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Ref. Certif. No.
NO88016
Gaustadalléen 30NO-0373 Oslo, Norway
Date: 14-08-2015 Signature: Nastaran VadoodiCertification Department
Issued 2007-04 1/2
IEC SYSTEM FOR MUTUAL RECOGNITION OF TEST CERTIFICATES FOR ELECTRICALEQUIPMENT (IECEE) CB SCHEME
SYSTEME CEI DACCEPTATION MUTUELLE DE CERTIFICATS DESSAIS DESEQUIPEMENTS ELECTRIQUES (IECEE) METHODE OC
CB TEST CERTIFICATE CERTIFICAT D'ESSAI OC
ProductProduit LED controlgear
Name and address of the applicantNom et adresse du demandeur
Mean Well Enterprises Co., Ltd.No.28, Wuquan 3rd Rd., Wugu Dist., New Taipei City 248Taiwan
Name and address of the manufacturerNom et adresse du fabricant
Mean Well Enterprises Co., Ltd.No.28, Wuquan 3rd Rd., Wugu Dist., New Taipei City 248Taiwan
Name and address of the factoryNom et adresse de l'usineNote: When more than one factory, please report on page 2Note: Lorsque il y plus d'une usine, veuillez utiliser la deuxième page
Additional information on page 2
Ratings and principal characteristicsValeurs nominales et caractéristiques principales
0.3A 200-240Vac 50/60HzCl. II. DC-output: see test report for details. IP 30, tc: 90°C, ta: 40°C, pf:0.95, independent SELV, constant current.
Trademark (if any)Marque de fabrique (si elle existe)
Type of Manufacturer’s Testing Laboratories usedType de programme du laboratoire d’essais constructeur
Model / Type Ref.Ref. De type
PLM-40-.; PLM-40E-.
Additional information (if necessary may also bereported on page 2)Les informations complémentaires (si nécessaire,peuvent être indiqués sur la deuxième page
The “.” in the models designation can be 350, 500, 700, 1050, 1400, 1750to denote output current.
Additional information on page 2
A sample of the product was tested and foundto be in conformity withUn échantillon de ce produit a été essayé et a étéconsidéré conforme à la
IEC 61347-1(ed.2);am1;am2IEC 61347-2-13(ed.2)
As shown in the Test Report Ref. No. which forms partof this CertificateComme indiqué dans le Rapport dessais numéro deréférence qui constitue partie de ce Certificat
291632
This CB Test Certificate is issued by the National Certification BodyCe Certificat dessai OC est établi par l'Organisme National de Certification
Ref. Certif. No.
NO88016
Gaustadalléen 30NO-0373 Oslo, Norway
Date: 14-08-2015 Signature: Nastaran VadoodiCertification Department
Issued 2007-04 2/2
Mean Well Enterprises Co., Ltd.No.28, Wuquan 3rd Rd., Wugu Dist., New Taipei City 248Taiwan
Mean Well (GUANGZHOU) Electronics Co., Ltd.2F, A Building, Yuean Industrial Park, Huangcun, DongpuTown, TianHe District, Guangzhou, Guangdong, P.R.China
SuZhou Mean Well Technology Co., Ltd.No.77, Jian-min Road, Dong-qiao, Pan-yang Ind. Park,Huang-dai Town Xiang-cheng District, Suzhou, Jiangsu,215152, P.R.China
Test Report issued under the responsibility of
www.nemko.com
This Test Report, when bearing the Nemko name and logo is only valid when issued by a Nemko laboratory, or by a laboratory having special agreement with Nemko.
TEST REPORT IEC 61347-2-13
Part 2: Particular requirements: Section 13 – d.c. or a.c. supplied electronic controlgear for
LED modules
Report Number. .............................. : 291632
Date of issue .................................. : 2015-08-14
Total number of pages .................... 85 pages (including attachments)
Name of Testing Laboratory preparing the Report ..................... :
NEMKO AS
Applicant’s name ........................... : Mean Well Enterprises Co., Ltd.
Address .......................................... :
No.28, Wuquan 3rd Rd., Wugu Dist., New Taipei City 248, Taiwan
Test specification:
Standard ......................................... : IEC 61347-2-13:2014 (Second Edition) used in conjunction with IEC 61347-1:2007 (Second Edition) + A1:2010 + A2:2012
Test procedure ............................... : CB Scheme
Non-standard test method………..: N/A
Test Report Form No. .................... : IEC61347_2_13E
Test Report Form(s) Originator .... : Intertek Semko AB
Master TRF ..................................... : 2014-12
Copyright © 2014 IEC System of Conformity Assessment Schemes for Electrotechnical Equipment and Components (IECEE System). 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.
General disclaimer:
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 CB Testing Laboratory. The authenticity of this Test Report and its contents can be verified by contacting the NCB, responsible for this Test Report.
Page 2 of 85 Report No.: 291632
TRF No. IEC61347_2_13E
Test item description ....................... : LED controlgear
Trade Mark ........................................ :
Manufacturer .................................... : Same as applicant
Model/Type reference ...................... : PLM-40-.; PLM-40E-. (See General product information for “.” description)
Ratings .............................................. : I/P: 0.3A 200-240Vac 50/60Hz Cl. II. DC-output: See General product information for
details.IP30, tc: 90°C, ta: 40°C, : 0.95, independent SELV, constant current.
Responsible Testing Laboratory (as applicable), testing procedure and testing location(s):
CB Testing Laboratory: Nemko AS
Testing location/ address ............................ : Gaustadalleen 30, N-0373 Oslo, Norway
Associated CB Testing Laboratory:
Testing location/ address ............................ :
Tested by (name, function, signature) ........ : Tore Ledaal
Approved by (name, function, signature) .. : Victor He
Testing procedure: TMP/CTF Stage 1:
Testing location/ address ............................ :
Tested by (name, function, signature) ........ :
Approved by (name, function, signature) .. :
Testing procedure: WMT/CTF Stage 2:
Testing location/ address ............................ :
Tested by (name + signature) ...................... :
Witnessed by (name, function, signature) . :
Approved by (name, function, signature) .. :
Testing procedure: SMT/CTF Stage 3 or 4:
Testing location/ address ............................ :
Tested by (name, function, signature) ........ :
Witnessed by (name, function, signature) . :
Approved by (name, function, signature) .. :
Supervised by (name, function, signature) :
Page 3 of 85 Report No.: 291632
TRF No. IEC61347_2_13E
List of Attachments (including a total number of pages in each attachment):
Attachment 1: European group differences and national differences (1 page) Attachment 2: Practical testing for MM mark according to VDE 0710 part 14 (1 page) Attachment 3: Australian/New Zealand national variations according to AS/NZS IEC 61347.2.13:2013 used in conjunction with AS/NZS 61347.1:2002 (3 pages) Attachment 4: Test according to IEC 60598-1:2008 and EN 60598-1:2008+A11:2009 (4 pages) Attachment 5: Temperature rise measurements according to Annex L.6, L.7 of IEC 61347-1:2007+A1:2010+A2:2012 (6 pages) Attachment 6: Photos (5 pages) Attachment 7: PCB layout (2 pages) Attachment 8: Instruction manual (4 pages) Attachment 9: Transformer specification (12 pages) Attachment 10: Best Measurement Capability (1 pages)
Summary of testing: The following test report is filled by verifying the applicable IEC standards modified by the EN European group differences. The product fulfils the requirements of AS/NZS 61347.2.13:2013 used in conjunction with
AS/NZS 61347.1:2002 in attachment 3. The appliances has been tested also according to the following standards: - Performance EN 62384:2006 + A1:2009. - Practical testing for MM mark according to VDE 0710 part 14 in attachment 2.
Tests performed (name of test and test clause): All applicable test clauses listed below. 7 (7) – Marking
8 (10) – Protection against accidental contact with live parts
11 (11) – Moisture resistance and insulation
12 (12) – Electric strength
14 (14) – Fault conditions
15 (-) – Transformer heating
16 – Abnormal conditions
17 (15) – Construction
18 (16) – Creepage distances and clearances
19 (17) – Screws, current-carrying parts and connections
20 (18) – Resistance to heat, fire and tracking
Annex A - Test to establish whether a conductive part is a live part which may cause an electric shock
Annex C – Particular requirements for electronic lamp controlgear with means of protection against overheating
Annex L – Particular additional requirements for Controlgear providing SELV
Testing location: NEMKO AS Gaustadalleen 30, N-0373 Oslo, Norway
Summary of compliance with National Differences:
List of countries addressed: Australia, see Enclosure 3 of test report for detail.
The product fulfils the requirements of IEC 61347-2-13:2014/EN 61347-2-13:2014 used in conjunction with IEC 61347-1:2007 (Second Edition) + A1:2010 + A2:2012/ EN 61347-1:2008+A1:2011+A2:2013
Page 4 of 85 Report No.: 291632
TRF No. IEC61347_2_13E
Copy of marking plate
The artwork below may be only a draft. The use of certification marks on a product must be authorized by the respective NCBs that own these marks. (Note: For input rating 277VAC is for North America only, according the client request it only show on the label marking it is for marketing purpose without any evaluations.)
Page 5 of 85 Report No.: 291632
TRF No. IEC61347_2_13E
Copy of marking plate
Page 6 of 85 Report No.: 291632
TRF No. IEC61347_2_13E
Copy of marking plate
Calibration All instruments used in the tests given in this test report are calibrated and traceable to national or international standards.
Further information about traceability will be given on request.
Measurement uncertainty
Measurement uncertainties are calculated for all instruments and instrument set-ups given in this report. Calculations are based on the principles given in the standard EA-4/02 (Dec. 1999), IEC Guide 115:2007, Nemko routine L227 and other relevant internal Nemko-procedures.
Further information about measurement uncertainties will be given on request.
Evaluation of results If not explicitly stated otherwise in the standard, the test is passed if the measured value is equal to or below (above) the limit line, regardless of the measurement uncertainty. If the measured value is above (below) the limit line, the test is not passed - ref IEC Guide 115:2007, and Nemko routine L220. The instrumentation accuracy is within limits agreed by IECEE-CTL (ref. Nemko routine L227).
Page 7 of 85 Report No.: 291632
TRF No. IEC61347_2_13E
Test item particulars............................................... :
Classification of installation and use ................... : Independent SELV controlgear, insulation class II
Supply Connection ................................................. : Screwless terminal on both input and output side
.................................................................................. :
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 .................................... : 2015-06-05
Date (s) of performance of tests ........................... : 2015-06-05~2015-07-17
General remarks:
"(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 61347-1
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) ....................... :
1. Mean Well (GUANGZHOU) Electronics Co., Ltd. 2. Mean Well Enterprises Co., Ltd. 3. SuZhou Mean Well Technology Co., Ltd.
2F, A Building, Yuean Industrial Park, Huangcun, Dongpu Town, TianHe District, Guangzhou, Guangdong, P.R. China No.28, Wuquan 3rd Rd., Wugu Dist., New Taipei City 248, Taiwan No.77, Jian-min Road, Dong-qiao, Pan-yang Ind. Park, Huang-dai Town Xiang-cheng District, Suzhou, Jiangsu, 215152, P.R. China
Page 8 of 85 Report No.: 291632
TRF No. IEC61347_2_13E
General product information: The LED controlgear in this report have been tested and considered as independent SELV controlgear. The LED controlgear can be used in outside or inside of the luminaires. External enclosure is plastic material.
Models PLM-40-.; PLM-40E-.: The “.” in the models designation can be 350, 500, 700, 1050, 1400, 1750 to denote output current.
Both models are listed in this report are identical except model designation, slight components and following model difference table. Models difference:
Models Output rating 1) Transformer type
PLM-40-350; PLM-40E-350 53-105Vdc, Max. +115Vdc, 350mA TF-6531
PLM-40-500; PLM-40E-500 40-80Vdc, Max. +86Vdc, 500mA TF-6532
PLM-40-700; PLM-40E-700 29-57Vdc, Max. +63Vdc, 700mA TF-6533
PLM-40-1050; PLM-40E-1050 19-38Vdc, Max. +43Vdc, 1050mA TF-6534
PLM-40-1400; PLM-40E-1400 15-29Vdc, Max. +34Vdc, 1400mA TF-6535
PLM-40-1750; PLM-40E-1750 12-23Vdc, Max. +27Vdc, 1750mA TF-6536
Note: All transformers are similar to each other except winding turns and wire gauge of secondary (N2) only. 1) The max. output voltage is considered in no load condition.
All testing were done on models PLM-40-350, PLM-40E-350 (max. output voltage), PLM-40-1400, PLM-40E-1400 (max. output power) and PLM-40-1750, PLM-40E-1750 (max. output current) to represent other models for worst case considered, if nothing else is mentioned.
All sources of transformers are identical except manufacture, if nothing else mentioned, all tests were conducted with the transformers made by Mean Well.
Dimension: 175.5 x 42.1 x 24.3 mm Mass: 162g max
Page 9 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
4 (4) GENERAL REQUIREMENTS P
- (4) Insulation materials according requirements in Annex N of IEC 61347-1
(see Annex N) P
- (4) Compliance of independent controlgear enclosure with IEC 60 598-1
P
- (4) Built-in magnetic ballast with double or reinforced insulation comply with Annex I of IEC 61347-1
N/A
- (4) Built-in electronic controlgear with double or reinforced insulation comply with Annex O of IEC 61347-1
(see Annex O) N/A
4 (4) SELV controlgear comply with Annex I of this part 2 and Annex L of IEC 61347-1
(see Annex L) P
4 (-) Transformer comply with IEC 61558 P
Dielectric strength test of insulated winding wires is limited to 3 kV if input voltage ≤ 300 V
P
6 (6) CLASSIFICATION
Built-in controlgear .............................................. : Yes No
Independent controlgear ....................................... : Yes No
Integral controlgear .............................................. : Yes No
6 (-) Auto-wound controlgear ....................................... : Yes No
Separating controlgear ......................................... : Yes No
Isolating controlgear ............................................. : Yes No
SELV controlgear ................................................. : Yes No
7 (7) MARKING P
7.1 (7.1) Mandatory markings P
a) mark of origin
P
b) model number or type reference PLM-40-.; PLM-40E-. P
c) symbol for independent controlgear, if applicable
P
d) correlation between interchangeable parts and controlgear marked
N/A
e) rated supply voltage (V) 200-240Vac P
supply frequency (Hz) 50/60 Hz P
supply current (A) 0.3 A P
f) earthing symbol N/A
k) wiring diagram P
Page 10 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
l) value of tc 90 °C P
m) symbol for declared temperature
P
t) LUM earthing symbol N/A
u) if not SELV maximum working voltage Uout
between: N/A
- output terminals (V) ............................................ : N/A
- output terminals and earth (V) ............................ : N/A
7.1 (-) Constant voltage type: Yes No
- rated output power Prated (W) ............................. : N/A
- rated output voltage Urated (V) ............................ : N/A
Constant current type: Yes No
- rated output power Prated (W) ............................. : PLM-40-350; PLM-40E-350: 36.75W Max. PLM-40-500; PLM-40E-500: 40W Max. PLM-40-700; PLM-40E-700: 40W Max. PLM-40-1050; PLM-40E-1050: 40W Max. PLM-40-1400; PLM-40E-1400: 40W Max. PLM-40-1750; PLM-40E-1750: 40W Max.
P
- rated output current Irated (A) .............................. : PLM-40-350; PLM-40E-350: 350mA PLM-40-500; PLM-40E-500: 500mA PLM-40-700; PLM-40E-700: 700mA PLM-40-1050; PLM-40E-1050: 1050mA PLM-40-1400; PLM-40E-1400: 1400mA PLM-40-1750; PLM-40E-1750: 1750mA
P
Indication if for LED modules only P
7.1 (7.2) Marking durable and legible
Rubbing 15 s water, 15 s petroleum; marking legible
P
7.2 (7.1) Information to be provided, if applicable
h) declaration on protection against accidental contact
Indicated in the instruction manual.
P
Page 11 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
i) cross-section of conductors (mm²) Indication in instruction manual 1.5mm2. Specified on tubing of input wires and installation instruction.
P
j) number, type and wattage of lamp(s) P
s) SELV symbol P
7.2 (-) - declaration of mains connected windings N/A
8 (10) PROTECTION AGAINST ACCIDENTAL CONTACT WITH LIVE PARTS P
- (10.1) Controlgear protected against accidental contact with live parts
P
- (A2) Voltage measured with 50 k (see Annex A) P
- (A3) Voltage > 35 V peak or > 60 V d.c. or protective impendance device
(see Annex A) P
- (10.1) Lacquer or enamel not used for protection or insulation
N/A
Adequate mechanical strength on parts providing protection
P
- (10.2) Capacitors > 0,5 F: voltage after 1 min (V): < 50 V .................................................................. :
The total capacitance > 0.5
F. The X capacitor (C1= C2=
max. 0.33F), after 1 min.= 2V.
P
- (10.3) Controlgear providing SELV P
Accessible conductive parts are insulated from live parts by double or reinforced insulation in SELV controlgear
Output circuits are insulated from live parts by double or reinforced insulation.
P
No connection between output circuit and the body or protective earthing circuit
P
No possibility of connection between output circuit and the body or protective earthing circuit through other conductive parts
P
SELV outputs separated by at least basic insulation
N/A
ELV conductive parts insulated as live parts N/A
Tests according Annex L of IEC 61347-1 P
- (10.4) Accessible conductive parts in SELV circuits P
Output voltage under load 25 V r.m.s. or 60 V d.c.
Model No.:PLM-40-1050; PLM-40E-1050;PLM-40-1400; PLM-40E-1400;PLM-40-1750; PLM-40E-1750 are output
voltage 60Vdc
P
Page 12 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
If output voltage > 25 V r.m.s. or > 60 V d.c.;
No load output 35 V peak or 60 V d.c and touch current does not exceed 0,7 mA (peak) or 2 mA d.c. ......................................................... :
0.54mA(peak) max. P
One conductive part is insulated if output voltage or current exceeding the values above and withstand test voltage 500 V
N/A
Double or reinforced insulation bridged by appropriate and at least two resistors or two Y2 capacitors or one Y1 capacitor
Capacitors (C22 and C23 two in series; C31 and C32 two in series) separately certified, ref. components list.
P
Y1 or Y2 capacitors comply with IEC 60384-14 See Annex 1. P
Resistors comply with test (a) in 14.1 of IEC 60065
N/A
9 (8) TERMINALS P
Screw terminals according section 14 of IEC 60598-1: N/A
Separately approved; component list N/A
Part of the controlgear N/A
Screwless terminals according section 15 of IEC 60598-1: P
Separately approved; component list The input /output screwless complies with EN60998-2-2
P
Part of the controlgear N/A
10 (9) PROVISION FOR PROTECTIVE EARTHING N/A
- (9.1) Provisions for protective earthing N/A
Terminal complying with clause 8 N/A
Locked against loosening and not possible to loosen by hand
N/A
Not possible to loosen clamping means unintentionally on screwless terminals
N/A
Earthing via means of fixing N/A
Earthing terminal only used for the earthing of the control gear
N/A
All parts of material minimizing the danger of electrolytic corrosion
N/A
Made of brass or equivalent material N/A
Contact surface bare metal N/A
- (9.2) Provision for functional earthing N/A
Comply with clause 8 and 9.1 N/A
Page 13 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
- (9.3) Earth contact via the track on the printed board N/A
Test with a current of 25 A between earthing terminal and each of the accessible metal parts;
measured resistance () at 10 A according
7.2.3 of IEC 60598-1: < 0,5 .............................. :
N/A
- (9.4) Earthing of built-in lamp controlgear N/A
Earth by means of fixing to earthed metal of luminaire in compliance of 7.2 of IEC 60598-1
N/A
Earthing terminal only for earthing the built-in controlgear
N/A
- (9.5) Earthing via independent controlgear N/A
- (9.5.1) Earth connection to other equipment N/A
Looping or through connection, conductor min. 1,5 mm² and of copper or equivalent
N/A
Protective earthing wires in line with 5.3.1.1 and clause 7
N/A
- (9.5.2) Earthing of the lamp compartments powered via the independent lamp controlgear
N/A
Test with a current of 25 A between input and
output earth terminals; measured resistance () between earthing terminal and each of the
accessible metal parts at 10 A according 7.2.3
of IEC 60598-1: < 0,5 ....................................... :
N/A
Output earthing terminal marked as in 7.1 t) of IEC 61347-1
N/A
11 (11) MOISTURE RESISTANCE AND INSULATION P
After storage 48 h at 91-95% relative humidity and 20-30 C measuring of
insulation resistance with d.c. 500 V (M):
P
For basic insulation 2 M ................................. : 48 h at 93% and 25 C. Between - live parts of different polarity,
Measured data: 9999 M.
P
For double or reinforced insulation 4 M ......... : 48 h at 93% and 25C. 1. Between live parts of input/output circuit and plastic enclosure.
Measured data: 9999M. 2. Between input circuit and output circuit.
Measured data: 9999M. 3. Between input/core and output of T1. Measured data:
9999M.
P
Page 14 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
Between primary and secondary circuits in controlgear providing SELV, values in Annex L in IEC 61347-1
See Annex L P
11 (-) Adequate insulation between input and output terminals not bounded together in SELV-equivalent controlgear
N/A
12 (12) ELECTRIC STRENGTH P
Immediately after clause 11 electric strength test for 1 min
P
Basic insulation for SELV, test voltage 500 V N/A
Working voltage 50 V, test voltage 500 V N/A
Working voltage > 50 V 1000 V, test voltage (V): P
Basic insulation, 2U + 1000 V Between different polarity: Test with voltage 1500V
P
Supplementary insulation, 2U + 1000 V N/A
Double or reinforced insulation, 4U + 2000 V 1. Between input circuit and output circuit. Test with voltage 3000 V. 2. Between input and output of T1. Test with voltage 3000 V. (T1 max. working voltage: 230Vrms)
P
No flashover or breakdown P
Solid or thin sheet insulation for double or reinforced insulation fulfil the requirements in Annex N in IEC 61347-1
See Annex N P
14 (14) FAULT CONDITIONS P
- (14) When operated under fault conditions the controlgear:
- does not emit flames or molten material P
- does not produce flammable gases P
- protection against accidental contact not impaired
P
Thermally protected controlgear does not exceed the marked temperature value
P
Fault conditions: capacitors, resistors or inductors without proof of compliance with relevant specifications have been short-circuited or disconnected
(see appended table) P
Page 15 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
- (14.1) Short-circuit of creepage distances and clearances if less than specified in clause 16 in Part 1 (except between live parts and accessible metal parts)
N/A
Creepage distances on printed boards less than specified in clause 16 in Part 1 provided with coating according to IEC 60664-3
N/A
- (14.2) Short-circuit or interruption of semiconductor devices
(see appended table) P
- (14.3) Short-circuit across insulation consisting of lacquer, enamel or textile
N/A
- (14.4) Short-circuit across electrolytic capacitors (see appended table) P
- (14.5) After the tests has been carried out on three samples: P
The insulation resistance 1 M ........................ : 48 h at 93% and 25C. 1. Between live parts of input/output circuit and plastic enclosure.
Measured data: 9999M. 2. Between input circuit and output circuit.
Measured data: 9999M. 3. Between input/core and output of T1. Measured data:
9999M.
P
No flammable gases P
No accessible parts have become live P
During the tests, a five-layer tissue paper, where the test specimen is wrapped, does not ignite
P
- (14.6) Relevant fault condition tests with high-power supply
14 (-) Temperature declared thermally protected lamp controlgear fulfil requirements in Annex C
P
15 (-) TRANSFORMER HEATING P
15.1 General P
Transformer comply with clause L.6 and L.7 of IEC 61347-1
P
Output voltage of SELV controlgear not exceed limits in 10.4 of IEC 61347-1 during the test of 15.1 and 15.2
P
15.2 (-) Normal operation P
Comply with clause L.6 of IEC 61347-1 See attachment 4 temperature rise.
P
15.3 (-) Abnormal operation P
Page 16 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
Comply with clause L.7 of IEC 61347-1 See attachment 4 temperature rise.
P
Double LED modules or equivalent load connected in parallel to the output terminals of constant voltage type
N/A
Double LED modules or equivalent load connected in parallel to the output terminals of constant current type
Unit shutdown , no hazard. P
15 (-) During and at the end of the tests no defect impairing safety, nor any smoke or flammable gases produced
P
16 (15) CONSTRUCTION N/A
- (15.1) Wood, cotton, silk, paper and similar fibrous material N/A
Wood, cotton, silk, paper and similar fibrous material not used as insulation
N/A
- (15.2) Printed circuits N/A
Printed circuits used as internal connections complies with clause 14
N/A
- (15.3) Plugs and socket-outlets used in SELV or ELV circuits N/A
No dangerous compatibility between output socket-outlet and a plug for socket-outlets for input circuit in relation to installation rules, voltages and frequencies
No socket-outlets in the equipment.
N/A
Plugs and socket-outlets for SELV comply with IEC 60906-3 and IEC 60884-2-4
N/A
Plugs and socket-outlets for SELV 3 A, 25 V
r.m.s. or 60 V d.c. and 72 W comply with IEC 60906-3 and IEC 60884-2-4 or:
N/A
- plugs not able to enter socket-outlets of other standardised system
N/A
- socket-outlets not admit plugs of other standardised system
N/A
- socket-outlets without protective earth N/A
17 (16) CREEPAGE DISTANCES AND CLEARANCES P
- (16) Creepage distances and clearances according to Table 3 and 4, as appropriate
(see appended table) N/A
Controlgears providing SELV comply with L.1 in Annex L
P
Insulating lining of metallic enclosures N/A
Basic insulation on printed boards tested according to clause 14
N/A
Page 17 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
Distances subjected to both sinusoidal voltage as non-sinusoidal pulses not less than value in either Table 3 or 4
N/A
Creepage distances not less than minimum clearance
P
18 (17) SCREWS, CURRENT-CARRYING PARTS AND CONNECTIONS P
Screws, current-carrying parts and connections in compliance with IEC 60598-1 (clause numbers between parentheses refer to IEC 60598-1)
P
(4.11) Electrical connections P
(4.11.1) Contact pressure P
(4.11.2) Screws: N/A
- self-tapping screws N/A
- thread-cutting screws N/A
(4.11.3) Screw locking: N/A
- spring washer N/A
- rivets N/A
(4.11.4) Material of current-carrying parts P
(4.11.5) No contact to wood or mounting surface P
(4.11.6) Electro-mechanical contact systems N/A
(4.12) Mechanical connections and glands P
(4.12.1) Screws not made of soft metal P
Screws of insulating material N/A
Torque test: torque (Nm); part .............................. : 0.5 Nm with 5 times for fixing the cord anchorage. (3.0 mm)
P
Torque test: torque (Nm); part .............................. : N/A
Torque test: torque (Nm); part .............................. : N/A
(4.12.2) Screws with diameter < 3 mm screwed into metal N/A
(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
(4.12.5) Screwed glands; force (Nm) ................................. : N/A
19 (18) RESISTANCE TO HEAT, FIRE AND TRACKING P
- (18.1) Ball-pressure test: P
Page 18 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
- part tested; temperature (C) .............................. : 125C for plastic enclosure , 940 (f1) :max. 1.2 mm 945 (GG): max. 1.2 mm
P
- part tested; temperature (C) .............................. : 125C for input/output terminal block(DG235-7.5): max. 1.5mm.
P
- part tested; temperature (C) .............................. : 125C for bobbin of transformer (T1)( PM-9630;PM-9820; FR530): max. 0.8 mm. Considered all sources
P
- part tested; temperature (C) .............................. : 125C for bobbin of Line Chock (LF1)( PM-9630; PM-9820; FR530; 1403G3; 1403G6): max. 1.1 mm. Considered all sources
P
- (18.2) Test of printed boards: UL approved PCB used. min. V-1 used, it also compliance with cl. 8.7 of IEC 61189-2 and relevant parts of IEC 61249-2.
P
- part tested ........................................................... : N/A
- part tested ........................................................... : N/A
- (18.3) Glow-wire test (650C): N/A
- part tested ........................................................... : The enclosure(940 (f1); 945 (GG))preventing electric shock and compliance with
the glow-wire test 650C. (Test were conducted with all source of plastic enclosure.)
P
- part tested ........................................................... : N/A
- (18.4) Needle flame test (10 s): P
- part tested ........................................................... : Test performed on bobbin of transformer, choke and input/output terminal block (T1( PM-9630;PM-9820; FR530), LF1( PM-9630; PM-9820; FR530; 1403G3; 1403G6), TB1/TB2(DG235-7.5)).
P
- part tested ........................................................... : N/A
- (18.5) Tracking test: P
Page 19 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
- part tested ........................................................... : PTI >175 for all sources bobbin of transformer and choke (T1( PM-9630;PM-9820; FR530), LF1( PM-9630; PM-9820; FR530; 1403G3; 1403G6).
P
- part tested ........................................................... : PCB (Test were conducted with all source of PCB ,refer to ANNEX I for the type name)
P
20 (19) RESISTANCE TO CORROSION N/A
- test according 4.18.1 of IEC 60598-1 N/A
- adequate varnish on the outer surface N/A
Page 20 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
14 TABLE: tests of fault conditions P
Part Simulated fault Hazard
Model: PLM-40-350(I/P:180V/60Hz)
BD1 (L-+)
Min.2A,600V
Short circuit: FS1 opened immediately, no output, no high temp. was observed. NO
C14
Min. 22uF,min.50V, min. 105oC
Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
C14
22uF,min.50V, min. 105oC
Open circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
C105 Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
C105 Open circuit: Unit normal operation, no high temp. was observed. NO
C106
Min. 680uF,min.50V, min. 85 oC
Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
C106
Min. 680uF,min.50V, min. 85 oC
Open circuit: Unit normal operation, no high temp. was observed. NO
C107 Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
C107 Open circuit: Unit normal operation, no high temp. was observed. NO
Q1 (G-D)
Min.4A,600V
Short circuit: FS1 opened immediately, no output, no high temp. was observed. NO
Q1 (D-S)
Min.4A,600V
Short circuit: FS1 opened immediately, no output, no high temp. was observed. NO
Q1 (G-S)
Min.4A,600V
Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
U1 pin 8-2 Short circuit: FS1 opened immediately, no output, no high temp. was observed. NO
C4 Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
D1 Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
LF1 pin 1-4 Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
LF1 pin 2-3 Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
T1 pin 1-2 Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
T1 pin 3-4 Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
T1 pin FL1A- FL2A
Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
Model: PLM-40E-350(I/P:180V/60Hz)
Page 21 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
BD1 (L-+)
Min.2A,800V
Short circuit: FS1 opened immediately, no output, no high temp. was observed. NO
Q1(G-S)
Min.3.2A,700V
Short circuit: FS1 opened immediately, no output, no high temp. was observed. NO
Q1 (D-S)
Min.3.2A,700V
Short circuit: FS1 opened immediately, no output, no high temp. was observed. NO
Q1 (G-D)
Min.3.2A,700V
Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
Model: PLM-40-350 (I/P:264V/60Hz)
BD1 (L-+)
Min.2A,600V
Short circuit: FS1 opened immediately, no output, no high temp. was observed. NO
C14
Min. 22uF,min.50V, min. 105oC
Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
C14
22uF,min.50V, min. 105oC
Open circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
C105 Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
C105 Open circuit: Unit normal operation, no high temp. was observed. NO
C106
Min. 680uF,min.50V, min. 85 oC
Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
C106
Min. 680uF,min.50V, min. 85 oC
Open circuit: Unit normal operation, no high temp. was observed. NO
C107 Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
C107 Open circuit: Unit normal operation, no high temp. was observed. NO
Q1 (G-D)
Min.4A,600V
Short circuit: FS1 opened immediately, no output, no high temp. was observed. NO
Q1 (D-S)
Min.4A,600V
Short circuit: FS1 opened immediately, no output, no high temp. was observed. NO
Q1 (G-S)
Min.4A,600V
Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
U1 pin 8-2 Short circuit: FS1 opened immediately, no output, no high temp. was observed. NO
C4 Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
D1 Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
LF1 pin 1-4 Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
LF1 pin 2-3 Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
Page 22 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
T1 pin 1-2 Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
T1 pin 3-4 Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
T1 pin FL1A- FL2A
Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
Model: PLM-40E-350 (I/P:264V/60Hz)
BD1 (L-+)
Min.2A,800V
Short circuit: FS1 opened immediately, no output, no high temp. was observed. NO
Q1 (G-S)
Min.3.2A,700V
Short circuit: FS1 opened immediately, no output, no high temp. was observed. NO
Q1 (D-S)
Min.3.2A,700V
Short circuit: FS1 opened immediately, no output, no high temp. was observed. NO
Q1 (G-D)
Min.3.2A,700V
Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
Model: PLM-40-1400 & PLM-40E-1400 (I/P:180V/60Hz)
T1 pin FL1A- FL2A
Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
Model: PLM-40-1400 & PLM-40E-1400 (I/P:264V/60Hz)
T1 pin FL1A- FL2A
Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
Model: PLM-40-1750 & PLM-40E-1750 (I/P:180V/60Hz)
T1 pin FL1A- FL2A
Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
Model: PLM-40-1750 & PLM-40E-1750 (I/P:264V/60Hz)
T1 pin FL1A- FL2A
Short circuit: Unit shutdown immediately, no output, no high temp. was observed. NO
supplementary information:
The equipment is a switching mode controlgear, the frequency of input no effect of the result of fault conditions.
Page 23 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
17 (16) TABLES: Creepage distances and clearances N/A
Table 3 Minimum distances (mm) for a.c. (50/60 Hz) sinusoidal voltages N/A
RMS working voltage (V) not exceeding 50 150 250 500 750 1000
Creepage distances
Required basic insulation, PTI 600 0,6 0,8 1,5 3 4 5,5
Measured N/A N/A N/A N/A N/A N/A
Required basic insulation, PTI < 600 1,2 1,6 2,5 5 8 10
Measured N/A N/A N/A N/A N/A N/A
Required supplementary insulation PTI 600 - 0,8 1,5 3 4 5,5
Measured N/A N/A N/A N/A N/A N/A
Required supplementary insulation PTI < 600 - 1,6 2,5 5 8 10
Measured N/A N/A N/A N/A N/A N/A
Required reinforced insulation - 3,2 5 6 8 11
Measured N/A N/A N/A N/A N/A N/A
Clearances
Required basic insulation 0,2 0,8 1,5 3 4 5,5
Measured N/A N/A N/A N/A N/A N/A
Required supplementary insulation - 0,8 1,5 3 4 5,5
Measured N/A N/A N/A N/A N/A N/A
Required reinforced insulation - 1,6 3 6 8 11
Measured N/A N/A N/A N/A N/A N/A
Table 4 Minimum distances (mm) for non-sinusoidal pulse voltages
Rated pulse voltage (peak kV) 2,0 2,5 3,0 4,0 5,0 6,0 8,0
Required clearances 1,0 1,5 2 3 4 5,5 8
Measured N/A N/A N/A N/A N/A N/A N/A
Rated pulse voltage (peak kV) 10 12 15 20 25 30 40
Required clearances 11 14 18 25 33 40 60
Measured N/A N/A N/A N/A N/A N/A N/A
Rated pulse voltage (peak kV) 50 60 80 100 - - -
Required clearances 75 90 130 170 - - -
Measured N/A N/A N/A N/A N/A N/A N/A
Page 24 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
A (A) ANNEX A - TEST TO ESTABLISH WHETHER A CONDUCTIVE PART IS A LIVE PART WHICH MAY CAUSE AN ELECTRIC SHOCK
P
(A.1) Comply with A.2 or A.3 P
(A.2) Voltage 35 V peak or 60 V d.c ...................... : Model No.:PLM-40-1050; PLM-40E-1050;PLM-40-1400; PLM-40E-1400;PLM-40-1750; PLM-40E-1750 are output
voltage 60Vdc
N/A
(A.3) If voltage > 35 V peak or > 60 V d.c. or protective impendance device;
touch current does not exceed 0,7 mA (peak) or 2 mA d.c. ......................................................... :
0.54 mA (peak) max. P
Comply with Annex G of IEC 60598-1 P
C (C) ANNEX C – PARTICULAR REQUIREMENTS FOR ELECTRONIC LAMP CONTROLGEAR WITH MEANS OF PROTECTION AGAINST OVERHEATING
P
(C3) GENERAL REQUIREMENTS P
(C3.1) Thermal protection means integral with the convertor, protected against mechanical damage
P
Renewable only by means of a tool P
If function depending on polarity, for cord-connected equipment protection means in both leads
N/A
Thermal links comply with IEC 60691 N/A
Electrical controls comply with IEC 60730-2-3 N/A
(C3.2) No risk of fire by breaking (clause C7) P
(C5) CLASSIFICATION P
a) automatic resetting type No
b) manual resetting type No
c) non-renewable, non-resetting type No
d) renewable, non-resetting type No
e) other type of thermal protection; description .. : Protection by internal circuit. (The sense IC (U1) will keep the voltage and current to trigger the protection loop and shutdown).
P
(C6) MARKING P
(C6.1) Symbol for temperature declared thermally protected ballasts
Symbol with 110. P
(C6.2) Declaration of the type of protection provided See instruction manual. P
(C7) LIMITATION OF HEATING P
Page 25 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
(C7.1) Preselection test: P
Test sample placed for at least 12 h in an oven having temperature (tc - 5) K
P
No operation of the protection device P
(C7.2) Functioning of protection means: P
Normal operation of the sample in a test enclosure according to Annex D at an ambient
temperature such that (tc +0; -5) C is obtained
P
No operation of the protection device P
Introducing of the most onerous test condition determined during test of clause 14
Overload test was introduced. P
Output of windings connected to the mains supply short-circuited, and other part of the convertor operated under normal conditions
The LED controlgear can’t operate when choke LF1 short-circuited.
N/A
Increasing of the current through the windings continuously until operation of the protection means
P
Continuous measuring of the highest surface temperature
P
Ballasts according to C5 a) or C5 e) operated until stable conditions are achieved
P
Automatic-resetting thermal protectors working 3 times
N/A
Ballasts according to C5 b) working 6 times N/A
Ballasts according to C5 c) and C5) d) working once
N/A
Highest temperature does not exceed the marked value
89.4C (PLM-40-350);
86.9C (PLM-40-1400);
87.7C (PLM-40-1750)
P
Any overshoot of 10% over the marked value within 15 min
83.2C (PLM-40E-350);
84.7C (PLM-40E-1400);
80.0C (PLM-40E-1750)
N/A
D (D) ANNEX D – REQUIREMENTS FOR CARRY OUT THE HEATING TESTS OF THERMALLY PROTECTED LAMP CONTROLGEAR
P
Tests in C7 performed in accordance with Annex D, if applicable
P
E (E) ANNEX E – USE OF CONSTANT S OTHER THAN 4500 IN tw TESTS N/A
Comply with tests according Annex E N/A
Page 26 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
F ANNEX F - DRAUGHT-PROOF ENCLOSURE P
Draught-proof enclosure in accordance with the description
P
Dimensions of the enclosure P
Other design; description N/A
H (H) ANNEX H - TESTS P
All tests performed in accordance with the advice given in Annex H, if applicable
P
I (L) ANNEX I: PARTICULAR ADDITIONAL REQUIREMENTS FOR SELV D.C. OR A.C. SUPPLIED ELECTRONIC CONTROLGEAR FOR LED MODULES
P
(L.3) Classification
Class I Yes No
Class II Yes No
Class III Yes No
non-inherently short circuit proof controlgear Yes No
inherently short circuit proof controlgear Yes No
fail safe controlgear Yes No
non-short-circuit proof controlgear Yes No
(L.4) Marking P
Adequate symbols are used P
(L.5) Protection against electric shock P
Comply with 9.2 of IEC 61558-1 0 V after 5 sec. P
(L.6) Heating P
No excessive temperatures in normal use P
Value if capacitor tc marked ................................ : X-Cap: 85 C
Y-Cap: 105 C
Winding insulation classified as Class ................ : B
Comply with tests of clause 14 of IEC 61558-1 with adjustments
P
(L.7) Short-circuit and overload protection P
Comply with tests of clause 15 of IEC 61558-1 with adjustments
P
(L.8) Insulation resistance and electric strength P
(L.8.1) Conditioned 48 h between 91 % and 95 % 48 h at 93% and 25C. P
(L.8.2) Insulation resistance P
Page 27 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
Between input- and output circuits not less than 5
M ...................................................................... :
9999 M P
Between metal parts of class II convertors which are separated from live parts by basic insulation
only and the body not less than 5 M ................ :
N/A
Between metal foil in contact with the inner and outer surfaces of enclosures of insulating material
not less than 2 M .............................................. :
N/A
(L.8.3) Electric strength P
1) Between live parts of input circuits and live parts of output circuits ......................................... :
3000 V. P
2) Over basic or supplementary insulation between: P
a) live parts having different polarity ................... : 1500V 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
f) each input circuit and all other input circuits .... : N/A
3) Over reinforced insulation between the body and live parts ....................................................... :
N/A
(L.9) Construction P
(L.9.1) Transformer comply with 19.12 of IEC 61558-1 and 19 of IEC 61558-2-6
Complied with 19.1.1 reinforced insulation.
P
HF transformer comply with 19 of IEC 61558-2-16 N/A
(L.10) Components
Protective devices comply with 20.6 – 20.11 of IEC 61558-1
N/A
(L.11) Creepage distances and clearances P
1. Insulation between input and output circuits, basic insulation: N/A
a) measured values > specified values (mm) ..... : N/A
b) measured values > specified values (mm) ..... : N/A
c) measured values > specified values (mm) ..... : N/A
2. Insulation between input and output circuits, double or reinforced insulation: P
Page 28 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
a) measured values > specified values (mm) ..... : 1. Measured on transformer (T1) between primary (core) and secondary wire: cl./cr.= 14.6/18.3mm Specified: 4.7/5.0 mm (worst case working voltage = 230Vrms) 2. Measured on trace of transformer (T1) between primary and secondary: cl./cr.= 9.0/9.0mm. Specified: 4.7/5.0 mm (worstcase working voltage =230Vrms) 3. Measured on bridging capacitors (C31 to C32; C22 to C23) between primary and secondary: cl./cr.= 9.0/10.7mm. Specified: 4.7/5.0 mm (worst case working voltage = 176Vrms) 4. Measured on between primary T1 core and secondary HS2: cl./cr.= 6.2/7.6mm. Specified: 4.7/5.0 mm (worst case working voltage =230Vrms)
P
b) measured values > specified values (mm) ..... : N/A
c) measured values > specified values (mm) ..... : N/A
3. Insulation between adjacent input circuits N/A
- measured values > specified values (mm) ....... : N/A
3. Insulation between adjacent output circuits N/A
- measured values > specified values (mm) ....... : N/A
4. Insulation between terminals for external connection: N/A
- measured values > specified values (mm) ....... : N/A
5. Basic or supplementary insulation: P
a) measured values > specified values (mm) ..... : PCB trace of Line – Neutral (before fuse): cl./cr.= 4.7/4.7mm Specified: 2.5/2.6 mm
P
b) measured values > specified values (mm) ..... : N/A
c) measured values > specified values (mm) ..... : N/A
d) measured values > specified values (mm) ..... : Transformer core considered as primary, no intermediate metal part.
P
Page 29 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
e) measured values > specified values (mm) ..... : Transformer core considered as primary, no intermediate metal part.
P
6. Reinforced insulation or insulation: P
Between body and output circuit: measured values > specified values (mm) .......................... :
7.9/7.9mm Specified: 4.7/5.0 mm
P
Between body and output circuit if provision against transient voltages: measured values > specified values (mm) ......................................... :
N/A
7. Distance through insulation: p
a) measured values > specified values (mm) ..... : N/A
b) measured values > specified values (mm) ..... : N/A
c) measured values > specified values (mm) ..... : Enclosure thickness: 1.2mm. Specified: 0.9 mm
P
(N) ANNEX N: REQUIREMENTS FOR INSULATION MATERIALS USED FOR DOUBLE OR REINFORCED INSULATION
P
(N.4) General requirements P
(N.4.1) Material comply with IEC 60085 and IEC 60216 series
N/A
(N.4.2) Solid insulation N/A
Electric strength test at least 5 kV or 1,35 x test voltage in Table N.1
N/A
If not classified according IEC 60085 and IEC 60216 series: Electric strength test increased 10 % of 5,5 kV or 1,5 x test voltage in Table N.1
N/A
(N.4.3) Thin sheet insulation P
(N.4.3.1) Thickness and composition of thin sheet insulation P
- Inside the ballast and not subjected to handling or abrasion during the production and during maintenance
P
- Non-separated layers: Min. 3 layers and fulfil mandrel test of 150N
N/A
- Separated layers: Min. 2 layers and each layer fulfil mandrel test of 50N
P
- Separated layers (alternative): Min. 3 layers and 2/3 of the layers fulfil mandrel test of 100N
N/A
(N.4.3.2) Mandrel test (electric strength test during mechanical stress) P
Electric strength test after mandrel test: P
- Non-separated layers: min. 5 kV or 1,35 x test voltage in Table N.1
N/A
Page 30 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
- 2/3 of min. 3 separated layers: min. 5 kV or 1,25 x test voltage in Table N.1
N/A
- one of 2 separated layers: min. 5 kV or 1,25 x test voltage in Table N.1
5KV P
No flashover or breakdown occurred N/A
(O) ANNEX O: ADDITIONAL REQUIREMENTS FOR BUILT-IN ELECTRONIC CONTROLGEAR WITH DOUBLE OR REINFORCED INSULATION
N/A
(O.6) Marking N/A
Marking according clause 7 (7) N/A
Special symbol N/A
Meaning of the special symbol explained in catalogue
N/A
(O.7) Protection against accidental contact with live parts N/A
Requirements of clause 8 (10) N/A
Test finger not possible to make contact with basic insulated metal parts
N/A
(O.8) Terminals N/A
Clause 9 (8) N/A
(O.9) Provision for earthing N/A
Functional earthing terminals comply with clause 9 of part 1
N/A
No protective earthing terminal N/A
(O.10) Moisture resistance and insulation N/A
Clause 11 (11) N/A
(O.11) Electric strength N/A
Clause 12 (12) N/A
(O.13) Fault conditions N/A
Clause 14 (14) N/A
End of test, between live part and accessible metal parts or external parts of insulating material in contact with the supporting surface comply with dielectric strength test reduced to 35 % of values according Table 1 in part 1
N/A
Insulation resistance according to O.10 between live part and accessible metal parts or external parts of insulating material in contact with the
supporting surface not less than 4 M
N/A
(O.14) Construction N/A
Clause 17 (15) N/A
Page 31 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
Accessible metal parts insulated from live parts by double or reinforced insulation
N/A
Live part insulated from supporting surface in contact with external faces by double or reinforced insulation
N/A
(O.15) Creepage distances and clearances N/A
Clause 18 (16) N/A
Comply with corresponding values for luminaries in IEC 60598-1
N/A
(O.16) Screws, current-carrying parts and connections N/A
Clause 19 (17) N/A
(O.17) Resistance to heat and fire N/A
Clause 20 (18) N/A
(O.18) Resistance to corrosion N/A
Clause 21 (19) N/A
J ANNEX J: PARTICULAR ADDITIONAL SAFETY REQUIREMENTS FOR A.C., A.C./D.C. OR D.C. SUPPLIED ELECTRONIC CONTROLGEAR FOR EMERGENCY LIGHTING
N/A
J.1 General N/A
Intended for centralized emergency power supply Yes No
J.2 Marking N/A
J.2.1 Mandatory markings N/A
a) symbol EL N/A
b) rated emergency supply voltage (V) N/A
J.2.2 Information to be provided if applicable N/A
a) Limits of ambient temperature N/A
b) Emergency output factor (EOFX) N/A
c) Information if intended for use in luminaires for high-risk task area lighting
N/A
J.3 General notes on tests N/A
Length of output cable in tests ............................. : N/A
Load instead of LED lamps/modules ................... : N/A
J.4 Starting conditions N/A
Start rated load in emergency mode without adversely affecting the performance
N/A
J.5 Operating condition N/A
Page 32 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
Comply with the requirements of 7.2 of IEC 62384 at 90% and 110% of rated emergency supply voltage
N/A
J.6 Emergency supply current N/A
Emergency supply current not differ more than ±15 %
N/A
Supply of low impedance and low inductance N/A
J.7 EMC immunity N/A
Comply with the requirements of IEC 61547 N/A
J.8 Pulse voltage from central battery systems N/A
Withstand pulses according Table J.1 N/A
J.9 Tests for abnormal conditions N/A
Comply with the requirements of 12 of IEC 62384 N/A
J.10 Comply with the requirements of 13 of IEC 62384 N/A
J.11 Functional safety (EOFx) N/A
Declared emergency output factor (EOFx) achieved during emergency operation
N/A
Page 33 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
ANNEX 1: components
object/part No. code manufacturer/ trademark
type/model technical data standard mark(s) of conformity
Plastic enclosure C Sabic Innovative PlasticsB V
940 (f1) V-0, 120C min, 1.5 mm thick
UL94 EN61347-1 EN61347-2-13
UL (E45329) Tested with appliance
Plastic enclosure C,D Sabic Innovative Plastics JAPAN L L C
940 (f1) V-0, 120C min, 1.5 mm thick
UL94 EN61347-1 EN61347-2-13
UL (E207780, E45587) Tested with appliance
Plastic enclosure C,D Sabic Innovative Plastics US L L C
940 (f1) V-0, 120C min, 1.5 mm thick
UL94 EN61347-1 EN61347-2-13
UL (E121562) Tested with appliance
Plastic enclosure C,D Sabic Innovative PlasticsB V
945 (GG) V-0, 120C min, 1.5 mm thick
UL94 EN61347-1 EN61347-2-13
UL (E45329) Tested with appliance
Plastic enclosure C,D Sabic Innovative Plastics JAPAN L L C
945 (GG) V-0, 120C min, 1.5 mm thick
UL94 EN61347-1 EN61347-2-13
UL (E207780) Tested with appliance
Plastic enclosure C,D Sabic Innovative Plastics US L L C
945 (GG) V-0, 120C min, 1.5 mm thick
UL94 EN61347-1 EN61347-2-13
UL (E121562) Tested with appliance
Input/output terminal screwless (TB1, TB2)
A Degson DG235-7.5 15A, 450Vac,
110C
EN 60998-2-2, EN 60998-1
VDE(40006127) UL (E228872)
Fuse-link (FS1) (For Models PLM-40-.)
A Conquer MST-series MST
T3.15A, 250Vac or 300Vac
IEC 60127-1, IEC 60127-3 UL 248-1
VDE(40017118) TUV RH: TA 50196759 UL (E82636)
Fuse-link (FS1) (For Models PLM-40- .)
D Walter 2010-series 2010
T3.15A, 250Vac or 300Vac
IEC 60127-1, IEC 60127-3 UL 248-1
VDE(40018781) UL (E56092, E220181)
Fuse-link (FS1) (For Models PLM-40E-.)
A Conquer MST-series MST
T2A, 250Vac or 300Vac
IEC 60127-1, IEC 60127-3 UL 248-1
VDE(40017118) TUV RH: TA 50196759 UL (E82636)
Fuse-link (FS1) (For Models PLM-40E-.)
D Walter 2010-series 2010
T2A, 250Vac or 300Vac
IEC 60127-1, IEC 60127-3 UL 248-1
VDE(40018781) UL (E56092, E220181)
Page 34 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
object/part No. code manufacturer/ trademark
type/model technical data standard mark(s) of conformity
Varistor (ZNR1, ZNR2) (optional)
A Thinking TVR10511-M, TVR14511-M
320Vac,
410Vdc, 125C (located after fuse)
IEC 61051-2, UL1449
VDE(40036061), UL (E314979)
Varistor (ZNR1, ZNR2) (optional)
D Thinking TVR10471-M, TVR14471-M
300Vac,
385Vdc, 125C (located after fuse)
IEC 61051-2, UL1449
VDE(40036061),, UL (E314979)
Varistor (ZNR1, ZNR2) (optional)
D Thinking TVR10561-M, TVR14561-M
350Vac,
450Vdc, 125C (located after fuse)
IEC 61051-2, UL1449
VDE(40036061),, UL (E314979)
Varistor (ZNR1, ZNR2) (For Models PLM-40E-.) (optional)
D Centra Science CNR10D471KCNR14D471K
300 Vac, 385 Vdc,
Min. 85 C (located after fuse)
IEC 61051-2, UL1449
VDE (40008220) UL (E316325)
Varistor (ZNR1, ZNR2) (For Models PLM-40E-.) (optional)
D Centra Science CNR10D511K CNR14D511K
320 Vac, 410 Vdc,
Min. 85 C (located after fuse)
IEC 61051-2, UL1449
VDE (40008220) UL (E316325)
Varistor (ZNR1, ZNR2) (For Models PLM-40E-.) (optional)
D Centra Science CNR10D561K
CNR14D561K
350 Vac, 450 Vdc,
Min. 85 C (located after fuse)
IEC 61051-2, UL1449
VDE (40008220) UL (E316325)
Varistor (ZNR1, ZNR2) (For Models PLM-40E-.) (optional)
D Joyin 14S471K, 14N471K, 10S471K
300 Vac, 385 Vdc,
Min. 85 C (located after fuse)
IEC 61051-2, UL1449
VDE(005937, 40004658) UL (E325508)
Varistor (ZNR1, ZNR2) (For Models PLM-40E-.) (optional)
D Joyin 14S511K, 14N511K, 10S511K
320 Vac, 410 Vdc,
Min. 85 C (located after fuse)
IEC 61051-2, UL1449
VDE(005937, 40004658) UL (E325508)
Varistor (ZNR1, ZNR2) (For Models PLM-40E-.) (optional)
D Joyin 14S561K, 14N561K, 10S561K
350 Vac, 450 Vdc,
Min. 85 C (located after fuse)
IEC 61051-2, UL1449
VDE(005937, 40004658) UL (E325508)
Varistor (ZNR1, ZNR2) (For Models PLM-40E-.) (optional)
D Thinking TVR10471, TVR10471-V, TVR10471-D,
TVR14471, TVR14471-V, TVR14471-D
300 Vac, 385 Vdc,
min. 85 C (located after fuse)
IEC 61051-2, UL1449
VDE(005944, 40021243) UL (E314979)
Page 35 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
object/part No. code manufacturer/ trademark
type/model technical data standard mark(s) of conformity
Varistor (ZNR1, ZNR2) (For Models PLM-40E-.) (optional)
D Thinking TVR10511 TVR14511 TVR14511-V TVR10511-V TVR14511-D TVR10511-D
320 Vac, 410 Vdc,
Min. 85 C (located after fuse)
IEC 61051-2, UL1449
VDE(005944, 40021243) UL (E314979)
Varistor (ZNR1, ZNR2) (For Models PLM-40E-.) (optional)
D Thinking TVR10561, TVR14561, TVR10561-D TVR14561-D TVR10561-V, TVR14561-V,
350 Vac, 450 Vdc,
Min. 85 C (located after fuse)
IEC 61051-2, UL1449
VDE(005944, 40021243) UL (E314979)
X Capacitor (C1, C2) (Optional) (X1 or X2 type)
A Arcotronics (Kemet)
R.46 Max. 0.33uF, min. 250Vac,
min.85C
IEC 60384-14 2 ed.,UL1283
ENEC 03(IMQ V4413),UL (E85238)
X Capacitor (C1, C2) (Optional) (X1 or X2 type)
D Arcotronics (Kemet)
R.49 Max. 0.33uF, min. 250Vac,
min.85C
IEC 60384-14 2 ed.,UL1283
ENEC 03(IMQ, CA08.00030),, UL (E85238)
X Capacitor (C1, C2) (Optional) (X1 or X2 type)
D Epcos B3292#-... Max. 0.33uF, min. 250Vac,
min.85C
IEC 60384-14 2 ed.,UL1414/UL60384-14
VDE(40010694), ENEC(ENEC-00812-M1) UL (E97863)
X Capacitor (C1, C2) (Optional) (X1 or X2 type)
D ISKRA KNB 1530 Max. 0.33uF, min. 250Vac,
min.85C
IEC 60384-14 2 ed.,UL1283
VDE(139447), UL (E103619)
X Capacitor (C1, C2) (Optional) (X1 or X2 type)
D ISKRA KNB 1560 Max. 0.33uF, min. 250Vac,
min.85C
IEC 60384-14 2 ed.,UL1283
VDE(139106), UL (E103619)
X Capacitor (C1, C2) (Optional) (X1 or X2 type)
D Joey MPX Max. 0.33uF, min. 250Vac,
min.85C
IEC 60384-14 2 ed. UL1414/UL60384-14
VDE(40032481), UL (E216807)
X Capacitor (C1, C2) (Optional) (X1 or X2 type)
D LiowGu GS-L Max. 0.33uF, min. 250Vac,
min.85C
IEC 60384-14 2 ed.,UL1283
ENEC 16(272421-1), UL (E186321)
X Capacitor (C1, C2) (Optional) (X1 or X2 type)
D Pilkor PCX2 335M Max. 0.33uF, min. 250Vac,
min.85C
IEC 60384-14 2 ed., UL1414/UL60384-14
ENEC14(SE/0256-2E), UL (E165646)
X Capacitor (C1, C2) (Optional) (X1 or X2 type)
D Pilkor PCX2 337 Max. 0.33uF, min. 250Vac,
min.85C
IEC 60384-14 2 ed., UL1414/UL60384-14
ENEC14(SE/0256-1G), UL (E165646)
X Capacitor (C1, C2) (Optional) (X1 or X2 type)
D Ultra HQX Max. 0.33uF, min. 250Vac,
min.85C
IEC 60384-14 2 ed., UL1414/UL60384-14
VDE(40024534), UL (E183780)
X Capacitor (C1, C2) (Optional) (X1 or X2 type)
D Hua Jung MKP Max. 0.33uF, min. 250Vac,
min.85C
IEC 60384-14 2 ed., UL1414/UL60384-14
ENEC14(SE/0252-5B), UL (E149075)
Page 36 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
object/part No. code manufacturer/ trademark
type/model technical data standard mark(s) of conformity
X Capacitor (C1, C2) (Optional) (X1 or X2 type)
D Carli Electronics
MPX Max. 0.33uF, min. 250Vac,
min.85C
IEC 60384-14 2 ed., UL1414/UL60384-14
VDE( 40008520), UL (E120045)
X Capacitor (C1, C2) (Optional) (X1 or X2 type)
D Cheng Tung CTX Max. 0.33uF, min. 250Vac,
min.85C
IEC 60384-14 2 ed., UL1414/UL60384-14
VDE(40026382), UL (E193049)
X Capacitor (C1, C2) (Optional) (X1 or X2 type)
D Xiamen Faratronic
MKP62 Max. 0.33uF, min. 250Vac,
min.85C
IEC 60384-14 2 ed., UL1414/UL60384-14
VDE(40000358), UL (E186600)
Line Choke (LF1) (optional)
C Mean Well
LF-6012
130C
EN61347-1 EN61347-2-13
Tested with appliance
Bobbin of Line Choke (LF1)
C Sumitomo Bakelite
PM-9630, PM-9820
V-0, Phenolic,
min. 130C
EN61347-1 EN61347-2-13 UL 94
Tested with appliance UL (E41429)
Bobbin of Line Choke (LF1)
C,D E I DUPONT
FR530
V-0, PET,
155C
EN61347-1 EN61347-2-13
Tested with appliance UL (E41938)
Bobbin of Line Choke (LF1)
C,D NAN YA 1403G3, 1403G6
V-0, PBT,
130C
EN61347-1 EN61347-2-13
Tested with appliance UL (E130155)
Choke (L1) No bobbin (For model PLM-40-.)
C
Mean Well TR-6102 130C EN61347-1 EN61347-2-13 UL 94
Tested with appliance UL
Choke (L1) No bobbin (For model PLM-40E-.)
C
Mean Well DRGZ003D 130C EN61347-1 EN61347-2-13 UL 94
Tested with appliance UL
Bridging capacitor (C22, C23. C31, C32) (optional) (Y1or Y2 type)
A Murata KX, KH, KY 250Vac,
min.105C (For model PLM-40-., Max.2200pF; For model PLM-40E-., Max.3300pF)
IEC 60384-14 2 ed., UL1414/UL60384-14
KH: VDE (40002796) KX: VDE (40002831) KY: VDE (40006273), UL (E37921)
Bridging capacitor (C22, C23. C31, C32) (optional) (Y1or Y2 type)
D Walsin AH, AC 250Vac,
min.105C (For model PLM-40-., Max.2200pF; For model PLM-40E-., Max.3300pF)
IEC 60384-14 2 ed., UL1414/UL60384-14
AH: VDE (40001804) AC: VDE (40001829), UL (E146544)
Page 37 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
object/part No. code manufacturer/ trademark
type/model technical data standard mark(s) of conformity
Bridging capacitor (C22, C23. C31, C32) (optional) (Y1or Y2 type)
D TDK CD, CS min. 250Vac,
min.105C (For model PLM-40-., Max.2200pF; For model PLM-40E-., Max.3300pF)
IEC 60384-14 2 ed., UL1414/UL60384-14
CD: VDE (124321) CS: VDE (122006), UL (E37861)
Bridging capacitor (C22, C23. C31, C32) (optional) (Y1or Y2 type)
D Welson WD,KL min. 250Vac,
min.105C (For model PLM-40-., Max.2200pF; For model PLM-40E-., Max.3300pF)
IEC 60384-14 2 ed., UL1414/UL60384-14
WD: VDE (115455, 40016157) KL: VDE (116772, 40016156), UL (E104572)
Bridging capacitor (C22, C23. C31, C32) (optional) (Y1or Y2 type)
D Vishay VY1 min. 250Vac,
min.105C (For model PLM-40-., Max.2200pF; For model PLM-40E-., Max.3300pF)
IEC 60384-14 2 ed., UL1414/UL60384-14
VDE(40012673), UL (E183844)
Bridging capacitor (C22, C23. C31, C32) (optional) (Y1or Y2 type)
D Vishay WKP min. 250Vac,
min.105C (For model PLM-40-X, Max.2200pF; For model PLM-40E-X, Max.3300pF)
IEC 60384-14 2 ed., UL1414/UL60384-14
VDE(136493), UL (E183844)
Bridging capacitor (C22, C23. C31, C32) (optional) (Y1or Y2 type)
D Vishay 440L… min. 250Vac,
min.105C (For model PLM-40-X, Max.2200pF; For model PLM-40E-X, Max.3300pF)
IEC 60384-14 2 ed., UL1414/UL60384-14
VDE(40003985), UL (E99264)
Bridging capacitor (C22, C23. C31, C32) (optional) (Y1or Y2 type)
D Vishay 338 6 min. 250Vac,
min.105C (For model PLM-40-X, Max.2200pF; For model PLM-40E-X, Max.3300pF)
IEC 60384-14 2 ed., UL1414/UL60384-14
ENEC16:(269130-1), UL (E354331)
Transformer (T1) (For PLM-40-350 , PLM-40E-350) 1) 2)
C Mean Well TF-6531 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Page 38 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
object/part No. code manufacturer/ trademark
type/model technical data standard mark(s) of conformity
Transformer (T1) (For PLM-40-350, PLM-40E-350) 1) 2)
C,D Long Sail TF-6531 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-350, PLM-40E-350) 1) 2)
C,D JET signal TF-6531 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-350, PLM-40E-350) 1) 2)
C,D Yu Jing TF-6531 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-500, PLM-40E-500) 1) 3)
C Mean Well TF-6532 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-500, PLM-40E-500) 1) 3)
C,D Long Sail TF-6532 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-500, PLM-40E-500) 1) 3)
C,D JET signal TF-6532 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-500, PLM-40E-500) 1) 3)
C,D Yu Jing TF-6532 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-700, PLM-40E-700) 1) 4)
C Mean Well TF-6533 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-700, PLM-40E-700) 1) 4)
C,D Long Sail TF-6533 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-700, PLM-40E-700) 1) 4)
C,D JET signal TF-6533 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-700, PLM-40E-700) 1) 4)
C,D Yu Jing TF-6533 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-1050, PLM-40E-1050) 1) 5)
C Mean Well TF-6534 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-1050, PLM-40E-1050) 1) 5)
C,D Long Sail TF-6534 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Page 39 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
object/part No. code manufacturer/ trademark
type/model technical data standard mark(s) of conformity
Transformer (T1) (For PLM-40-1050, PLM-40E-1050) 1) 5)
C,D JET signal TF-6534 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-1050, PLM-40E-1050) 1) 5)
C,D Yu Jing TF-6534 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-1400, PLM-40E-1400) 1) 6)
C Mean Well TF-6535 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-1400, PLM-40E-1400) 1) 6)
C,D Long Sail TF-6535 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-1400, PLM-40E-1400) 1) 6)
C,D JET signal TF-6535 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-1400, PLM-40E-1400) 1) 6)
C,D Yu Jing TF-6535 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-1750, PLM-40E-1750) 1) 7)
C Mean Well TF-6536 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-1750, PLM-40E-1750) 1) 7)
C,D Long Sail TF-6536 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-1750, PLM-40E-1750) 1) 7)
C,D JET signal TF-6536 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Transformer (T1) (For PLM-40-1750, PLM-40E-1750) 1) 7)
C,D Yu Jing TF-6536 Class B EN 61347-1 EN 61347-2-13
Tested with appliance
Parts of transformers8)
Bobbin of Transformer (T1)
C Sumitomo Bakelite
PM-9630, PM-9820
V-0, min.
150C
UL 94 EN 61347-1 EN 61347-2-13
Tested with appliance UL (E41429)
Bobbin of Transformer (T1)
C,D E I DUPONT FR530 V-0, PET,
155C
UL 94 EN 61347-1 EN 61347-2-13
Tested with appliance UL (E41938)
Triple insulated wireof Transformer (T1)
B Furukawa TEX-E 130C IEC/EN60950-1
Tested with appliance VDE(006735)
Page 40 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
object/part No. code manufacturer/ trademark
type/model technical data standard mark(s) of conformity
Triple insulated wireof Transformer (T1)
D Totoku TIW-2 130C IEC/EN60950-1
Tested with appliance TÜV(J 50169493)
Triple insulated wireof Transformer (T1)
D Totoku TIW-3 155C IEC/EN60950-1
Tested with appliance TÜV(J 50169493)
Insulating tape of Transformer (T1)
C 3M 1351T-1, 1318-1, 1350F-1, 1350T-3 1351-1, 1351-2, 1351T-2, 1351T-3, 1350T-1, 1318-1
130C UL 510 Tested with appliance UL (E17385)
Insulating tape of Transformer (T1)
D BONDTEC PACIFIC
370S, 371F 130C UL 510 Tested with appliance UL (E175868)
Insulating tape of Transformer (T1)
D JingJiang WF
CT 130C UL 510 Tested with
appliance UL (E165111)
Insulating tape of Transformer (T1)
D Symbio MY9YAF, 35660Y, 35660
130C UL 510 Tested with appliance UL (E50292)
Insulating tape of Transformer (T1)
D E I DUPONT DE NEMOURS & CO INC
Nomex® 410,411,414, 418
130C UL 510 Tested with appliance UL (E34739)
PCB C Junda JD-D V-1 or better,
min. 105C
UL796, also compliance with cl. 8.7 of 61189-2 and relevant parts of EIC 61249-2, EN61347-1 EN61347-2-13
UL (E173873) Tested with appliance
PCB C,D Hsiang kuo 76V0A V-1 or better,
min. 105C UL796, also compliance with cl. 8.7 of 61189-2 and relevant parts of EIC 61249-2, EN61347-1 EN61347-2-13
UL (E116921) Tested with appliance
Page 41 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
object/part No. code manufacturer/ trademark
type/model technical data standard mark(s) of conformity
PCB C,D Taihe THS V-1 or better,
min. 105C UL796, also compliance with cl. 8.7 of 61189-2 and relevant parts of EIC 61249-2, EN61347-1 EN61347-2-13
UL (E221000) Tested with appliance
PCB C,D Taihe THD V-1 or better,
min. 105C UL796, also compliance with cl. 8.7 of 61189-2 and relevant parts of EIC 61249-2, EN61347-1 EN61347-2-13
UL (E221000) Tested with appliance
PCB C,D Junda JD-E V-1 or better,
min. 105C UL796, also compliance with cl. 8.7 of 61189-2 and relevant parts of EIC 61249-2, EN61347-1 EN61347-2-13
UL (E173873) Tested with appliance
PCB C,D Hong Shien 03V-0 V-1 or better,
min. 105C UL796, also compliance with cl. 8.7 of 61189-2 and relevant parts of EIC 61249-2, EN61347-1 EN61347-2-13
UL (E119853) Tested with appliance
PCB C,D Hong Shien -D V-1 or better,
min. 105C UL796, also compliance with cl. 8.7 of 61189-2 and relevant parts of EIC 61249-2, EN61347-1 EN61347-2-13
UL (E119853) Tested with appliance
PCB C,D Hong Shien -M V-1 or better,
min. 105C UL796, also compliance with cl. 8.7 of 61189-2 and relevant parts of EIC 61249-2, EN61347-1 EN61347-2-13
UL (E119853) Tested with appliance
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IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
object/part No. code manufacturer/ trademark
type/model technical data standard mark(s) of conformity
PCB B, C Hsu Tzu 4V0 V-1 or better,
min. 105C UL796, also compliance with cl. 8.7 of 61189-2 and relevant parts of EIC 61249-2, EN61347-1 EN61347-2-13
UL (E113945) Tested with appliance
PCB C,D Hsu Tzu DV2 V-1 or better,
min. 105C UL796, also compliance with cl. 8.7 of 61189-2 and relevant parts of EIC 61249-2, EN61347-1 EN61347-2-13
UL (E113945) Tested with appliance
PCB C,D Hsu Tzu MV1 V-1 or better,
min. 105C UL796, also compliance with cl. 8.7 of 61189-2 and relevant parts of EIC 61249-2, EN61347-1 EN61347-2-13
UL (E113945) Tested with appliance
PCB C,D Jiin-Yu JY-001 V-1 or better,
min. 105C UL796, also compliance with cl. 8.7 of 61189-2 and relevant parts of EIC 61249-2, EN61347-1 EN61347-2-13
UL (E189348) Tested with appliance
PCB C,D Jiin-Yu JY-003 V-1 or better,
min. 105C UL796, also compliance with cl. 8.7 of 61189-2 and relevant parts of EIC 61249-2, EN61347-1 EN61347-2-13
UL (E189348) Tested with appliance
PCB C,D Shanghai Wanzheng
SWZ-1 V-1 or better,
min. 105C UL796, also compliance with cl. 8.7 of 61189-2 and relevant parts of EIC 61249-2, EN61347-1 EN61347-2-13
UL (E301791) Tested with appliance
Page 43 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
object/part No. code manufacturer/ trademark
type/model technical data standard mark(s) of conformity
PCB C,D Brite Plus Electronics
DGV0-3A V-1 or better,
min. 105C UL796, also compliance with cl. 8.7 of 61189-2 and relevant parts of EIC 61249-2, EN61347-1 EN61347-2-13
UL (E177671) Tested with appliance
PCB C,D GUANGDONG CHAOHUA TECHNOLOGY CO LTD
C-103 V-1 or better,
min. 105C UL796, also compliance with cl. 8.7 of 61189-2 and relevant parts of EIC 61249-2, EN61347-1 EN61347-2-13
UL (E231151) Tested with appliance
1) All transformers are similar to each other except winding turns and wire gauge of secondary (N2). 2) - 7) All sources of transformers are identical to each other, except manufacturer. 8) For others insulation materials, see attachment of transformer specification
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
Page 44 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
ANNEX 2: 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
(14.4.7) Between metal surfaces N/A
Lug terminal N/A
Mantle terminal N/A
Pull test; pull (N) ................................................... : N/A
(14.4.8) Without undue damage N/A
Page 45 of 85 Report No.: 291632
IEC 61347-2-13
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TRF No. IEC61347_2_13E
ANNEX 3: screwless terminals (part of the luminaire) N/A
(15) SCREWLESS TERMINALS N/A
(15.2) Type of terminal ................................................... : The input /output screwless terminals are certified by EN60998-2-2
Rated current (A) ................................................. :
(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) Terminals and connections for internal wiring N/A
(15.5.1) Mechanical tests N/A
(15.5.1.1.1) Pull test spring-type terminals (4 N, 4 samples)….:
N/A
(15.5.1.1.2) Pull test pin or tab terminals (4 N, 4 samples)……:
N/A
Insertion force not exceeding 50 N N/A
(15.5.1.2) 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
Page 46 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
(15.7) Terminals external wiring N/A
Terminal size and rating N/A
(15.8.1) 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
(15.9) Contact resistance test N/A
Voltage drop (mV) after 1 h N/A
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)
Page 47 of 85 Report No.: 291632
IEC 61347-2-13
Clause Requirement + Test Result - Remark Verdict
TRF No. IEC61347_2_13E
Attachment 1: European group differences and national differences P
ATTACHMENT TO TEST REPORT IEC 61347-2-13 EUROPEAN GROUP DIFFERENCES AND NATIONAL DIFFERENCES
Part 2: Particular requirements
Section Thirteen – d.c. or a.c. supplied electronic controlgear for LED modules
Differences according to ................: EN 61347-2-13:2006 used in conjunction with EN 61347-1:2008 + A1:2010+A2:2013
Attachment Form No. .....................: EU_GD_IEC61347_2_13D
Attachment Originator ....................: Intertek Semko AB
Master Attachment .........................: Date 2013-10
Copyright © 2013 IEC System for Conformity Testing and Certification of Electrical Equipment (IECEE), Geneva, Switzerland. All rights reserved.
CENELEC COMMON MODIFICATIONS (EN) P
No Common modifications P
Page 48 of 85 Report No.: 291632
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TRF No. IEC61347_2_13E
Attachment 2: Practical testing for MM mark according to VDE 0710 P
Type reference ....................................................... : PLM-40E-1750 for worst case
Lamp used ............................................................. : Dammy used
Mounting position of luminaire ............................... : Label down for worst case
Table: measured temperatures corrected for ta= 40 C: P
Conditions 1: 1,1 times rated voltage ..................... : 1,1 x 240 V = 264 V
- Conditions 2: 1,1 x rated voltage until steady state has been reached, the input voltage is creased in steps of 5% each time until the protective device operated ................................................................. :
The fusing resistor operated when the input voltage increased to 369.6V.
temperature (C) of part
Conditions 1 (Normal operation) Conditions 2 (Abnormal operation)
Measured temperature Limit Measured temperature Limit
Test Voltage 264Vac -- 264Vac --
Input wire 48.5 95 48.5 115
Output wire 44.9 95 44.9 115
Mounting surface 76.3 95 76.3 115
Ambient 41.2 -- 41.2 --
Page 49 of 85 Report No.: 291632
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TRF No. IEC61347_2_13E
Attachment 3: Australian/New Zealand national variations according to AS/NZS IEC 61347.2.13:2013 used in conjunction with AS/NZS 61347.1:2002
P
5 General notes on tests P
For Australia, the rated supply voltage is 230V/400V +10%, -6% and for testing according to this standard, the rated test voltage shall be 240V/415V.
The rated supply voltage range 200-240Vac.
P
5.5 For independent lamp control gear, thermal test used in IEC 60598-1 (Annex D)
P
7 Marking P
7.1 -The marking of the rated voltage, or rated voltage range. If shall cover 240 V for Australia and 230 V for New Zealand.
200-240Vac. P
8 Terminals, cables and cords P
Screw terminals shall comply with Section 14 of AS/NZS 60598.1
N/A
Screwless terminals shall comply with Section 15 of AS/NZS 60598.1
The input /output screwless complies with EN60998-2-2
P
Cables and cords shall comply with the relevant requirements of Section 5 of AS/NZS 60598.1
N/A
9.1 Protective earth(ground), symbol
N/A
18.2 Resistance to flame and ignition P
18.2.1 Part retaining current-carrying parts in position shall
withstand 750 C glow-wire test:
P
- Part tested……………………………………………: Enclosure, PCB; Bobbin of transformer, and choke; terminal blocks
P
18.2.2 Part which provide protection against electric shock, or retaining SELV parts in position shall
withstand 650 C glow-wire test:
P
- Part tested……………………………………………: N/A
- Part tested……………………………………………: N/A
18.2.3 Needle flame test: No flames produced during the glow-wire testing
N/A
- Part tested……………………………………………: N/A
18.3 Tracking test N/A
National Differences for Australia for AS/NZS 61347.2.13: 2013
4 GENERAL REQUIREMENTS P
Page 50 of 85 Report No.: 291632
IEC 61347-2-13
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TRF No. IEC61347_2_13E
Where the controlgear has accessible outputs, the controlgear shall be SELV output and comply with Annex I.
Considered for independent SELV controlgear.
SELV equivalent is not permitted where controlgear has accessible outputs or is classified as independent SELV.
P
8 PROTECTION AGAINST ACCIDENTAL CONTACT WITH LIVE PARTS N/A
8.2 Output circuits of SELV controlgear with accessible outputs shall not exceed 25 V r.m.s. or 60 V d.c. ripple-free d.c. under load except as indicated below.
Model No.:PLM-40-1050; PLM-40E-1050;PLM-40-1400; PLM-40E-1400;PLM-40-1750; PLM-40E-1750 are output voltage not exceed 60Vdc
P
If the voltage exceeds 25 V r.m.s. or 60 V ripple-free d.c., the output shall comply with the following:
P
a) the touch current shall not exceed: N/A
-- for a.c.: 0,7 mA (peak); 0.54mA(peak)max. N/A
-- for d.c.: 2,0 mA; N/A
b) the no-load output shall not exceed 33.2 V peak or 60 V ripple free d.c.
N/A
Controlgear with an output greater than the limits above shall have insulated terminals.
N/A
Accessible conductive parts separated by double or reinforced insulation
P
Y1 or Y2 capacitors shall comply with relevant requirements of IEC 60384-14
Capacitors (C22 and C23 two in series; C31 and C32 two in series)capacitor separately
certified, ref. components list.
P
if resistors are used they shall comply with the requirements of test in 14.1 of IEC 60065:2001.
N/A
9 TERMINALS N/A
9.1 Direct plug-in control gear N/A
Plug-in controlgear with pins for direct insertion into a socket-outlet shall comply with Appendix J of AS/NZS 3112:2011.
N/A
16 ABNORMAL CONDITIONS N/A
Page 51 of 85 Report No.: 291632
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TRF No. IEC61347_2_13E
16.2
d) For controlgear with SELV output, the LED modules, or equivalent load for which the controlgear is designed, shall continue to be connected in series incrementally to the output terminals until the controlgear ceases to operate or the output voltage is stabilized.
N/A
Page 52 of 85 Report No.: 291632
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TRF No. IEC61347_2_13E
Attachment 4: Test according to IEC 60598-1:2008 and EN 60598-1:2008+A11: 2009
P
(4) CONSTRUCTION P
4.13.1 Impact tests: P
- fragile parts; energy (Nm) : No fragile parts N/A
- other parts; energy (Nm) : Enclosure; 0.5 Nm P
1) live parts P
2) linings P
3) protection P
4) covers P
(5) EXTERNAL AND INTERNAL WIRING P
5.2 Supply connection and external wiring
5.2.1 Means of connection……………………………...: Certified terminal block used. N/A
5.2.2 Type of cable………………………………………: N/A
Nominal cross-sectional area (mm²)…………... : N/A
Cables equal to IEC 60227 or IEC 60245 N/A
5.2.3 Type of attachment, X, Y or Z N/A
5.2.5 Type Z not connected to screws N/A
5.2.6 Cable entries:
- suitable for introduction N/A
- adequate degree of protection N/A
5.2.7 Cable entries through rigid material have rounded edges
N/A
5.2.8 Insulating bushings:
- suitably fixed N/A
- material in bushings N/A
- material not likely to deteriorate N/A
- tubes or guards made of insulating material N/A
5.2.9 Locking of screwed bushings N/A
5.2.10 Cord anchorage:
- covering protected from abrasion N/A
- clear how to be effective N/A
- no mechanical or thermal stress N/A
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TRF No. IEC61347_2_13E
- no tying of cables into knots etc. N/A
- insulating material or lining N/A
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
Labyrinth type anchorages N/A
5.2.10.2 Adequate cord anchorage for type Y and type Z attachment
N/A
5.2.10.3 Tests: N/A
- impossible to push cable; unsafe N/A
- pull test: 25 times; pull (N) : N/A
- torque test: torque (Nm) : N/A
- displacement 2 mm N/A
- no movement of conductors N/A
- no damage of cable or cord N/A
5.3 Internal wiring N/A
5.3.1 Internal wiring of suitable size and type N/A
Through wiring N/A
- not delivered/ mounting instruction N/A
- factory assembled N/A
- socket outlet loaded (A) ...................................... : N/A
- temperatures ....................................................... : N/A
Green-yellow for earth only N/A
5.3.1.1 Internal wiring connected directly to fixed wiring N/A
Cross-sectional area (mm²) .................................. : N/A
Insulation thickness N/A
Extra insulation added where necessary N/A
5.3.1.2 Internal wiring connected to fixed wiring via internal current-limiting device N/A
Adequate cross-sectional area and insulation thickness
N/A
Page 54 of 85 Report No.: 291632
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TRF No. IEC61347_2_13E
5.3.1.3 Double or reinforced insulation for class II N/A
5.3.1.4 Conductors without insulation N/A
5.3.1.5 SELV current-carrying parts N/A
5.3.1.6 Insulation thickness other than PVC or rubber N/A
5.3.2 Sharp edges etc. N/A
No moving parts of switches etc. N/A
Joints, raising/lowering devices N/A
Telescopic tubes etc. N/A
No twisting over 360 N/A
5.3.3 Insulating bushings: N/A
- suitable fixed N/A
- material in bushings N/A
- material not likely to deteriorate N/A
- cables with protective sheath N/A
5.3.4 Joints and junctions effectively insulated N/A
5.3.5 Strain on internal wiring N/A
5.3.6 Wire carriers N/A
5.3.7 Wire ends not tinned N/A
Wire ends tinned: no cold flow N/A
(9) RESISTANCE TO DUST, SOLID OBJECTS AND MOISTURE N/A
9.2 Tests for ingress of dust, solid objects and moisture: N/A
- classification according to IP .............................. : IP30
- mounting position during test .............................. : As normal use
- fixing screws tightened; torque (Nm) .................. :
- tests according to clauses .................................. : 9.2.0
- electric strength test afterwards N/A
a) no deposit in dust-proof luminaire N/A
b) no talcum in dust-tight luminaire N/A
c) no trace of water on current-carrying parts or SELV parts or where it could become a hazard
N/A
d) i) For luminaires without drain holes – no water entry
N/A
d) ii) For luminaires with drain holes – no hazardous water entry
N/A
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TRF No. IEC61347_2_13E
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) P
f) no contact with live parts (IP3X and IP4X) P
g) no trace of water on part of lamp requiring protection from splashing water
N/A
h) no damage of protective shield or glass envelope
N/A
Page 56 of 85 Report No.: 291632
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TRF No. IEC61347_2_13E
Attachment 5: temperature rise measurements according to Annex L.6, L.7 of IEC 61347-1:2007+A1:2010+A2:2012
P
Type reference Model: PLM-40-350
Lamp used Dummy load
Mounting position of luminaire On normal use
Supply wattage (W) 41.4W@212V
Supply current (A) 0.21A@212V
Calculated power factor --
Loaded condition 105 Vdc/350 mA
Monitored point: Heating temperature (C) Short-circuit and overload condition
212 V 254.4 V Limit 264 V Limit
1. TB1 body 65 65 -- -- --
2. ZNR1 body 73 73 125 -- --
3. C1 body(between C2) 72 71 100 -- --
4. C14 body 91 91 105 -- --
5. LF1 coil 69 68 130 -- --
6. PCB under BD1 76 75 130 -- --
7. ZNR2 bod 78 78 125 -- --
8. L1 coil 82 82 130 -- --
9. HS1 near Q1 94 94 130 --
10. T1 primary side coil (class B) 93 94 110 102 165
11. T1 secondary side coil (class B) 84 85 110
102 165
12. T1 core 88 89 110 -- --
13. C4 body 89 90 105 -- --
14. C31 body (between C22) 82 83 125 -- --
15. C23 body (between C23) 74 75 125 -- --
16. HS2 near D100 75 76 130 -- --
17. C106 body (between C105) 64 65 85 -- --
18. L100 coil 59 60 105 -- --
19. TB2 body 54 54 -- -- --
20. Inside of enclosure 76 77 120 -- --
21. Surface of enclosure 74 75 90 89 110
22. Ambient air (°C) 41 41 -- 42 --
supplementary information:
Temperature limits include less 10 C for thermocouple measurement method. If no limit is stated, temperature is for reference only. Limit is considered. Only maximum temperatures measured is stated in the table.
Page 57 of 85 Report No.: 291632
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TRF No. IEC61347_2_13E
Attachment 5: temperature rise measurements according to Annex L.6, L.7 of IEC 61347-1:2007+A1:2010+A2:2012
P
Type reference Model: PLM-40-1400
Lamp used Dummy load
Mounting position of luminaire On normal use
Supply wattage (W) 45.2W@212V
Supply current (A) 0.23A@212V
Calculated power factor --
Loaded condition 29 Vdc/1400 mA
Monitored point: Heating temperature (C) Short-circuit and overload condition
212 V 254.4 V Limit 264 V Limit
1. TB1 body 66 65 -- -- --
2. ZNR1 body 76 74 125 -- --
3. C1 body(between C2) 77 75 100 -- --
4. C14 body 97 95 105 -- --
5. LF1 coil 75 72 130 -- --
6. PCB under BD1 75 72 130 -- --
7. ZNR2 bod 86 84 125 -- --
8. L1 coil 86 84 130 -- --
9. HS1 near Q1 102 99 130 --
10. T1 primary side coil (class B) 105 105 110 109 165
11. T1 secondary side coil (class B) 10 103 110
109 165
12. T1 core 97 97 110 -- --
13. C4 body 99 99 105 -- --
14. C31 body (between C22) 90 90 125 -- --
15. C23 body (between C23) 86 86 125 -- --
16. HS2 near D100 92 92 130 -- --
17. C106 body (between C105) 72 72 85 -- --
18. L100 coil 66 67 105 -- --
19. TB2 body 59 60 -- -- --
20. Inside of enclosure 95 93 120 -- --
21. Surface of enclosure 89 87 90 87 110
22. Ambient air (°C) 40 40 -- 40 --
supplementary information:
Temperature limits include less 10 C for thermocouple measurement method. If no limit is stated, temperature is for reference only. Limit is considered. Only maximum temperatures measured is stated in the table.
Page 58 of 85 Report No.: 291632
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TRF No. IEC61347_2_13E
Attachment 5: temperature rise measurements according to Annex L.6, L.7 of IEC 61347-1:2007+A1:2010+A2:2012
P
Type reference Model: PLM-40-1750
Lamp used Dummy load
Mounting position of luminaire On normal use
Supply wattage (W) 46.2W@212V
Supply current (A) 0.24A@212V
Calculated power factor --
Loaded condition 23 Vdc/1750 mA
Monitored point: Heating temperature (C) Short-circuit and overload condition
212 V 254.4 V Limit 264 V Limit
23. TB1 body 69 67 -- -- --
24. ZNR1 body 37 75 125 -- --
25. C1 body(between C2) 39 77 100 -- --
26. C14 body 63 99 105 -- --
27. LF1 coil 35 71 130 -- --
28. PCB under BD1 42 79 130 -- --
29. ZNR2 bod 52 88 125 -- --
30. L1 coil 56 92 130 -- --
31. HS1 near Q1 66 103 130 --
32. T1 primary side coil (class B) 70 109 110 109.3 165
33. T1 secondary side coil (class B) 62 102 110
109.3 165
34. T1 core 63 103 110 -- --
35. C4 body 59 98 105 -- --
36. C31 body (between C22) 56 96 125 -- --
37. C23 body (between C23) 51 91 125 -- --
38. HS2 near D100 58 99 130 -- --
39. C106 body (between C105) 35 76 85 -- --
40. L100 coil 33 74 105 -- --
41. TB2 body 25 65 -- -- --
42. Inside of enclosure 55 94 120 -- --
43. Surface of enclosure 87 86
40.4
90 88.1 110
44. Ambient air (°C) 40 40 -- 40.0 --
supplementary information:
Temperature limits include less 10 C for thermocouple measurement method. If no limit is stated, temperature is for reference only. Limit is considered. Only maximum temperatures measured is stated in the table.
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Attachment 5: temperature rise measurements according to Annex L.6, L.7 of IEC 61347-1:2007+A1:2010+A2:2012
P
Type reference Model: PLM-40E-350
Lamp used Dummy load
Mounting position of luminaire On normal use
Supply wattage (W) 40.2W@212V
Supply current (A) 0.21A@212V
Calculated power factor --
Loaded condition 105 Vdc/350 mA
Monitored point: Heating temperature (C) Short-circuit and overload condition
212 V 254.4 V Limit 264 V Limit
1. TB1 body 60 61 110 -- --
2. C2 body (between C1) 75 75 100 -- --
3. C14 body 81 82 105 -- --
4. LF1 coil 69 68 120 -- --
5. PCB under BD1 72 73 130 -- --
6. ZNR2 body 86 86 125 -- --
7. L1 coil 95 95 120 -- --
8. HS1 near Q1 98 102 130 -- --
9. T1 primary side coil 102 106 110 104 165
10. T1 secondary side coil 97 100 110 98 165
11. T1 core 95 98 110 -- --
12. C31 body (near C22) 87 90 125 -- --
13. TB2 body 51 52 110 -- --
14. Inside of enclosure 87 90 120 -- --
15. Surface of enclosure 82 85 90 83 110
16. Ambient air 40 40 -- 35 --
supplementary information:
Temperature limits include less 10 C for thermocouple measurement method. If no limit is stated, temperature is for reference only. Limit is considered. Only maximum temperatures measured is stated in the table.
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Attachment 5: temperature rise measurements according to Annex I.6 of IEC 61347-2-13: 2006 and Annex L.6, L.7 of IEC 61347-1:2007+A1:2010+A2:2012
P
Type reference Model: PLM-40E-1400
Lamp used Dummy load
Mounting position of luminaire On normal use
Supply wattage (W) 45.2W@212V
Supply current (A) 0.23A@212V
Calculated power factor --
Loaded condition 29 Vdc/1400 mA
Monitored point: Heating temperature (C) Short-circuit and overload condition
212 V 254.4 V Limit 264 V Limit
1. TB1 body 64 63 110 -- --
2. C2 body (between C1) 80 78 100 -- --
3. C14 body 89 88 105 -- --
4. LF1 coil 76 74 120 -- --
5. PCB under BD1 76 73 130 -- --
6. ZNR2 body 89 88 125 -- --
7. L1 coil 100 98 120 -- --
8. HS1 near Q1 103 103 130 -- --
9. T1 primary side coil 107 108 110 106 165
10. T1 secondary side coil 106 107 110 105 165
11. T1 core 99 100 110 -- --
12. C31 body (near C22) 93 93 125 -- --
13. TB2 body 55 56 110 -- --
14. Inside of enclosure 95 96 120 -- --
15. Surface of enclosure 83 84 90 82 110
16. Ambient air 40 40 -- 35 --
supplementary information:
Temperature limits include less 10 C for thermocouple measurement method. If no limit is stated, temperature is for reference only. Limit is considered. Only maximum temperatures measured is stated in the table.
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Attachment 5: temperature rise measurements according to Annex L.6, L.7 of IEC 61347-1:2007+A1:2010+A2:2012
P
Type reference Model: PLM-40E-1750
Lamp used Dummy load
Mounting position of luminaire On normal use
Supply wattage (W) 48.7W@212V
Supply current (A) 0.25A@212V
Calculated power factor --
Loaded condition 23 Vdc/1750 mA
Monitored point: Heating temperature (C) Short-circuit and overload condition
212 V 254.4 V Limit 264 V Limit
1. TB1 body 64 63 110 -- --
2. C2 body (between C1) 80 77 100 -- --
3. C14 body 89 88 105 -- --
4. LF1 coil 76 74 120 -- --
5. PCB under BD1 76 73 130 -- --
6. ZNR2 body 89 88 125 -- --
7. L1 coil 100 98 120 -- --
8. HS1 near Q1 103 103 130 -- --
9. T1 primary side coil 107 108 110 106 165
10. T1 secondary side coil 106 107 110 105 165
11. T1 core 99 100 110 -- --
12. C31 body (near C22) 93 93 125 -- --
13. TB2 body 55 56 110 -- --
14. Inside of enclosure 95 96 120 -- --
15. Surface of enclosure 83 84 90 82 110
16. Ambient air 40 40 -- 35 --
supplementary information:
Temperature limits include less 10 C for thermocouple measurement method. If no limit is stated, temperature is for reference only. Limit is considered. Only maximum temperatures measured is stated in the table.
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Attachment 6: Photos P
Representative for Model for PLM-40-.series
Topside view
Backside view
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Internal view
PCB with components of topside view
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PCB with components of backside view
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Representative for Model for PLM-40E-.series
Topside view
Backside view
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Internal view
For trace side, refer to PCB layout for details.
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Attachment 7: PCB Layout P
PCB Layout of PLM-40-.series
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PCB Layout of PLM-40E-.series
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Attachment 8: Instruction Manual P
Instruction Manual of PLM-40-.series
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Instruction Manual of PLM-40E-.series
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Attachment 9: Transformer specification P
All sources of transformers construction are identical except manufacture name, the specifications were listed MeanWell for representative. Transformer type :TF-6531
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Transformer type :TF-6532
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Transformer type :TF-6533
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Transformer type :TF-6534
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Transformer type :TF-6535
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Transformer type :TF-6536
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Attachment 10: Best Measurement Capability P
Hereafter the best measurement capability for Environmental and Safety testing is reported:
End of test report