iec 61215 ed2 - static.solartricity.ie · iec / en 61215:2005 “crystalline silicon terrestrial...
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Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
PV-F-009 TRF 61215 61730 Page 2 of 45 Version 1.5
Applicant .................................... : Sunrise Solartech Co., Ltd.
No.20 Tongzi River West Road, Zhonglou Development Zone Changzhou, Jiangsu 213023, P.R. China
Manufacturer ............................. : Sunrise Solartech Co., Ltd.
No.20 Tongzi River West Road, Zhonglou Development Zone Changzhou, Jiangsu 213023, P.R. China
Order No. ................................... : QT- SHV11085/16
Date of Application .................... : 12/02/2016
Product ...................................... : Crystalline Silicon Photovoltaic Modules
Module type(s) ........................... : PV module with 6” Mono-crystalline Solar Cell:
72 cells: SR-M672xxx (xxx=255-380 in steps of 5)
72 cells: SR-M672xxx-B (xxx=255-380 in steps of 5)
60 cells: SR-M660xxx (xxx=215-320 in steps of 5)
60 cells: SR-M660xxx-B (xxx=215-320 in steps of 5)
54 cells: SR-M654xxx (xxx=205-285 in steps of 5)
54 cells: SR-M654xxx-B (xxx=205-285 in steps of 5)
48 cells: SR-M648xxx (xxx=180-255 in steps of 5)
48 cells: SR-M648xxx-B (xxx=180-255 in steps of 5)
PV module with 5” Mono-crystalline Solar Cell:
72 cells: SR-M572*** (***=160-195 in steps of 5)
72 cells: SR-M572***B (***=160-195 in steps of 5)
72 cells: SR-M572***-1 (*** =175-200 in steps of 5)
“B” means with black backsheet.
General Information
Maximum System Voltage .... : DC 1000V
Application Class .................. : Class A
Electrical Protection Class .... : Class II
Fire Safety Class .................. : Class C
Type of examination .................. : Conformity testing with TÜV mark
Testing Period ........................... : 01/06/2017 - 02/27/2017
Testing Laboratory ..................... : National Center of Supervision & Inspection on Solar Photovoltaic Products Quality
Suite A-10F, No. 5 Xinhua Road, Wuxi New District Wuxi City, Jiangsu Province, 214028, P.R. China
Test results listed in this test report refer exclusively to the mentioned test sample.
Partly copying is not permitted without explicit agreement of the owner.
The submitted test samples as described in the reports hereunder are in compliance with the requirements:
IEC / EN 61215:2005 “Crystalline Silicon Terrestrial Photovoltaic (PV) Modules - Design Qualification and Type Approval”
IEC 61730-1:2004+A1:2011+A2:2013 / EN 61730-1:2007+A1:2012+A2:2013 “Photovoltaic (PV) module safety qualification. Part 1: Requirements for construction”
IEC 61730-2:2004+A1:2011 / EN 61730-2:2007+A1:2012 “Photovoltaic (PV) module safety qualification. Part 2: Requirements for testing”
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
PV-F-009 TRF 61215 61730 Page 3 of 45 Version 1.5
List of contents
List of contents .............................................................................................................................. 3
History of certification .................................................................................................................. 4
Summary of testing ..................................................................................................................... 10
General remarks .......................................................................................................................... 11
General product information ...................................................................................................... 12
Module type: SR-M672350 ........................................................................................................ 12
Testing procedure ....................................................................................................................... 13
Module type: SR-M672350 ........................................................................................................ 13
Module group assignment .......................................................................................................... 15
Module type: SR-M672350 ........................................................................................................ 15
Test result overview .................................................................................................................... 16
Module type: SR-M672330 ........................................................................................................ 16
Test results of IEC / EN 61215 .................................................................................................... 17
Module type: SR-M672350 ........................................................................................................ 17
10.1 Visual inspection (initial) ............................................................................................... 17
10.2 Maximum power determination (initial) ......................................................................... 18
10.3 Insulation test (initial) .................................................................................................... 19
10.15 Wet leakage current test (Initial) ................................................................................. 20
10.6A Performance at STC .................................................................................................. 21
10.18B Bypass diode thermal test ........................................................................................ 22
10.9B Hot-spot endurance test ............................................................................................. 24
10.2F Maximum power determination (final) ......................................................................... 25
10.15F Wet leakage current test (final) ................................................................................. 26
Test results of IEC / EN 61730-1 ................................................................................................. 27
Test results of IEC / EN 61730-2 ................................................................................................. 28
Module type: SR-M672350 ........................................................................................................ 28
MST26 Reverse current overload test .................................................................................. 28
MST17 Wet leakage current test .......................................................................................... 29
Annex 1: Constructional Data Form (CDF) ................................................................................ 30
Annex 2: List of measurement equipment ................................................................................. 42
Annex 3: Statement of the estimated uncertainty of the test results....................................... 43
Annex 4: Photos .......................................................................................................................... 44
Module type: SR-M672350 ........................................................................................................ 44
Test Report
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History of certification
File no. ............. : SHV04021/13
Certificate no. .. : 44 780 13 406749 - 047, 44 780 13 406749 - 048
Date of issue .... : 06/05/2013
Report no. ........ : 492010385.001
Module type(s) . : PV module with 6” Mono-crystalline Solar Cell:
72 cells: SR-M672xxx (xxx=255-310 in steps of 5)
72 cells: SR-M672xxx-B (xxx=255-310 in steps of 5)
60 cells: SR-M660xxx (xxx=215-260 in steps of 5)
60 cells: SR-M660xxx-B (xxx=215-260 in steps of 5)
54 cells: SR-M654xxx (xxx=205-225 in steps of 5)
54 cells: SR-M654xxx-B (xxx=205-225 in steps of 5)
48 cells: SR-M648xxx (xxx=180-200 in steps of 5)
48 cells: SR-M648xxx-B (xxx=180-200 in steps of 5)
PV module with 5” Mono-crystalline Solar Cell:
72 cells: SR-M572*** (***=160-195 in steps of 5)
72 cells: SR-M572***B (***=160-195 in steps of 5)
72 cells: SR-M572***-1 (*** = 175-200 in steps of 5)
PV module with 6” Poly-crystalline Solar Cell:
72 cells: SR-P672xxx (xxx=245-295 in steps of 5)
72 cells: SR-P672xxx-B (xxx=245-295 in steps of 5)
66 cells: SR-P666xxx (xxx=225-270 in steps of 5)
66 cells: SR-P666xxx-B (xxx=225-270 in steps of 5)
60 cells: SR-P660xxx (xxx=205-245 in steps of 5)
60 cells: SR-P660xxx-B (xxx=205-245 in steps of 5)
54 cells: SR-P654xxx (xxx=185-220 in steps of 5)
54 cells: SR-P654xxx-B (xxx=185-220 in steps of 5)
48 cells: SR-P648xxx (xxx=165-195 in steps of 5)
48 cells: SR-P648xxx-B (xxx=165-195 in steps of 5)
“B” means with black backsheet.
Description: ...... : Add fire test for 6 sets of raw materials combination
File no. ............. : SHV04021/13-02
Certificate no. .. : N/A
Date of issue .... : N/A
Report no. ........ : 492010385.002
Module type(s) . : Same as above
Description: ...... : Test report verification
File no. ............. : SHV11039/13
Certificate no. .. : 44 780 13 406749-211, 44 780 13 406749-212
Test Report
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PV-F-009 TRF 61215 61730 Page 5 of 45 Version 1.5
Date of issue .... : 12/11/2013
Report no. ........ : 492010385.003
Module type(s) . : PV module with 6” Mono-crystalline Solar Cell:
72 cells: SR-M672xxx (xxx=255-310 in steps of 5)
72 cells: SR-M672xxx-B (xxx=255-310 in steps of 5)
60 cells: SR-M660xxx (xxx=215-260 in steps of 5)
60 cells: SR-M660xxx-B (xxx=215-260 in steps of 5)
54 cells: SR-M654xxx (xxx=205-225 in steps of 5)
54 cells: SR-M654xxx-B (xxx=205-225 in steps of 5)
48 cells: SR-M648xxx (xxx=180-200 in steps of 5)
48 cells: SR-M648xxx-B (xxx=180-200 in steps of 5)
PV module with 5” Mono-crystalline Solar Cell:
72 cells: SR-M572*** (***=160-195 in steps of 5)
72 cells: SR-M572***B (***=160-195 in steps of 5)
72 cells: SR-M572***-1 (*** = 175-200 in steps of 5)
PV module with 6” Poly-crystalline Solar Cell:
72 cells: SR-P672xxx (xxx=245-315 in steps of 5)
72 cells: SR-P672xxx-B (xxx=245-315 in steps of 5)
66 cells: SR-P666xxx (xxx=225-290 in steps of 5)
66 cells: SR-P666xxx-B (xxx=225-290 in steps of 5)
60 cells: SR-P660xxx (xxx=205-265 in steps of 5)
60 cells: SR-P660xxx-B (xxx=205-265 in steps of 5)
54 cells: SR-P654xxx (xxx=185-235 in steps of 5)
54 cells: SR-P654xxx-B (xxx=185-235 in steps of 5)
48 cells: SR-P648xxx (xxx=165-210 in steps of 5)
48 cells: SR-P648xxx-B (xxx=165-210 in steps of 5)
“B” means with black backsheet.
Description: ...... : Add some raw materials based on TÜV Rheinland test report and change manufacturing plant address as well
File no. ............. : SHV03031/15
Certificate no. .. : 44 780 15 406749-042, 44 780 15 406749-043
Date of issue .... : 04/15/2015
Report no. ........ : 492010385.004
Module type(s) . : PV module with 6” Mono-crystalline Solar Cell:
72 cells: SR-M672xxx (xxx=255-310 in steps of 5)
72 cells: SR-M672xxx-B (xxx=255-310 in steps of 5)
60 cells: SR-M660xxx (xxx=215-260 in steps of 5)
60 cells: SR-M660xxx-B (xxx=215-260 in steps of 5)
54 cells: SR-M654xxx (xxx=205-225 in steps of 5)
54 cells: SR-M654xxx-B (xxx=205-225 in steps of 5)
48 cells: SR-M648xxx (xxx=180-200 in steps of 5)
48 cells: SR-M648xxx-B (xxx=180-200 in steps of 5)
Test Report
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PV module with 5” Mono-crystalline Solar Cell:
72 cells: SR-M572*** (***=160-195 in steps of 5)
72 cells: SR-M572***B (***=160-195 in steps of 5)
72 cells: SR-M572***-1 (*** = 175-200 in steps of 5)
PV module with 6” Poly-crystalline Solar Cell:
72 cells: SR-P672xxx (xxx=245-315 in steps of 5)
72 cells: SR-P672xxx-B (xxx=245-315 in steps of 5)
66 cells: SR-P666xxx (xxx=225-290 in steps of 5)
66 cells: SR-P666xxx-B (xxx=225-290 in steps of 5)
60 cells: SR-P660xxx (xxx=205-265 in steps of 5)
60 cells: SR-P660xxx-B (xxx=205-265 in steps of 5)
54 cells: SR-P654xxx (xxx=185-235 in steps of 5)
54 cells: SR-P654xxx-B (xxx=185-235 in steps of 5)
48 cells: SR-P648xxx (xxx=165-210 in steps of 5)
48 cells: SR-P648xxx-B (xxx=165-210 in steps of 5)
“B” means with black backsheet.
Description: ...... : Add some raw materials based on TÜV Rheinland test report.
File no. ............. : SHV07014/15-01
Certificate no. .. : 44 780 15 406749-126, 44 780 15 406749-043
Date of issue .... : 09/18/2015
Report no. ........ : 492010385.005
Module type(s) . : PV module with 6” Mono-crystalline Solar Cell:
72 cells: SR-M672xxx (xxx=255-330 in steps of 5)
72 cells: SR-M672xxx-B (xxx=255-330 in steps of 5)
60 cells: SR-M660xxx (xxx=215-275 in steps of 5)
60 cells: SR-M660xxx-B (xxx=215-275 in steps of 5)
54 cells: SR-M654xxx (xxx=205-250 in steps of 5)
54 cells: SR-M654xxx-B (xxx=205-250 in steps of 5)
48 cells: SR-M648xxx (xxx=180-220 in steps of 5)
48 cells: SR-M648xxx-B (xxx=180-220 in steps of 5)
PV module with 5” Mono-crystalline Solar Cell:
72 cells: SR-M572*** (***=160-195 in steps of 5)
72 cells: SR-M572***B (***=160-195 in steps of 5)
72 cells: SR-M572***-1 (*** =175-200 in steps of 5)
PV module with 6” Poly-crystalline Solar Cell:
60 cells: SR-P660xxx (xxx=205-265 in steps of 5)
60 cells: SR-P660xxx-B (xxx=205-265 in steps of 5)
54 cells: SR-P654xxx (xxx=185-235 in steps of 5)
54 cells: SR-P654xxx-B (xxx=185-235 in steps of 5)
48 cells: SR-P648xxx (xxx=165-210 in steps of 5)
48 cells: SR-P648xxx-B (xxx=165-210 in steps of 5)
Description: ...... : Add new frame and add new module types based on TÜV Rheinland test report.
Test Report
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File no. ............. : SHV08044/15
Certificate no. .. : 44 780 15 406749-155, 44 780 15 406749-156
Date of issue .... : 11/18/2015
Report no. ........ : 492010385.006
Module type(s) . : PV module with 6” Mono-crystalline Solar Cell:
72 cells: SR-M672xxx (xxx=255-330 in steps of 5)
72 cells: SR-M672xxx-B (xxx=255-330 in steps of 5)
60 cells: SR-M660xxx (xxx=215-275 in steps of 5)
60 cells: SR-M660xxx-B (xxx=215-275 in steps of 5)
54 cells: SR-M654xxx (xxx=205-250 in steps of 5)
54 cells: SR-M654xxx-B (xxx=205-250 in steps of 5)
48 cells: SR-M648xxx (xxx=180-220 in steps of 5)
48 cells: SR-M648xxx-B (xxx=180-220 in steps of 5)
PV module with 5” Mono-crystalline Solar Cell:
72 cells: SR-M572*** (***=160-195 in steps of 5)
72 cells: SR-M572***B (***=160-195 in steps of 5)
72 cells: SR-M572***-1 (*** =175-200 in steps of 5)
PV module with 6” Poly-crystalline Solar Cell:
60 cells: SR-P660xxx (xxx=205-265 in steps of 5)
60 cells: SR-P660xxx-B (xxx=205-265 in steps of 5)
54 cells: SR-P654xxx (xxx=185-235 in steps of 5)
54 cells: SR-P654xxx-B (xxx=185-235 in steps of 5)
48 cells: SR-P648xxx (xxx=165-210 in steps of 5)
48 cells: SR-P648xxx-B (xxx=165-210 in steps of 5)
Description: ...... : Add new frame and increase the fuse rating
File no. ............. : SHV09028/15
Certificate no. .. : Declaration
Date of issue .... : 12/21/2015
Report no. ........ : 492010385.007
Module type(s) . : PV module with 6” Poly-crystalline Solar Cell:
60 cells: SR-P660xxx (xxx=205-265 in steps of 5)
60 cells: SR-P660xxx-B (xxx=205-265 in steps of 5)
54 cells: SR-P654xxx (xxx=185-235 in steps of 5)
54 cells: SR-P654xxx-B (xxx=185-235 in steps of 5)
48 cells: SR-P648xxx (xxx=165-210 in steps of 5)
48 cells: SR-P648xxx-B (xxx=165-210 in steps of 5)
Description: ...... : Extend the 4 bus bars poly solar cell
File no. ............. : SHV12036/15
Certificate no. .. : Declaration
Date of issue .... : 03/29/2016
Test Report
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Report no. ........ : 492010385.008
Module type(s) . : PV module with 6” Poly-crystalline Solar Cell:
72 cells: SR-P672xxx (xxx=245-315 in steps of 5)
72 cells: SR-P672xxx-B (xxx=245-315 in steps of 5)
66 cells: SR-P666xxx (xxx=225-290 in steps of 5)
66 cells: SR-P666xxx-B (xxx=225-290 in steps of 5)
“B” means with black backsheet.
Description: ...... : Extend the frame for poly modules
File no. ............. : SHV03048/16
Certificate no. .. : 44 780 16 406749-125
Date of issue .... : 07/15/2016
Report no. ........ : 492010385.009
Module type(s) . : PV module with 6” Poly-crystalline Solar Cell:
72 cells: SR-P672xxx (xxx=245-355 in steps of 5)
72 cells: SR-P672xxx-B (xxx=245-355 in steps of 5)
66 cells: SR-P666xxx (xxx=225-325 in steps of 5)
66 cells: SR-P666xxx-B (xxx=225-325 in steps of 5)
60 cells: SR-P660xxx (xxx=205-295 in steps of 5)
60 cells: SR-P660xxx-B (xxx=205-295 in steps of 5)
54 cells: SR-P654xxx (xxx=185-265 in steps of 5)
54 cells: SR-P654xxx-B (xxx=185-265 in steps of 5)
48 cells: SR-P648xxx (xxx=165-235 in steps of 5)
48 cells: SR-P648xxx-B (xxx=165-235 in steps of 5)
“B” means with black backsheet.
Description: ...... : Extend the power range
File no. ............. : SHV12036/15-02
Certificate no. .. : Declaration
Date of issue .... : 07/20/2016
Report no. ........ : 492010385.010
Module type(s) . : PV module with 6” Mono-crystalline Solar Cell:
72 cells: SR-M672xxx (xxx=255-330 in steps of 5)
72 cells: SR-M672xxx-B (xxx=255-330 in steps of 5)
60 cells: SR-M660xxx (xxx=215-275 in steps of 5)
60 cells: SR-M660xxx-B (xxx=215-275 in steps of 5)
54 cells: SR-M654xxx (xxx=205-250 in steps of 5)
54 cells: SR-M654xxx-B (xxx=205-250 in steps of 5)
48 cells: SR-M648xxx (xxx=180-220 in steps of 5)
48 cells: SR-M648xxx-B (xxx=180-220 in steps of 5)
“B” means with black backsheet.
Description: ...... : Extend raw materials
Test Report
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PV-F-009 TRF 61215 61730 Page 9 of 45 Version 1.5
Supplementary information: N/A
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
PV-F-009 TRF 61215 61730 Page 10 of 45 Version 1.5
Summary of testing
According to the enquiry of the applicant, based on certificate no. 44 780 15 406749 - 155, extend to higher power for 6” mono PV modules:
PV module with 6” Mono-crystalline Solar Cell:
72 cells: SR-M672xxx (xxx=255-380 in steps of 5)
72 cells: SR-M672xxx-B (xxx=255-380 in steps of 5)
60 cells: SR-M660xxx (xxx=215-320 in steps of 5)
60 cells: SR-M660xxx-B (xxx=215-320 in steps of 5)
54 cells: SR-M654xxx (xxx=205-285 in steps of 5)
54 cells: SR-M654xxx-B (xxx=205-285 in steps of 5)
48 cells: SR-M648xxx (xxx=180-255 in steps of 5)
48 cells: SR-M648xxx-B (xxx=180-255 in steps of 5)
Module type SR-M672350 was selected as representative test samples and conducted with all the related tests.
All tests were successfully completed. The factory inspection was performed periodically. Therefore, from the result of testing, it is recommended that the mono certification should be granted.
Detailed product information are to be found in the CDF (constructional data form) in Annex 1 of this report.
Test Report
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General remarks
Test item particulars:
Accessories and detachable parts included in the evaluation ................................................................. :
N/A
Options included ....................................................... : N/A
Abbreviations used in the report:
HF - Humidity Freeze TC - Temperature Cycling
DH - Damp Heat Vmpp - Maximum power voltage
Impp - Maximum power current Voc - Open circuit voltage
Isc - Short circuit current FF - Fill factor
Pmpp - Maximum power α - Current temperature coefficient
NOCT - Nominal Operating Cell Temperature β - Voltage temperature coefficient
STC - Standard Test Conditions γ - power temperature coefficient
CTI - Comparative Tracking Index PD - Partial Discharge
Possible test case verdicts:
Test case does not apply to the test object .............. : Not Applicable (N/A)
Test object does meet the requirement .................... : Pass (P)
Test object does not meet the requirement .............. : Fail (F)
Other remarks:
The test verdicts presented in this report relate only to the object tested. This report shall not be reproduced, except in full, with the written approval of the issuing testing laboratory.
“(see Annex #)” refers to additional information appended to the report. “(see Table #)” refers to a table appended to the report.
Throughout this report, a point is used as the decimal separator.
Test Report
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General product information
Module type: SR-M672350
Product Electrical Ratings at STC:
Nominal maximum power (Pmax) [W] ...............................: 350
Nominal open circuit voltage at (Voc) [V] ..........................: 47.39
Nominal maximum power voltage (Vmpp) [V] ...................: 38.53
Nominal short circuit current at (Isc) [A] ............................: 9.63
Nominal maximum power current (Impp) [A] .....................: 9.09
Product Safety Ratings:
Maximum system voltage [V].............................................: 1000
Fuse rating [A] ...................................................................: 15
Application class ................................................................: Class A
Safety class in accordance with IEC 61140 ......................: Class II
Fire safety class .................................................................: Class C
Recommended maximum series module configurations ..: Written in installation manual
Recommended maximum parallel module configurations : Written in installation manual
Test Report
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Testing procedure
Module type: SR-M672350
Random sampling from production
Prototype submitted by client
New module type
Modifications (if yes, please choose the applicable modification according to the Retesting Guideline)
Change in cell technology
Modification to encapsulation system
Modification to superstrate
Increase in module size
Modification to backsheet/ substrate
Modification to frame and/ or mounting structure
Modification to junction box/ electrical termination
Change in cell interconnect materials or technique
Change in electrical circuit of an identical package
Higher or lower power output (by 10%) in the identical package including size and using the identical cell process
Qualification of a frameless module after the design has received certification as a framed module
Change in bypass diode or number of diodes
Others
Others
Description of similarity (differences) between the applied model and the previously tested model:
- Extend to higher power output for 6” mono PV modules
Test Report
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TEST SEQUENCE
Components Modules Module Module
H F G
Preconditioning
MST 15 Partial
Discharge Test
MST 33 Conduit
Bending Test
MST 44 Terminal Box
Knock Out Test
10.1/MST 01 Visual
Inspection
10.1/MST 01 Visual
Inspection
10.1/MST 01 Visual
Inspection
10.2 Max. Power
Determination
MST 32 Module
Breakage Test
MST 23 Fire Test
10.3/MST 16 Insulation Test /
Dielectric Withstand Test
10.15/MST 17 Wet Leakage Current Test
A B1 B2 B3 C1 C2 D1 D2 E1 E2
10.4 Measurement
of Temperature Coefficients
MST 21 Temperature
Test
MST 13 Ground
Continuity Test
MST 13 Ground
Continuity Test
MST 13 Ground
Continuity Test
MST 13 Ground
Continuity Test
10.6 Performance at STC and NOCT
MST 26 Reverse Current
Overload Test
MST 11 Accessibility
Test
MST 11 Accessibility
Test
MST 11 Accessibility
Test
MST 11 Accessibility
Test
10.7 Performance at Low Irradiance
10.5 Measurement
of NOCT
10.18/MST 25 Bypass Diode
Test
10.10/MST 54 UV
Precondition Test
10.11/MST 51a Thermal
Cycling Test 200 Cycles
10.13/MST 53 Damp Heat
Test
D2 E2
10.8 Outdoor
Exposure Test
10.9/MST 22 Hot-spot
Endurance Test
10.11/MST 51b Thermal
Cycling Test 50 Cycles
MST 12 Cut
Susceptibility Test
10.16/MST 34 Mechanical Load Test
MST 12 Cut
Susceptibility Test
10.12/MST 52 Humidity-freeze Test 10 cycles
MST 13 Ground
Continuity Test
MST 12 Cut
Susceptibility Test
C2
MST 13 Ground
Continuity Test
10.14 Robustness of Terminations
Test
MST 11 Accessibility
Test
MST 13 Ground
Continuity Test
D1
MST 11 Accessibility
Test
MST 12 Cut
Susceptibility Test
MST14 Impulse Voltage
Test
` MST 11 Accessibility
Test
E1
MST 13 Ground
Continuity Test
` 10.17 Hail Impact
Tests
MST 11 Accessibility
Test
`
10.15/MST 17
Wet Leakage Current Test
Test Report
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Module group assignment
Module type: SR-M672350
Sample # Group ID Serial number Dimension (l x w x h) [mm] Remark
1 A S6M0531611RBB0003 1956 x 992 x 40 REF
2 B3 S6M0531611RBB0006 1956 x 992 x 40 BD,HS
3 B2 S6M0531611RBB0008 1956 x 992 x 40 RC
Test Report
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Clause Requirement + Test Result - Remark Verdict
PV-F-009 TRF 61215 61730 Page 16 of 45 Version 1.5
Test result overview
4 Marking - P
- Name, monogram or symbol of manufacturer ....................................................................... :
Written on the nameplate P
- Type or model number .................................. : Written on the nameplate P
- Serial number ................................................ : Stuck on the string connectors
P
- Polarity of terminals or leads ......................... : Polarised by color P
- Maximum system voltage .............................. : 1000VDC P
- The date and place of manufacture .............. : Traceable from serial number P
- Initial examination All modules P
10 Preconditioning .............................................. : Performed by manufacturer N/A
10.1 / MST 01 Visual inspection ........................................... : See table 10.1 P
10.2 Maximum power determination ..................... : See table 10.2 P
10.3 / MST 16 Insulation test / Dielectric withstand test ....... : See table 10.3 P
10.15 / MST 17 Wet leakage current test ............................... : See table 10.15 P
Module type: SR-M672350
Group A 1 Module See Group ID A P
10.4 Measurement of temperature coefficients ..... : N/A N/A
10.6 Performance at STC and NOCT ................... : See table 10.6A -
10.7 Performance at low irradiance ...................... : N/A N/A
Group B2 1 Module Sample Group ID B2 P
MST 21 Temperature test ........................................... : N/A N/A
MST 26 Reverse current overload test ....................... : See table MST26 P
Group B3 1 Module Sample Group ID B3 P
MST 13 Ground continuity test ................................... : N/A N/A
MST 11 Accessibility test ............................................ : N/A N/A
10.18 / MST 25 Bypass diode thermal test ............................. : N/A N/A
10.9 / MST 22 Hot spot endurance test ................................ : See table 10.9B P
MST 12 Cut susceptibility test : N/A N/A
- Final measurements All modules P
10.15 / MST 17 Wet leakage current test ............................... : See table 10.15F P
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
IEC / EN 61215
Clause Requirement + Test Result - Remark Verdict
PV-F-009 TRF 61215 61730 Page 17 of 45 Version 1.5
Test results of IEC / EN 61215
Module type: SR-M672350
10.1 Visual inspection (initial) -
Test date [MM/DD/YYYY] ..................... : 01/06/2017 -
Sample # Nature and position of initial findings – comments or attach photos -
1 No visual defects P
2 No visual defects P
3 No visual defects P
Supplementary information: N/A -
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
IEC / EN 61215
Clause Requirement + Test Result - Remark Verdict
PV-F-009 TRF 61215 61730 Page 18 of 45 Version 1.5
10.2 Maximum power determination (initial) -
Test date [MM/DD/YYYY] ..................... : 01/06/2017 -
Module temperature [°C] .................... : Corrected to 25 -
Irradiance [W/m2] ................................ : Corrected to 1000 -
Sample # Voc [V] Vmpp [V] Isc [A] Impp [A] Pmpp [W] FF [%] -
1 47.75 38.32 9.62 9.13 349.7 76.17 -
2 47.75 38.35 9.62 9.12 349.9 76.18 -
3 47.72 38.36 9.63 9.12 350.1 76.19 -
Supplementary information: N/A -
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
IEC / EN 61215
Clause Requirement + Test Result - Remark Verdict
PV-F-009 TRF 61215 61730 Page 19 of 45 Version 1.5
10.3 Insulation test (initial) -
Test date [MM/DD/YYYY] ..................... : 01/06/2017 -
Test voltage applied [V] ........................ : 2 minutes of 1000 and 1 minute of 6000 -
Sample # Required [MΩ] Measured [MΩ] Dielectric breakdown? -
1 20.6 >1000 No P
2 20.6 >1000 No P
3 20.6 >1000 No P
Supplementary information: Minimum requirement according to the standard is 40MΩ·m2. Area of is 1.94m2.
-
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
IEC / EN 61215
Clause Requirement + Test Result - Remark Verdict
PV-F-009 TRF 61215 61730 Page 20 of 45 Version 1.5
10.15 Wet leakage current test (Initial) -
Test date [MM/DD/YYYY] ..................... : 01/06/2017 -
Test voltage applied [V] ........................ : 2 minutes of 1000 -
Solution resistivity [Ω·cm] / <3500 ...... : 407 P
Solution temperature [°C] / 22±3 ........ : 19.2 P
Sample # Required [MΩ] Measured [MΩ] -
1 20.6 >1000 P
2 20.6 >1000 P
3 20.6 >1000 P
Supplementary information: Minimum requirement according to the standard is 40MΩ·m2. Area of the module is 1.94m2.
-
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
IEC / EN 61215
Clause Requirement + Test Result - Remark Verdict
PV-F-009 TRF 61215 61730 Page 21 of 45 Version 1.5
10.6A Performance at STC -
Test date [MM/DD/YYYY] ..................... : 01/06/2017 -
Sample # ............................................... : 1 -
Test method .......................................... : Indoor
Outdoor
-
Irradiance [W/m2] ................................. : 1000 -
Module temperature [°C] ...................... : 25.0 -
Condition Voc [V] Vmp [V] Isc [A] Impp [A] Pmpp [W] FF [%] -
STC 47.78 38.36 9.62 9.16 350.1 76.20 -
Supplementary information: N/A -
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
IEC / EN 61215
Clause Requirement + Test Result - Remark Verdict
PV-F-009 TRF 61215 61730 Page 22 of 45 Version 1.5
10.18B Bypass diode thermal test -
Test date [MM/DD/YYYY] .................... : 01/22/2017 -
Sample #............................................. : 2 -
Module temperature [°C] .................... : 75 -
Number of diodes in junction box ....... : 3 -
Diode manufacturer ............................ : Tonglin -
Diode type designation ....................... : TL2045 -
Max. permissible junction temperature Tjmax [°C] .............................................. :
200 -
Diode # ............................................... : 1 2 3 N/A N/A N/A -
Current flow applied [A] ...................... : 9.6 -
Max. diode surface temperature [°C]a : 121.8a 124.2a 122.1a N/A N/A N/A -
Voltage drop [V] .................................. : 0.404 0.402 0.398 N/A N/A N/A -
Power dissipation [W] ......................... : 3.89 3.87 3.84 N/A N/A N/A -
Thermal resistance junction to case (RTHJC) [°C/W] .................................. :
2.5 2.5 2.5 N/A N/A N/A -
Calculated max. junction temperature Tjcalc [°C]a ..................................................................... :
131.5a 133.9a 131.7a N/A N/A N/A -
Tjcalc < Tjmax? ........................................ : Yes Yes Yes N/A N/A N/A P
Current flow (1.25 * Isc) applied [A] .... : 12.0 -
Max. diode surface temperature [°C]a . : 133.0a 128.9a 136.3a N/A N/A N/A -
Diode still work? ................................. : Yes Yes Yes N/A N/A N/A P
Supplementary information: a: measured at diode case. -
10.1 Visual inspection after bypass diode thermal test -
Test date [MM/DD/YYYY] ..................... : 01/24/2017 -
Sample # Nature and position of findings - comments or attach photos -
2 No visual defects P
Supplementary information: N/A -
10.2 Maximum power determination after bypass diode thermal test -
Test date [MM/DD/YYYY] ..................... : 01/24/2017 -
Module temperature [°C] .................... : Corrected to 25 -
Irradiance [W/m2] ................................ : Corrected to 1000 -
Sample # Voc [V] Vmpp [V] Isc [A] Impp [A] Pmpp [W] FF [%] -
2 47.72 38.32 9.59 9.11 349.0 76.29 -
Pmpp degradation after test [%] / ≤5 .. : -0.26 P
Supplementary information: N/A -
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
IEC / EN 61215
Clause Requirement + Test Result - Remark Verdict
PV-F-009 TRF 61215 61730 Page 23 of 45 Version 1.5
10.3 Insulation test after bypass diode thermal test -
Test date [MM/DD/YYYY] ..................... : 01/24/2017 -
Test voltage applied [V] ........................ : 2 minutes of 1000 and 1 minute of 6000 -
Sample # Required [MΩ] Measured [MΩ] Dielectric breakdown? -
2 20.6 >1000 No P
Supplementary information: Minimum requirement according to the standard is 40MΩ·m2. Area of the module is 1.94m2.
-
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
IEC / EN 61215
Clause Requirement + Test Result - Remark Verdict
PV-F-009 TRF 61215 61730 Page 24 of 45 Version 1.5
10.9B Hot-spot endurance test -
Test date [MM/DD/YYYY] .................... : 02/24/2017 -
Sample #............................................. : 2 -
Cell interconnection circuit.................. : S / SP / SPS -
Module temperature [°C] .................... : 51.6 -
Determination of worst case cell -
Maximum measured cell temperature in 5 cycles [°C] .................................... :
114.0 -
Shading rate: 15 -
Supplementary information: N/A -
10.1 Visual inspection after hot-spot endurance test -
Test date [MM/DD/YYYY] ..................... : 02/27/2017 -
Sample # Nature and position of findings - comments or attach photos -
2 No visual defects P
Supplementary information: N/A -
10.2 Maximum power determination after hot-spot endurance test -
Test date [MM/DD/YYYY] ..................... : 02/27/2017 -
Module temperature [°C] .................... : Corrected to 25 -
Irradiance [W/m2] ................................ : Corrected to 1000 -
Sample # Voc [V] Vmpp [V] Isc [A] Impp [A] Pmpp [W] FF [%] -
2 47.58 38.15 9.59 9.11 347.5 76.13 -
Pmpp degradation after test [%] / ≤5 .. : -0.43 P
Supplementary information: N/A -
10.3 Insulation test after hot-spot endurance test -
Test date [MM/DD/YYYY] ..................... : 02/27/2017 -
Test voltage applied [V] ........................ : 2 minutes of 1000 and 1 minute of 6000 -
Sample # Required [MΩ] Measured [MΩ] Dielectric breakdown? -
2 20.6 >1000 No P
Supplementary information: Minimum requirement according to the standard is 40MΩ·m2. Area of the module is 1.94m2.
-
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
IEC / EN 61215
Clause Requirement + Test Result - Remark Verdict
PV-F-009 TRF 61215 61730 Page 25 of 45 Version 1.5
10.2F Maximum power determination (final) -
Sample # Pmpp initial [W] Pmpp final [W] Pmpp degradation after test sequence [%] / ≤8
-
2 349.9 347.5 -0.69 P
Supplementary information: N/A -
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
IEC / EN 61215
Clause Requirement + Test Result - Remark Verdict
PV-F-009 TRF 61215 61730 Page 26 of 45 Version 1.5
10.15F Wet leakage current test (final) -
Test voltage applied [V] ........................ : 2 minutes of 1000 -
Sample # Required [MΩ] Measured [MΩ] -
2 20.6 >1000 P
Supplementary information: Minimum requirement according to the standard is 40MΩ·m2. Area of the module is 1.94m2.
-
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
IEC / EN 61730-1
Clause Requirement + Test Result - Remark Verdict
PV-F-009 TRF 61215 61730 Page 27 of 45 Version 1.5
Test results of IEC / EN 61730-1
3 Application class P
- The module(s) has/have been evaluated for the following application class (Class A, B, C):
Class A P
Supplementary information: Since there’re no constructional changes compared with the already certified module types, this part is considered as passed. Please refer to test reports as listed from 492010385.010 for detail information.
-
Remark:
Application Class as in IEC 61730-1:
- Class A: Modules rated for use in this application class may be used in systems operating at greater than 50V DC or 240W, where general contact access is anticipated. Modules qualified for safety through this part of IEC 61730 and IEC 61730-2 and within this application class are considered to meet the requirements for safety class II.
- Class B: Modules rated for use in this application class are restricted to systems protected from public access by fences, location, etc. Modules evaluated within this application class provide protection by basic insulation, are considered to meet the requirements for safety class 0.
- Class C: Modules rated for use in this application class are restricted to systems operating at less than 50V DC and 240 W, where general contact access is anticipated. Modules qualified for safety through this part of IEC 61730 and IEC 61730-2 within this application class are considered to meet the requirements for safety class III.
Application Class as in EN 61730-1:
- Class A: Modules rated for use in this application class may be used in systems operating at greater than 120V DC. Modules qualified for safety through this part of EN 61730 and EN 61730-2 within this application class are considered to meet the requirements for safety class II.
- Class B: Modules rated for use in this application class are restricted to systems protected from public access by fences, location, etc. Modules evaluated within this application class provide protection by basic insulation, are considered to meet the requirements for safety class 0.
- Class C: Modules rated for use in this application class are restricted to systems operating at less than 120V DC. Modules qualified for safety through this part of EN 61730 and EN 61730-2 within this application class are considered to meet the requirements for safety class III.
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
IEC / EN 61730-2
Clause Requirement + Test Result - Remark Verdict
PV-F-009 TRF 61215 61730 Page 28 of 45 Version 1.5
Test results of IEC / EN 61730-2
Module type: SR-M672350
MST26 Reverse current overload test -
Maximum over-current protection rating [A] ........ : 20 -
Applied current [A] ............................................... : 27 -
Applied voltage [V] / high - low ............................ : 58.66 - 51.21 -
Test duration [h] ................................................... : 2 -
Sample # Nature and position of findings - Comments or attach photos -
3 No flaming of the module
No flaming or charring of the cheesecloth
No flaming of the tissue paper
MST 17 requirements fulfilled (see table MST17)
P
Supplementary information: N/A -
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
IEC / EN 61730-2
Clause Requirement + Test Result - Remark Verdict
PV-F-009 TRF 61215 61730 Page 29 of 45 Version 1.5
MST17 Wet leakage current test -
Maximum system voltage [V]............................... : 1000 -
Test voltage applied [V] ....................................... : 1000 -
Minimum allowable insulation resistance [MΩ] ... : 20.6 -
Sample # Position in test sequence Resistance [MΩ] -
3 Initial examination >1000 P
Preconditioning:
MST 26
- -
Final examination >1000 P
Supplementary information: Minimum requirement according to the standard is 40MΩ·m2. Area of the module is 1.94m2.
-
Test Report
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Annex 1: Constructional Data Form (CDF)
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Annex 2: List of measurement equipment
Test clause Equipment Identification Next calibration date
10.1/MST01 Irradiance Illuminometer OI20-02 05/10/2017
10.2
10.4
10.6
10.7
Pulsed solar simulator EV20-53 03/29/2017
Data Acquisition Unit TT21-56 08/09/2017
10.3/MST16
10.15/MST17
Withstanding voltage / Insulation resistance tester
EV21-56 09/03/2017
10.9/MST22
MST21
Pulsed solar simulator TT20-19 06/13/2017
BBB Steady-State Light Source ES21-24 04/11/2017
Temperature tester TT21-03 07/01/2017
10.18
MST26
Power supply ES20-11 11/03/2017
Temperature tester TT21-03 07/01/2017
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
PV-F-009 TRF 61215 61730 Page 43 of 45 Version 1.5
Annex 3: Statement of the estimated uncertainty of the test results
The total measuring uncertainty of Pmpp is ≤ 2.8%
The total measuring uncertainty of Isc is ≤ 2.6%
The total measuring uncertainty of Voc is ≤ 0.7%
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
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Annex 4: Photos
Module type: SR-M672350
Front overview Back overview
Label Solar cell
Frame Grounding Mark
Test Report
File No.: SHV11085/16-01 Test Report No.: 492010385.011
PV-F-009 TRF 61215 61730 Page 45 of 45 Version 1.5
Junction box (TL-BOX026-15ENP) Junction box (opened)
N/A
Bypass diode (junction box with potting material) Cable (PV1-F 1x4.0mm2)
Mark (Do not disconnect under load) Connectors (TL-CABLE01S)
---------- End of test report ----------