting, basic insulation surface ........................................ :

N.A.

- between current-carrying parts and metal parts of the luminaire, basic insulation .............................. :

N.A.

Other than SELV:

- between live parts of different polarity, basic insulation .............................................................. :

1480 Vac P




- between live parts and mounting surface, double or reinforced insulaiton ......................................... :

N.A.

- between live parts and metal parts, double or reinforced insulaiton ............................................. :

3650 Vac P

- between live parts of different polarity through action of a switch, double or reinforced insulaiton :

N.A.

No flashover or breakdown P

Insulation resistance and electric strength after humidity treatment for SELV-operated LED modules shall be in compliance with EN 61347-2-13 (clause numbers between parentheses refer to EN 61347-2-13)

5.4 (I.8) Insulation resistance and electric strength P

5.4 (I.8.1) Conditioned 48 h between 91 % and 95 % P

5.4 (I.8.2) Adequate insulation (500 V d.c. for 1 min) between:

Live parts and the body -for basic insulation not less than 2 M ........................................................... :

10 M P

Live parts and the body -for reinforced insulation not less than 4 M ..................................................... :

20 M P

Input- and output circuits not less than 5 M .......... : 20 M P

Metal parts of class II controlgear which are separated from live parts by basic insulation only and the body not less than 5 M .............................. :

N.A.

Metal foil in contact with the inner and outer surfaces of enclosures of insulating material not less than 2 M ........................................................... :

10 M P

5.5 (I.8.3) Electric strength test:

1) Between live parts of input circuits and live parts of output circuits ................................................. :

3650 Vac P

2) Over basic or supplementary insulation between:

a) live parts which are or may become of different polarity ................................................................ :

1480 Vac P

b) live parts and body if intended to be connected to protective earth ............................................... :

N.A.

c) accessible metal parts and a metal rod of the same diameter as the flexible cable or cord ....... :

N.A.

d) live parts and an intermediate metal part ........... : N.A.

e) intermediate metal parts and the body ............... : N.A.

3) Over reinforced insulation between the body and

live parts ................................................................. :3650 Vac P

No flashover or breakdown occurred P




6 MECHANICAL REUIREMENTS FOR CAPS Mechanical reuirements for caps shall be in compliance with draft IEC 62560

Annex C (clause numbers between parentheses refer to draft IEC 62560 Annex C)

6.1 (C.7.1) Construction and assembly P

Caps shall be so constructed and assembled to the bulbs that they remain attached during and after operation

P

Compliance is checked by the following tests:

6.1.1 (C.7.1.1)

Unused lamps P

Torque test to the pins

0,5 Nm for G5 caps N.A.

1,0 Nm for G13 or R17d caps P

The caps remain firmly attached to the bulb P

No rotational movement between component parts of the cap exceeding an angular displacement of 6º

P

6.1.2 (C.7.1.2)

Lamps after heat treatment

a) Heating test for a period of 2 000 h ± 50 h

Test temperature ........................................................ : 120°C P

b) G13 capped lamps with a nominal wattage greater than 40 W

Test temperature ........................................................ : N.A.

Torque test after heating treatment

0,3 Nm for G5 caps N.A.

0,6 Nm for G13 or R17d caps P

The caps remain firmly attached to the bulb P

No rotational movement between component parts of the cap exceeding an angular displacement of 6º

P

7 TEMPERATURE

Temperature shall be in compliance with draft IEC 62560 Annex C (clause numbers between parentheses refer to draft IEC 62560 Annex C)

7.1 (C.4.4) The LED lamps shall not cause temperature higher than the corresponding lamp of IEC 60081.

P




The LED lamp under test shall consist of a complete unit. Before measuring the temperature of the lamp under test, a reference fluorescent lamp with the same dimensions is operated with a reference control gear at a rated voltage. The temperature of that lamp is measured. Under the same conditions, the LED lamp under test is operated and its temperature measured. The LED lamp temperature shall not be higher in any position than that of the reference lamp.

P

7.2 Cap temperature rise Cap temperature shall be in compliance with EN 61195

(clause numbers between parentheses refer to EN 61195)

Cap temperature rise dose not exceed 95 K ...... : 22.4 K for L06G1500MM; 22.5 K for L06F1200MM

P

8 FAULT CONDITIONS Fault conditions shall be in compliance with IEC 62560


8.1 (13.1) Lamps shall not impair safety when operated under fault conditions, which may occur during the intended use

P

8.2 (13.2) Extreme electrical conditions (dimmable lamps) N.A.

8.3 (13.3) Extreme electrical conditions (non-dimmable lamps)

P

8.4 (13.4) Short-circuit across capacitors (see appended table) P

8.5 (13.5) Fault conditions across electronic components (see appended table) P

8.6 (13.6) No fire, or produce flammable gases or smoke and live parts shall not become accessible

P

To check if gases liberated from component parts are flammable or not, a test with a high-frequency spark generator is made.

P

To check if accessible parts have become live, a test in according with cl. 7 is made

P

Insulation resistance requirements of 8.1 or Electrical strength test in 1000Vdc

P

Fault conditions shall be in compliance with draft IEC 62560 Annex C (clause numbers between parentheses refer to draft IEC 62560 Annex C)




8.7 (C.6) LED lamps shall be tested with an electronic control gear. Protective circuits of the electronic control gear, if existing, shall be disabled.

The LED tube shut down immediately, no hazard.

P

9 CREEPAGE DISTANCES AND CLEARANCES 9 (14) Creepage distances and clearances shall be in compliance with IEC 62560


Creepage distances and clearances according to Table 3 and 4, as appropriate

(see appended table) P

Printed boards see clause 14 of IEC/EN 61347-1 P

Insulating lining of metallic enclosures N.A.

10 SCREWS, CURRENT-CARRYING PARTS AND CONNECTIONS Screws, current-carrying parts and connections shall be in compliance with

EN 60598-1 (clause numbers between parentheses refer to EN 60598-1)

10 (4.11) Electrical connections: 10 (4.11.1) Contact pressure P 10 (4.11.2) Screws: - self-tapping screws N.A. - thread-cutting screws P - at least two self-tapping screws N.A. 10 (4.11.3) Screw locking: - spring washer N.A. - rivets N.A. 10 (4.11.4) Material of current-carrying parts P 10 (4.11.5) No contact to wood P 10 (4.12) Mechanical connections and glands: 10 (4.12.1) Mechanical stress Screws not made of soft metal P Screws of insulating material N.A. Torque test: part; torque (Nm) ............................... : Securing screw of cap; 0.4

Nm P

Torque test: part; torque (Nm) ............................... : N.A. Torque test: part; torque (Nm) ............................... : N.A. 10 (4.12.2) Screw diameter < 3 mm screwed into metal N.A. 10 (4.12.4) Locked connections N.A. 10 (4.12.5) Screwed glands: force (N) ..................................... : N.A.

11 RESISTANCE TO HEAT




Resistance to heat shall be in compliance with IEC 62560 (clause numbers between parentheses refer to IEC 62560)

11 (11) External parts of insulating material providing protection against electric shock, and parts of insulating material retaining live parts in position, ball pressure test:

P

Part tested; temperature ( C); diameter of impression ( 2 mm) ............................................ :

Bobbin of transformer T1; 125 C; 0.4 mm

P


PCB of LED driver; 125 C; 0.5 mm

P


Enclosure of cap; 125 C; 0.84 mm

P


Lens; 85 C; 0.61 mm P


Bobbin of line filter GM1; 125 C; 0.95 mm

P


Base plate of starter; 125 C; 0.4 mm

P

12 RESISTANCE TO FLAME AND IGNITION Resistance to flame and ignition shall be in compliance with IEC 62560 (clause

numbers between parentheses refer to IEC 62560)

12 (12) Parts of insulating material retaining live parts in position and external parts of insulating material providing protection against electric shock, glow-wire test 650 C

P

Part tested; temperature ( C) .............................. : Lens; 650 C P

Part tested; temperature ( C).. ............................ : Enclosure for LED driver; 650 C

P

Part tested; temperature ( C) .............................. : Enclosure of starter; 650 C P

No visible flame and no sustained glowing P

Flames and glowing, extinguish within 30 s P

No ignition of the tissue paper P

13 ELECTROMAGNETIC COMPATIBILITY REQUIREMENTS

Shall meet the requirement of radio disturbance charactrisstics (EN 55015)

See separate test report P

In compliance with the EMC immunity requirements (EN 61547)





Meet the limits for harmonic current emissions (EN 61000-3-2)


Comply the limitation of voltage changes, fluctuations and flickers in public low-voltage supply systems (EN 61000-3-3)


14 PHOTOBIOLOGICAL SAFETY REQUIREMENTS

Optical safety to be tested with IEC/EN 62471. All of the requirements, including marking provided by IEC TR 62471-2 shall be applied (DSH 0744)

EN 62471:2008 See separate test report P

IEC 62471-2:2009 See separate test report P




8 TABLE: tests of fault conditions

Part Simulated fault Hazard Model L06G1500MM BD Short-circuited; fuse current: 0.107A 0A. Fuse(F1) opened, no hazard. YES/NOC2 Short-circuited; fuse current: 0.107A 0A. Fuse(F1) opened, no hazard. YES/NOQ1, Pin D-G

Short-circuited; fuse current: 0.107A 0A. Fuse(F1) opened, Q1 damaged, no hazard.

YES/NO

Q1, Pin D-S


YES/NO

Q1, Pin S-G

Short-circuited; fuse current: 0.107A 0.005A. unit shut down, no hazard. YES/NO

R29 Short-circuited; fuse current: 0.107A 0A. Q1 damaged, no hazard. YES/NOU2, Pin 3-8

Short-circuited; fuse current: 0.107A 0.005A. Fuse(F1) opened, U2 damaged, no hazard.

YES/NO

U3, Pin 1-2

Short-circuited; fuse current: 0.107A 0.005A. Unit shut down, no hazard. YES/NO

U3, Pin 3-4


T1, Pin 1-3


T1, Pin 1-5


T1, Pin 6-7


YES/NO

T1, Pin 11-12


D3 Short-circuited; fuse current: 0.107A 0A. Fuse(F1) opened, Q1 damaged, no hazard.

YES/NO

Model L06F1200MM BR1 Short-circuited; fuse current: 0.098A 0A. Fuse(F1) opened, no hazard. YES/NOC2 Short-circuited; fuse current: 0.098A 0A. Fuse(F1) opened, no hazard. YES/NOQ1, Pin D-G


YES/NO

Q1, Pin D-S


YES/NO

Q1, Pin S-G

Short-circuited; fuse current: 0.098A 0.005A. unit shut down, no hazard. YES/NO

R15 Short-circuited; fuse current: 0.098A 0A. Q1 damaged, Fuse(F1) opened, no hazard.

YES/NO

U2, Pin 1-2

Short-circuited; fuse current: 0.098A 0.005A. Unit shut down, no hazard YES/NO

U2, Pin 3-4


D8 Short-circuited; fuse current: 0.098A 0.005A. Unit shut down, no hazard. YES/NOC8 Short-circuited; fuse current: 0.098A 0.005A. Unit shut down, no hazard. YES/NOT1, Pin 1-2


T1, Pin 3-4





9 CREEPAGE DISTANCES AND CLEARANCES Minimum distances for a.c. (50/60 Hz) sinusoidal voltages For Model L06G1500MM (representative model for L05G series and L06G series) RMS working voltage (V) not exceeding 50 150 250 500 750 1000 1 minimum distances between live parts of

different polarity. Specify the value measured. N.A. N.A. 9,9 mm

(Between L and

N); 10,4 mm (Between pins of

fuse)

N.A. N.A. N.A.

2 minimum distances between live parts and accessible parts which are permanently fixed to the lamp control gear, including screws or devices for fixing covers or fixing the lamp control gear to its support. Specify the value measured.

1,7 mm (Between trace of LED board and

heatsink)

N.A. 6,6 mm (Between trace of L&N

and heatsink

)

N.A. N.A. N.A.

3 minimum distances for ballasts declared protected against accidental contact between live parts and the outer accessible surface of insulating parts

N.A. N.A. 8,0 mm (Betwee

n the traces of primary circuit and

secondary

circuit); 8,0 mm (Betwee

n primary pin and secondary pin of CY1);

7,0 mm (Betwee

n primary pin and secondary pin of

U3)

N.A. N.A. N.A.

- required creepage distances (mm), Basic insulation PTI 600

0,6 0,8 1,5 3 4 5,5

- required creepage distances (mm), Basic insulation PTI < 600

1,2 1,6 2,5 5 8 10

- required creepage distances (mm), Supplementary insulation PTI 600

- 0,8 1,5 3 4 5,5




- required creepage distances (mm), Supplementary insulation PTI < 600

- 1,6 2,5 5 8 10

- required creepage distances (mm), Reinforced insulation

- 3,2 5 6 8 11

1 minimum distances between live parts of different polarity. Specify the value measured.

N.A. N.A. 9,9 mm (Between L and

N); 10,4 mm (Between pins of

fuse)

N.A. N.A. N.A.


1,7 mm (Between trace of LED board and

heatsink)

N.A. 8,0 mm (Betwee


secondary



7,0 mm (Betwee


U3

N.A. N.A. N.A.







secondary



7,0 mm (Betwee


U3

N.A. N.A. N.A.

- required clearance distances (mm), Basic insulation

0,2 0,8 1,5 3 4 5,5

- required clearance distances (mm), Supplementary insulation

- 0,8 1,5 3 4 5,5

- required clearance distances (mm), Reinforced insulation

- 1,6 3 6 8 11




9 CREEPAGE DISTANCES AND CLEARANCES Minimum distances for a.c. (50/60 Hz) sinusoidal voltages For Model L06F1200MM RMS working voltage (V) not exceeding 50 150 250 500 750 1000 1 minimum distances between live parts of

different polarity. Specify the value measured. N.A. N.A. 5,0 mm

(Between L and

N); 3.0 mm (Between pins of

fuse)

N.A. N.A. N.A.


N.A. 4,5 mm

(Between

trace of LED board and

heatsink)

11,5 mm (Between trace of L&N

and heatsink

)

N.A. N.A. N.A.




secondary



7,2 mm (Betwee


U2)

N.A. N.A. N.A.

- required creepage distances (mm), Basic insulation PTI 600

0,6 0,8 1,5 3 4 5,5

- required creepage distances (mm), Basic insulation PTI < 600

1,2 1,6 2,5 5 8 10




- required creepage distances (mm), Supplementary insulation PTI 600

- 0,8 1,5 3 4 5,5

- required creepage distances (mm), Supplementary insulation PTI < 600

- 1,6 2,5 5 8 10

- required creepage distances (mm), Reinforced insulation

- 3,2 5 6 8 11

1 minimum distances between live parts of different polarity. Specify the value measured.

N.A. N.A. 5,0 mm (Between L and

N); 3.0 mm (Between pins of

fuse)

N.A. N.A. N.A.


N.A. 3,0 mm

(Between

trace of LED board and

heatsink)

11,5 mm (Between trace of L&N

and heatsink

)

N.A. N.A. N.A.




secondary



7,2 mm (Betwee


U3)

N.A. N.A. N.A.

- required clearance distances (mm), Basic insulation

0,2 0,8 1,5 3 4 5,5

- required clearance distances (mm), Supplementary insulation

- 0,8 1,5 3 4 5,5




- required clearance distances (mm), Reinforced insulation

- 1,6 3 6 8 11




object/part No. manufacturer/

trademark type/model technical data standard mark(s) of

conformity1)

Transparent cover

Teijin Polycarbonate Singapore Pte Ltd

LN-1250G PC, Rated V-0, 105 C, min. 1,2 mm thick

-- UL

Cap enclosure Sabic Innovative Plastics Japan L L C

C7210 PC, Rated V-0, 60 C, min. 1,5 mm thick

-- UL

Enclosure for LED driver

Teijin Polycarbonate Singapore Pte Ltd.

LN-1250G PC, Rated V-0, 80 C,

min. 0.4 mm thick. -- UL

PCB˄lamp panel˅for L06F1200MM

Dongguan He Tong Electronics Co., Ltd.

CEM1 V-0 , 130°C -- UL

PCB˄lamp panel˅for L05G,L06G

Chin-Poon Industrial Co., Ltd. MA4 V-0 , 130°C -- UL

PCB for LED driver

Dongguan He Tong Electronics Co., Ltd.

CEM1 V-0 , 130°C -- UL

LED driver for L05G600MM, L05G900MM, L05G1200MM, L05G1500MM, L06G600MM, L06G900MM, L06G1200MM-264, L06G1200MM-216, L06G1500MM

- Fuse(F1) Dongguan Hongda Electronic Co., Ltd.

31TC T1 A, 250 V IEC 60127-3 VDE

- Varistor(RV1) Brightking (Shenzhen) Co., Ltd.

05D471K Min.300 Vac, 85 C

IEC 61051-1,

IEC 61051-2,

IEC 61051-2-2

VDE

- Bridge Diode(BD) -- -- Min. 0.6A, Min.

600V -- --

- Transistor (Q1) -- -- Min. 0.6A, Min.

600V -- --

- OPTOCOUPLER (U3)

Everlight Electronics Co., Ltd.

EL817V

Di = 0.5mm, int. dcr. = 6.0mm, ext. dcr. = 7.7 mm 100 C

EN 60747-5-2 VDE

- X-Capacitors (C1) (X2 type)

Tenta Electric Industrial Co., Ltd. MEX Max.0.1 uF, 100 C.

Min.275 Vac. IEC 60384-14 VDE

- Y- Capacitors (Y1,Y2) (Y1 type)

Tai Shan City Juhong Electronics Ltd.

JB-series Max.1000pF, 85 C. Min.400 Vac. IEC 60384-14 VDE

- Line Filter (GM1)

Yubo Electrnic Dian Zi Ke Ji Co.,.Ltd.

UU9.8W 30 mH, 130 C. -- Tested with appliance

- - Bobbin Chang Chun Plastics Co., Ltd. T375J V-0, 150 C.min. -- UL




object/part No. manufacturer/ trademark

type/model technical data standard mark(s) of conformity1)

thickness 0,48 mm

- - Tape

Suzhou Mailaduona Electric Material Co., Ltd.

JY312(#) 130°C -- UL

-- Winding -- -- Rating 130 C -- UL

- Line Filter (L1,L2)

Yubo Electrnic Dian Zi Ke Ji Co., Ltd.

XYY-L8-01001200601 1 mH, 130 C -- Tested with

appliance

- Transformer (T1)

Shenzhen Trust Technology Co.,Ltd

XYY-EC28-01001200301 Class B -- --

-- Bobbin Chang Chun Plastics Co., Ltd. T375J Phenolic, V-0, 150

degree C -- UL

-- Winding of T1 -- -- Rating 130 C -- UL

-- Triple insulation wire

Dah Jin Technology Co., Ltd.

TLW-B 130 C -- VDE

-- Insulation Tape Jingjiang Yahua Pressure Sensitive Glue Co., Ltd.

PZ 130°C -- UL

LED Driver for model L06F1200MM

- Fuse(F1) Shenzhen Lanson Electronics Co., Ltd.

3K T2 A, 250 V IEC 60127-3 VDE

- Varistor(RV1) Hongzhi Enterprises Ltd. HEL-07D471K Min.300 Vac, 85 C

IEC 61051-1,

IEC 61051-2,

IEC 61051-2-2

VDE

- Bridge diode(BR1) -- -- Min. 0.6A, Min.

600V -- --

- Transistor (Q1) -- -- Min. 0.6A, Min.

600V -- --

- OPTOCOUPLER (U2)

Everlight Electronics Co., Ltd

EL817V

Di = 0.5mm, int. dcr. = 6.0mm, ext. dcr. = 7.7 mm 100 C

EN 60747-5-2 VDE

- Alternative Sharp Corporation PC817

Di>0.4mm, int dcr=7.6 mm, ext dcr=7.6mm, 125°C.

EN 60747-5-2 VDE

-Y-Capacitors (CY1) (Y1 type)

Shantou High-New Technology Dev. Zone Songtian Enterprise Co., Ltd.

CD-series Max.2200pF, 125 C. Min.400 Vac.

IEC/EN 60384-14 VDE

- X-Capacitors Shenzhen Su MKP/MPX Max.0.1 uF, 100 C. IEC/EN 60384-14 VDE






(CX1,CX2) (X2 type)

Rong Capacitors Co., Ltd.

Min.280 Vac.

- Line Filter (LF2)

Shenzhen Zhidayue Electronics Co.,Ltd.

EE12-40mH 40 mH, 130 C. -- Tested with appliance

-- Bobbin Chang Chun Plastics Co Ltd T375J V-0, 150 C.min.

thickness 0,48 mm -- UL

-- Insulation Tape Jingjiang Yahua Pressure Sensitive Glue Co Ltd

PZ 130°C -- UL

-- Winding Various Various Rating 130 C -- UL

- Line Filter (LF1)

Guangzhou Oema Electronics Science & Technology CO.,LTD

T6X3X2C 0.11 mH, 130 C. -- Tested with appliance

-- Bobbin Chang Chun Plastics Co Ltd T375J V-0, 150 C.min.




TLW-B 130 C -- VDE

-- Winding -- -- Rating 130 C -- UL

- Line Filter (L1)

Shenzhen Zhidayue Electronics Co., Ltd.

LH0912-2mH 2 mH, 130 C -- Tested with appliance

-- Bobbin Chang Chun Plastics Co., Ltd. T375J V-0, 150 C.min.


- - Winding Various Various Rating 130 C -- UL

- Transformer (T1)

Guangzhou Oema Electronics Science & Technology Co., Ltd.

EDR2510 Class B -- --

-- Bobbin Chang Chun Plastics Co., Ltd. T375J Phenolic, V-0, 150

degree C -- UL

-- Winding of T1 Various Various Rating 130 C -- UL



TLW-B 130 C -- VDE

-- Tube Shenzhen Woer Heat-Shrinkable Material Co., Ltd.

WF 600V,200 C -- UL

-- Insulation Jingjiang Yahua PZ 130°C -- UL






Tape Pressure Sensitive Glue Co., Ltd.

Internal wire

(sleeved by tubing)

Various Various VW-1, min.26AWG,300V,min.80 C

-- UL

Tubing Various Various VW-1, 600 V, 125 C -- UL

LED

(for L06F1200MM)

Everlight 45-21UJC/3442477/TR8

VF: max. 3.25 V

IF: 30 mA,

5000K-6000K

EN 62471 Tested with appliance

LED (for L05G series and L06G series)

Everlight 67-21/LK2C-BX50702C6CB2/2T

VF: max. 3.6 V

IF: 30 mA,

2700K-3500K


- alternate Everlight 67-21/LK2C-BX50702C6CB2/2T

VF: max. 3.6 V

IF: 30 mA,

4000K-5000K



VF: max. 3.6 V

IF: 30 mA,

5000K-6000K



VF: max. 3.6 V

IF: 30 mA,

6000K-8000K


Base plate of fuse starter

Jiangyanshi Huiming Lighting&Electrical Factory

FS-U-S -- --

Tested with appliance

Enclosure of fuse starter

Jiangyanshi Huiming Lighting&Electrical Factory

FS-U-F -- --

Tested with appliance

Page 1 of 13

Enclosure 1

Addendum to Report Reference No. 611401102601

Date 2011-06-14

Test report for EN 62471:2008 Summary of testing: All tests passed according to EN 62471:2008 The test sample was configured for continuous emission and powered by 240 Vac

The LED output power was measured under normal conditions noted in details of measurement procedure and measurement results Measurement results: L06G1500MM: See pages 9 (CCT: 2700K-3500K) L06G1500MM: See pages 10 (CCT: 4000K-5000K) L06G1500MM: See pages 11 (CCT: 5000K-6000K) L06G1500MM: See pages 12 (CCT: 6000K-8000K) L06F1200MM: See pages 13 (CCT: 5000K-6000K)

Test item particulars: Tested lamp ............................................................... : continuous wave lamps pulsed lamps Tested lamp system ..................................................... : Lamp classification group ............................................. : exempt risk 1 risk 2 risk 3 Lamp cap ................................................................... : G13 Bulb ............................................................................ : LED Rated of the lamp ......................................................... : 240 Vac Furthermore marking on the lamp ............................... : N.A. Seasoning of lamps according IEC standard .............. : Aging 1h Used measurement instrument .................................... : According to standard instruments of EN 62471:2008 Temperature by measurement .................................... : 25 °C Information for safety use ............................................. : Exempt group

General product information: All series models was complied with the requirements of Exempt group LED Product according to EN 62471:2008

Page 2 of 13

Enclosure 1


Date 2011-06-14

EN 62471 Clause Requirement + Test Result �– Remark Verdict 4 EXPOSURE LIMITS P

Contents of the whole Clause 4 of IEC 62471:2006 moved into a new informative Annex ZB

Limits of the Artificial Optical Radiation Directive (2006/25/EC) have been applied instead of those fixed in IEC 62471:2006

P

4.1 General P

First paragraph deleted

5 MEASUREMENT OF LAMPS AND LAMP SYSTEMS P

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 Lamp ageing (seasoning) P

Seasoning of lamps shall be done as stated in the appropriate IEC lamp standard.

P

5.1.2 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

5.1.3 Extraneous radiation P

Careful checks should be made to ensure that ex-traneous sources of radiation and reflections do not add significantly to the measurement results.

P

5.1.4 Lamp operation P

Operation of the test lamp shall be provided in ac-cordance with:

P

�– the appropriate IEC lamp standard, or N.A.

�– the manufacturer�’ s recommendation Test condition: Input voltage: 240 Vac, Measuring distance: 50 cm for L06G1500MM, 2700-3500K 59 cm for L06G1500MM, 4000-5000K 40cm for L06G1500MM, 5000-6000K 61 cm for L06G1500MM, 6000-8000K 72 cm for L06F1200MM, 5000-6000K

P

5.1.5 Lamp system operation N.A.

The power source for operation of the test lamp shall be provided in accordance with:

N.A.

Page 3 of 13

Enclosure 1


Date 2011-06-14

�– the appropriate IEC standard, or N.A.

�– the manufacturer�’ s recommendation N.A.

5.2 Measurement procedure P

5.2.1 Irradiance measurements P

Minimum aperture diameter 7mm. P

Maximum aperture diameter 50 mm. P

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 N.A.

The measurements made with an optical system. N.A.

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.

N.A.

5.2.2.2 Alternative method P

Alternatively to an imaging radiance set-up, an ir-radiance measurement set-up with a circular field stop placed at the source can be used to perform radiance measurements.

P

5.2.3 Measurement of source size P

The determination of , the angle subtended by a source, requires the determination of the 50% emis-sion points of the source.

P

5.2.4 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 in-terpolation on the log of given values to obtain in-termediate points at the wavelength intervals de-sired.

see table 4.1 P

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

5.3.3 Measurement uncertainty P

Page 4 of 13

Enclosure 1


Date 2011-06-14

The quality of all measurement results must be quantified by an analysis of the uncertainty.

P

6 LAMP CLASSIFICATION P

For the purposes of this standard it was decided that the values shall be reported as follows:

see table 6.1 P

�– for lamps intended for general lighting service, the hazard values shall be reported as either ir-radiance or radiance values at a distance which produces an illuminance of 500 lux, but not at a distance less than 200 mm

P

�– for all other light sources, including pulsed lamp sources, the hazard values shall be reported at a distance of 200 mm

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 (Eeff) 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 (Eeff) 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.

�– a retinal thermal hazard (LR) within 10 s, nor N.A.


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.

6.1.3 Risk Group 2 (Moderate-Risk) N.A.

Page 5 of 13

Enclosure 1


Date 2011-06-14

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 (Eeff) 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 (aver-sion response), nor

N.A.


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.

6.1.4 Risk Group 3 (High-Risk) N.A.

Lamps which exceed the limits for Risk Group 2 are in Group 3.

N.A.

6.2 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 manu-facturer.

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 (High-Risk)

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.

�– 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

N.A.

Page 6 of 13

Enclosure 1


Date 2011-06-14

EN 62471

Clause Requirement + Test Result �– Remark Verdict

Table 4.1 Spectral weighting function for assessing ultraviolet hazards for skin and eye -

Page 7 of 13

Enclosure 1


Date 2011-06-14

EN 62471


Table 4.2 Spectral weighting functions for assessing retinal hazards from broadband optical sources

-

Wavelength nm

Blue-light hazard function B ( )

Burn hazard function R ( )

300Љ <380 0,01 380 0,01 0,1 385 0,013 0,13 390 0,025 0,25 395 0,05 0,5 400 0,1 1 405 0,2 2 410 0,4 4 415 0,8 8 420 0,9 9 425 0,95 9,5 430 0,98 9,8 435 1 10 440 1 10 445 0,97 9,7 450 0,94 9,4 455 0,9 9 460 0,8 8 465 0,7 7 470 0,62 6,2 475 0,55 5,5 480 0,45 4,5 485 0,32 3,2 490 0,22 2,2 495 0,16 1,6 500 0,1 1

500< Љ600 100,02(450- ) 1 600< Љ700 0,001 1 700< Љ1050 100,002(700- )

1050< Љ1150 0,2 1150< Љ1200 0,2.100,02(1150- ) 1200< Љ1400 0,02

Page 8 of 13

Enclosure 4 Addendum to Report Reference No. 611401102601

Date 2011-06-14

EN 62471


Table 5.4 Summary of the ELs for the surface of the skin or cornea (irradiance based values) -

Hazard Name Relevant equation

Wavelength range

nm

Exposure duration

sec

Limiting aperture rad (deg)

EL in terms of con-stant irradiance

W�•m-2

Actinic UV skin & eye Eeff = E �• S( ) �• 180 �– 400 < 30000 1,4 (80) 30/t

Eye UV-A EUVA = E �• 315 �– 400 < 30000 1,4 (80)

10000/t

Blue-light small source EB = E �• B( ) �• 300 �– 700

10000

> 10000 < 0,011

100/t

0,01

Eye IR EIR = E �• 780 �– 3000 1000

> 1000 1,4 (80)

18000/t 0,75

100

Skin thermal Eskin = E �• 380 �– 3000 < 10 2 sr 20000/t 0,75

Table 5.5 Summary of the ELs for the retina (radiance based values) -

Hazard Name Relevant equation Wavelength

range nm

Exposure duration

sec

Field of view radians

EL in terms of constant radiance

W�•m-2�•sr-1)

Blue light LB = L �• B( ) �• 300 �– 700

0,25 �– 10

10-100

100-10000

10000

0,011�• (t/10)

0,011

0,0011�• t

0,1

106/t

106/t

106/t

100

Retinal thermal LR = L �• R( ) �• 380 �– 1400

< 0,25

0,25 �– 10

0,0017

0,011�• (t/10)

50000/( �•t 0,25)

50000/( �•t 0,25)

Retinal thermal (weak visual stimulus)

LIR = L �• R( ) �• 780 �– 1400 > 10 0,011 6000/

Page 9 of 13


Date 2011-06-14

EN 62471


Table 6.1 Emission limits for risk groups of continuous wave lamps (based on EU Directive 2006/25/EC) P Model no. .................................................................................... : L06G1500MM (CCT:2700-3500K) -

Risk Action

spectrum Symbol Units

Emission Measurement

Exempt Low risk Mod risk

Limit Result Limit Result Limit Result

Actinic UV SUV( ) Eeff W�•m-2 0,001 0 - - - -

Near UV EUVA W�•m-2 0,33 0 - - - -

Blue light B( ) LB W�•m-2�•sr-1 100 2.5776 10000 4000000

Blue light, small source B( ) EB W�•m-2 0,01* - 1,0 400

Retinal thermal R( ) LR W�•m-2�•sr-1 280000 54.3101 28000/ 71000/

Retinal thermal, weak visual stimulus**

R( ) LIR W�•m-2�•sr-1

545000 0,0017 0,011

-

6000/ 0,011 0,1

-

IR radiation, eye EIR W�•m-2 100 0 570 3200

* Small source defined as one with < 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

Page 10 of 13


Date 2011-06-14

EN 62471



Risk Action






Near UV EUVA W�•m-2 0,33 0 - - - -





R( ) LIR W�•m-2�•sr-1

545000 0,0017 0,011

-

6000/ 0,011 0,1

-



Page 11 of 13


Date 2011-06-14

EN 62471



Risk Action






Near UV EUVA W�•m-2 0,33 0 - - - -





R( ) LIR W�•m-2�•sr-1

545000 0,0017 0,011

-

6000/ 0,011 0,1

-



Page 12 of 13


Date 2011-06-14

EN 62471



Risk Action






Near UV EUVA W�•m-2 0,33 0 - - - -





R( ) LIR W�•m-2�•sr-1

545000 0,0017 0,011

-

6000/ 0,011 0,1

-



Page 13 of 13


Date 2011-06-14

EN 62471


Table 6.1 Emission limits for risk groups of continuous wave lamps (based on EU Directive 2006/25/EC) P Model no. .................................................................................... : L06F1200MM (CCT:5000-6000K) -

Risk Action






Near UV EUVA W�•m-2 0,33 0 - - - -





R( ) LIR W�•m-2�•sr-1

545000 0,0017 0,011

-

6000/ 0,011 0,1

-



Page 1 of 4

Enclosure 2


Date 2011-06-14

Test report for IEC 62471-2:2009 IEC 62471-2

Clause Requirement + Test Result - Remark Verdict

4 RISK GROUPS APPLIED FOR OPTICAL RADIATION SAFETY ASSESSMENTS

4.1 Basis for optical radiation safety classification

Exempt Group (RG 0) Exempt group P

Risk Group 1 (RG 1) N.A.



4.2 Assessment Criteria

General Lighting Service (GLS) N.A.

Other Applications N.A.

4.3 Application-related issues

4.3.1 Near-infrared sources N.A.

Application likely to result in chronic and lengthy exposures of the eye for periods greater than 1000s and the daily averaged irradiance is expected to be at least 100 Wm-2

N.A.

4.3.2 “Point sources” N.A.

Incoherent optical radiation source appears as a nearly monochromatic “point” source

N.A.

IEC 60825 Standard used N.A.

4.3.3 Application-related vertical standards N.A.

Vertical standard used N.A.

5 GUIDELINES FOR LAMP AND LAMP SYSTEM MANUFACTURERS ON HOW TO APPLY IEC 62471

5.1 Limit values

5.1.1 General Exempt group N.A.

5.1.2 Limits provided in irradiance/radiant exposure N.A.

Spectral range 200nm to 400nm or 1400nm to 3000nm

N.A.

Lamp employed with additional integrated or attached modifying or projection optics

N.A.

5.1.3 Limits provided in (time integrated) radiance N.A.

Principle of conversation of radiance used N.A.

Assessment of single lamp or LED is directly transferable to the lamp system or luminaire

N.A.

5.2 Guidelines for lamp/LED manufacturers

Page 2 of 4

Enclosure 2


Date 2011-06-14

IEC 62471-2



5.2.2 Measurement conditions N.A.

Spectral range 200nm to 400nm or 1400nm to 3000nm

N.A.

Source radiance in the case of spatially averaged radiance or time-integrated radiance

N.A.

Angle of acceptance N.A.

Application-specific requirements used when the use of a product is known and unambiguous (See sub-clause 4.2 and 4.3)

N.A.

Multi-purpose lamps or non-application specific requirements. Measurements made at a distance of 200mm

N.A.

Risk group and values for single lamps and components appear in the user manual

N.A.

5.2.3 User Information

The user information includes the Risk Group classification of a lamp that can be used for risk group classification of a lamp system

Exempt group N.A.

Information is given on Risk Group classification for intended use (See sub-clause 4.2 and 4.3). Reclassification may be necessary if the lamp is used in other applications.

N.A.

In the 200nm to 400nm or 1400nm to 3000nm range, where the classification is based on irradiance or radiant exposure, the assessment of a single lamp cannot be automatically transferred to the final lamp system.

N.A.

5.3 Guidelines for lamp system/luminaire manufacturers


5.3.2 Sources for general lighting service (GLS) N.A.

Hazard value reported as irradiance or spatially averaged radiance at a distance which produces an illuminance of 500 lux

N.A.

Exempt Group classification with respect to skin hazard

N.A.

User warning for skin access longer than 1hr where the illuminance is likely to exceed 500 lux

N.A.

GLS-classification of the lamp directly transferable to the lamp system/luminaire if classification based on radiance or time-integrated radiance and where irradiance-dependant hazards can be neglected

N.A.

Page 3 of 4

Enclosure 2


Date 2011-06-14

IEC 62471-2


5.3.3 Multi-purpose lamps N.A.

Classification based on the most restrictive radiance or time-integrated radiance criteria

N.A.

Classification based on irradiance or radiant exposure

N.A.

Radiance to irradiance considered N.A.

5.3.4 Determination of the hazard distance N.A.

Hazard distances provided for risk group assigned and to all risk groups below the assigned

N.A.

5.4 Labelling

Hazard Spectral Region Exempt group N.A.

Risk Group N.A.

Labelling location N.A.

CAUTION / WARNING label text N.A.

5.5 Other information provisions

User information provided for lamps and lamp systems in excess of Exempt Risk Group

Exempt group N.A.

a) Lamp or lamp system is in excess of the Exempt Group and the viewer-related risk is dependent upon how the users install and use the product

N.A.

b) Most restrictive optical radiation hazard and other optical radiation hazards in excess of Exempt Group (see Table 1)

N.A.

c) Exposure hazard values (EHVs) and the hazard distances with optional graphical presentation of distant-dependent EHV

N.A.

d) Hazard distances (HD) for all relevant viewer-related risk groups below the assigned one (see Tables 1 and 2)

N.A.

e) Adequate instructions for proper assembly, installation, maintenance and safe use, including clear warnings concerning precautions to avoid possible exposure to hazardous optical radiation

N.A.

Page 4 of 4

Enclosure 2


Date 2011-06-14

IEC 62471-2


f) Advice on safe operating procedures and warnings concerning reasonably foreseeable malpractices, malfunctions and hazardous failure modes. Where maintenance procedures are detailed, they, wherever possible, include explicit instructions on safe procedures to be followed

N.A.

g) Reproduction of the labelling required in 5.4 and an explanation of its meaning shown in Table 2

N.A.

h) Information on what type of user controls may be considered

N.A.

Multiple hazard spectral region labelling N.A.

6 Allocation of Safety Measures

6.1 General

Filters or enclosures employed Exempt group N.A.

Safety information provided to user with description of user controls

N.A.

Restricted access areas N.A.

6.2 Maximum acceptable viewer related risk

Application-specific conditions or foreseeable access

Exempt group N.A.

Minimum distance and maximum exposure duration

N.A.

Unintentional short term N.A.

Intermittent, occasional (or possible) short term

N.A.

Intentional (or likely) long-term N.A.

Risk Group of the lamp system N.A.

Risk Group assessed under application specific conditions – viewer related risk

N.A.

Additional assessment required by application-related vertical standard

N.A.

Safety measures for servicing and maintenance personnel

N.A.

Enclosure 3 Addendum to Report Reference No. 611401102601 Date 2011-06-14 Project Manager:Jay Chen Page 1 of 19 Photos

Model no. L05G600MM

Model no. L05G600MM


Model no. L05G900MM

Model no. L05G900MM


Model no. L05G1200MM






Model no. L05G series






Model no. L06G600MM

Model no. L06G600MM


Model no. L06G900MM

Model no. L06G900MM












Model no. LED driver board for L05G series and L06G series


Model no. LED driver board for L05G series and L06G series

Model no. L06F1200MM









Model no. LED driver board for L06F1200MM






Model no. Fuse starter


Model no. Fuse starter

Documents

TEST REPORT PPP 11023A:2011 Rev. 00 TUV SUD Test report ... · 62560 (clause numbers between parentheses refer to IEC 62560) 4.1 (7) Lamps shall be so constructed that no internal