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1. Page 37 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark measurement of the phase to neutral voltage 1 Phase to neutral voltage L N lue 2 Phase to neutral voltage L N fone 3 Phase to neutral voltage L N i Min phase to neutral 230 230 0 52 230 230 0 52 230 230 O C1 NO J Co C NO voltage L N V Max deviation 96 185 2 0 52 184 8 230 0 35 1 Phase to neutral voltage L2 N Eon 2 Phase to neutral voltage L2 N Eod 3 Phase to neutral voltage L2 N iu 184 8 230 0 35 184 8 230 0 35 Min phase to neutral voltage L2 N V 184 8 0 35 Max deviation 1 Phase to neutral voltage L3 N d 2 Phase to neutral voltage L3 N Esg 3 Phase to neutral voltage L3 N i Min phase to neutral 230 185 6 0 70 230 185 6 0 70 230 185 5 0 65 voltage L3 N V Max deviation 185 6 0 70 measurement of the phase to phase voltage 1 Phase to phase i l voltage L1 L2 320 1 207 L2 N 207 L3 N 0 03 2 Phase to phase i voltage L1 L2 320 1 207 L2 N 207 L3 N 0 03 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 38 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark 3 Phase to phase i voltage L1 L2 320 1 207 L2 N 207 L3 N 0 03 Min phase to phase voltage L1 L2 V2. Test Measuring result Remark x WED AUG 27 16 27 29 2014 4 516 AX 5160 T7AX 193000 AVI 00A 424 3 o o Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 92 of 99 Report Reference No 70 409 14 130 01 00 Requirement Test Measuring result Remark 2 464 WED AUG 27 16 11 Product Service 22 2014 WED AUG 27 16 04 a 1 o o 498 23 2014 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 93 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark WED AUG 27 15 12 52 2014 0 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 o o 210 Tuv Page 94 of 99 Report Reference No 70 409 14 130 01 00 Requirement Test Measuring result Remark 2 2 8 WED AUG 27 15 33 Product Service 21 2014 3 448 WED AUG 27 15 44 u 23 2014 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 95 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark WED AUG 27 15 52 42 2014 4 476 5 356 TABLE Array insulation resistance detection for inverters for ungrounded and functionally grounded array
3. 460 3 o o Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 70 of 99 Report Reference No 70 409 14 130 01 00 Requirement Test Measuring result Remark 2 412 THU AUG 28 16 20 Product Service 97 2014 THU AUG 28 14 26 3 1 o o 404 34 2014 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 71 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark mr Agilent Technologies THU AUG 28 13 44 31 2014 0 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 72 of 99 Report Reference No 70 409 14 130 01 00 Requirement Test Measuring result Remark J E 2 432 A Agilent Technologies THU AUG 28 13 55 Product Service 44 2014 3 352 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 73 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark B THU AUG 28 14 09 28 2014 H 496 444 E UIUEE IE YT 15625A AY 6250A p 100 a B 500A G sxs 1007 1 000s fir F Bj 203 5 306 Y 375A Y 15 625 AY BD50A Power output level Iteration Phase L3 N 5094 Balance condition P 4170W
4. Isc PV 27 20 Adc GW10K DT GW12K DT 27 27 Adc GW15K DT GW17K DT GW20K DT 32 32 Adc GW25K DT AC output Rated grid voltage 3 N PE 400 230V Rated grid frequency 50Hz Max output current 17 Aac GW10K DT 19 Aac GW12K DT 25 Aac GW15K DT GW17K DT 30 Aac GW20K DT 37 Aac GW25K DT Rated AC power 10 kW GW10K DT 12 kW GW12K DT 15 kW GW15K DT 17 kW GW17K DT 20 kW GW20K DT 25 kW GW25K DT Power factor range 1 nominal power adj 0 9cap 0 9ind Operating temperature range 25 60 C Manufacturer eesessssss JIANGSU GOODWE POWER SUPPLYTECHNOLOGY CO LTD Manufacturer number N A Address Lu uu No 189 Kun Lun Shan Road Suzhou New District 215163 Suzhou Jiangsu PEOPLE S REPUBLIC OF CHINA Sub contractors tests clause l NaMe cccececcccececcccecsccccecsuceecauaueecavans Order description l E Toompere siaa orae O C Paria es according to manufacturers speciicatons CEC 000000000 Blam SSCS C Date of order ee 2014 08 21 Date of receipt of test item 2014 08 21 Date s of performance of test 2014 08 23 2014 10 03 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 3 of 99 Report Reference No 70 409 14 130 01 00 Product Service Test item particulars All the tests res
5. Product Service Requirement Test Measuring result Remark FRI AUG 29 15 23 59 2014 5 J E 4 i AX 2080 ZAK 480770 AY 2 00A X Ag i FRI AUG 29 15 18 02 2014 EE EASTER TA Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 53 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark FRI AUG 29 15 12 27 2014 3 B Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 o o 112 Tuv Page 54 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark FRI AUG 29 15 00 28 2014 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 55 of 99 Report Reference No 70 409 14 130 01 00 Requirement Test Measuring result Remark J E 196 A Agilent Technologies FRI AUG 29 14 30 Product Service 00 2014 4 296 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Clause 3 Page 56 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark FRI AUG 29 14 43 52 2014 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Report Reference No 70 409 14 130
6. 1 1 489 J d 190 6 amp 0 7 10 6 amp 0 99 18 60 6 18 6 amp 6 9 ds Setting 100mA 220ms PV2 to N Limit mA EN Limit ms Disconnection time ms Setting 24mA 120ms Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Page 99 of 99 Report Reference No 70 409 14 130 01 00 T Product Service Requirement Test Measuring result Remark 126 Setting 48mA 80ms The capacitive current is risen until disconnection Test condition Ic 30 60 150mA lt Icmax H1 is set that 30 60 150mA Flow and switch S is closed Supplementary information PV1 and PV2 used common PV Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV
7. PO The disconnection due to a voltage increase must comply with VDE AR N 4105 2011 08 6 5 1 and 6 5 2 4 3 3 Slow voltage increase U gt U 440 253V 99min OP The disconnection due to a slow voltage increase 10 minute mean value must comply with VDE AR N 4105 2011 08 6 5 1 and 6 5 2 4 4 Frequency monitoring f 51 5Hz f 47 5Hz PO The disconnection due to a freguency decrease or a freguency increase must comply with VDE AR N 4105 2011 08 6 5 1 und 6 5 2 A DC current feed into the low voltage network due to a disorder system operation must activate the disconnection within 0 2s For this the disorder itself or a measured DC component of Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Report Reference No 70 409 14 130 01 00 T Page 17 of 99 Product Service Requirement Test Measuring result Remark current of more than 1A can be regarded as disconnection criterion 4 6 Detection of islanding operation Detection of islanding setting 200ms limit 5s The disconnection due to the detection of a unintended islanding operation must comply with VDE AR N 4105 2011 08 6 5 1 and 6 5 3 wr o wm O 0 A generation with automatic disconnection device must include with visible specification VDE 0126 1 1 It can be done through Rating plate or o P 4 8 Requirement for the integrated disconnection device in photovoltaic converter The requir
8. Unit disconnect immediately from the grid The inverter keeps restart state No hazard no defect Unit disconnect immediately from the grid Error message GFCI failure No hazard no defect Unit disconnect immediately from the grid Error message Ground I failure failure No hazard no defect Unit disconnect immediately from the grid Error message 10min 10min 10min 10min 10min 10min GFCI failure No hazard no defect Unit disconnect immediately from the grid Error message Ground I failure No hazard no defect Unit disconnect immediately from the grid Error message SPI failure No hazard no defect Unit disconnect immediately from the grid Error message SPI failure No hazard no defect 10min 10min 10min DIN VDE 0126 1 1 VDE V 0126 1 1 2013 gt TUV Page 30 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark Note 1 Single fault tests were carried out on model GW25K DT because the electric circuit and assembling for other models are same to GW25K DT Note 2 All single fault tests were carried out by a 30A non time delay fuse connected between the protective earthing terminal and the protective earthing conductor in the test setup which had not opened during the tests All single fault tests were conducted with the AC output protected by external circuit breaker provided in all live connections to th
9. component was damaged No hazard appears Output L2 to Short MAINS 400 10 min The external circuit breaker N G PV 640 operated Unit shutdown Inverter shows utility lost No component was damaged No hazard appears Inverter shows utility lost No Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Page 20 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark Output L3 to Short MAINS 400 N G PV 640 5 The external circuit breaker operated Unit shutdown Inverter shows utility lost No component was damaged No hazard appears Max output fault current peak and duration 38 5A 5 7ms The external circuit breaker operated Unit shutdown Inverter shows utility lost No component was damaged No hazard appears Max output fault current peak and duration 81 5A 27ms 10min The inverter in standby operation mode after several minutes the PCS shut down all grids relays disconnected No backfeed current and voltage observed in PV side from mains No components damaged no hazard 10 min 10 min L1 amp L2 amp L3 short MAINS 400 PV 640 de DC to DC MAINS 400 energized PV 640 With diode in boost circuit shorted de MAINS 400 energized PV 640 with one group of relays contacts shorted de MAINS 400 energized PV 640 software fault relay control to
10. 16 16 16 current direction negative L1 N L1 N current direction negative current direction negative 66 TABLE Islanding detection mE Rated Frequency Hz Rated Voltage Vac 400 230Vac PGU nominal active 25 000 W power W lteration Power output level Phase L1 N Balance condition P 8340W Q 219090VA Oc 19160VA Pownz67VA Q 2 29 Disconnecting time ms Oscilloscope recorded waveforms 2 9 8 4 8 5 8 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 46 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark XE Agilent Technologies FRI AUG 29 15 21 22 2014 2 E 5 184 4 138 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 47 of 99 Report Reference No 70 409 14 130 01 00 Requirement Test Measuring result Remark 3 166 FRI AUG 29 15 10 Product Service 39 2014 2 230 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 48 of 99 Report Reference No 70 409 14 130 01 00 Requirement Test Measuring result Remark 1 378 FRI AUG 29 14 58 Product Service 31 2014 0 200 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Clause 196 4 296 Page 49 of 99 Report Refere
11. Return to 250 7V minutes 250 7V Undervoltage setp change from 230V to 4s 181 7V 181 7V within 1 2 cycle L1 N setp change l Power rise curve lt 10 PEmax Reconnection 62s Power rise curve lt 10 PEmax Not occured Reconnection 62s 197 8V Undervoltage setp change from 230V to 4s 181 7V N A 181 7V within v2 cycle setp change Power rise curve lt 10 PEmax from 193 2V to V 120s 190 9V Not occured within cycle 120s410 Heturn to 197 8V minutes Reconnection 62s 197 8V Undervoltage setp change L3 N from 230V to 4s 181 7V N A Power rise curve lt 10 PEmax 181 7V within 1 2 cycle Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 from 190 9V to V 120s 190 9V within cycle 120s410 Heturn to 197 8V minutes Tuv Page 33 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark setp change from 193 2V to V 450s 190 9V_ Not occured within cycle Return to 197 8V minutes Reconnection 62s Short time interruption Transient program lteration Disconnect time ms Reconnection time s fluctuation short time under voltage 2s 1 L1 N lt 200ms fluctuation 0 2s Short time under voltage 4s 1 L1 N 200ms fluctuation 0O 6 3 TABLE Voltage monitoring Rise in voltage protection U gt gt lteration Measured voltage V d
12. closed DC source with one MAINS 400 10min 10min The inverter in standby operation mode after several minutes the PCS shut down another group of relays disconnected No backfeed current and voltage observed in PV side from mains No components damaged no hazard The inverter in standby operation mode after several minutes the PCS shut down No backfeed current and voltage observed in PV side from mains No components damaged no hazard The inverter in standby 10min disconnecte group of PV 640 operation mode after several d relays minutes the PCS shut down contacts another group of relays shorted disconnected No backfeed current and voltage observed in PV side from mains No components damaged no hazard Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 21 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark with one MAINS 400 10min Inverter cut off for immediately outage loss group of PV 640 due to islanding detection No relays backfeed voltage observed contacts onto Mains side from PV shorted No output no power feed into grid No components damaged no hazard Inverter shows utility lost j with one MAINS 400 10min Inverter cut off for immediately outage loss group of PV 640 due to islanding detection No relays backfeed voltage observed contacts onto Mains side from
13. was damaged No hazards Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Page 25 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark 32 Output Open MAINS 400 120min BOOST PV 640 NTC NTC1 00 35 Keep inverter running under 60 C ambient temp until the inverter thermal become stable Open the NTC under Boost MOSFET Inverter runs normally input and output no obviously change The thermal keeps stable Inverter work normally input and output no obviously change No component was damaged R437 L Short MAINS 400 10min sampling R PV 640 before RY400 R436 L Short MAINS 400 10min sampling R PV 640 before RY401 Inverter work normally input and output no obviously change No component was damaged Unit does not start up Error message Relay Check failure No hazard no damage Unit does not start up Error message Relay Check failure No hazard no damage Unit does not start up Error message Relay Check failure No hazard no damage Unit does not start up Error message Relay Check failure No hazard no damage Unit does not start up Error message Relay Check failure No hazard no damage Unit does not start up Error message Relay Check failure No hazard no damage Unit does not start up Error message Relay Check failure No hazard no damage The inverter can t star
14. 01 00 i Page 57 of 99 Product Service Requirement Test Measuring result Remark Do Agilent Technologies FRI AUG 29 14 54 17 2014 g H 576 50 Reconnection time and power rise gradient after loss of mains Same as above Power output level Iteration Phase L3 N 100 5 248 AX 248 T A Ni JA Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 58 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark B FRI AUG 29 15 19 40 2014 496 116 AX 1160 TAX 862070 AVI 00A 92 3 o o x lt urs 4o n um Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 59 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark FRI AUG 29 15 09 00 2014 H Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 60 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark FRI AUG 29 14 22 15 2014 0 166 1 AX 1 233 1 A Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 o o Tuv Page 61 of 99 Report Reference No 70 409 14 130 01 00 Requirement Test Measuring result Remark 2
15. 100 VDE V 0124 100 2012 07 5 4 5 4 The test of disconnection due to current feed Method a used in is done optionally according to a or b In the measurement device of disconnection device e g current transducer resistor a DC current of 1A is impressed The disconnection must be done within 0 2s Through fault simulation and by means of measurement it is determined whether a disordered system operation with a DC component of feed in current of more than 1A will lead to disconnection within 0 2s Detection of island operation The test on disconnection due to unintended islanding operation shall comply with DIN VDE V 0124 100 VDE V 0124 100 2012 07 5 4 6 Production test Before shipment of automatic disconnection See manufacturer s work N A device each manufacturer shall undertake the instruction for routine test production test in sense of safety related parameter Installation specifications Initial and repeated test of automatic disconnection device besides the production test can be waived If the automatic disconnection device is installed as independent device it shall not used in TN C system It is accepted for TN C S system in the case Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 19 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark TABLE functional safety fault condi
16. 400 10min Boost Main PV 640 FET Inverter work normally no component was damaged No hazards Inverter shut down immediately Q106 was damaged No hazards Inverter worked normally input and output no obvious changes no component was damaged No hazards Inverter runs at full load normally Input and output no obviously change No component was damaged Inverter worked normally input and output no obvious changes no component was damaged No hazards Inverter shut down immediately U301 damaged No hazard appears Inverter shut down immediately U301 damaged No hazard appears Inverter worked normally input and output no obvious changes no component was damaged No hazards Inverter shut down immediately U301 damaged No hazard appears Inverter shut down immediately LCD showed DCI Q106 G D Short MAINS 400 10min PV 640 Q106 D S Short MAINS 400 10min PV 640 MAINS 400 10min Boost ZVT PV 640 capacitor MAINS 400 10min PV 640 U301 Short MAINS 400 10min Pin15 Pin18 PV 640 U301 Short MAINS 400 10min Pin15 Pin17 PV 640 U301 Short MAINS 400 10min Pin19 Pin18 PV 640 U301 Short MAINS 400 10min Pin15 Pin19 PV 640 U301 Short MAINS 400 10min Pin12 Pin13 PV 640 U301 Short MAINS 400 10min Pin9 Pin8 PV 640 U301 Short MAINS 400 10min Pin18 Pin13 PV 640 fault No component damaged No hazards Inverter shut down immediately U301 damaged No h
17. 640 coupler Pin3 Pin5 26 U5 pint to Short MAINS 400 10min pin2 PV 640 U5 pint Open MAINS 400 10min ne D103 Short MAINS 400 10min Primary PV 640 side of TX101 D102 MAINS 400 Secondary PV 640 side of TX101 10min Inverter worked normally input and output no obvious changes no component was damaged No hazards Inverter worked normally input and output no obvious changes no component was damaged No hazards Inverter worked normally input and output no obvious changes no component was damaged No hazards Inverter worked normally input and output no obvious changes no component was damaged No hazards Inverter shut down immediately No component was damaged No hazards Inverter shut down immediately No component was damaged No hazards Inverter worked normally input and output no obvious changes no component was damaged No hazards Inverter shut down immediately No component was damaged No hazard appears 10min 10min 10min 2 10min Inverter shut down immediately Uoc 5V 1sc 0 25A 10min 29 COMM Short MAINS 400 insulation PV 640 transformer TX101 pin 9 to pin 10 Main CPU Short MAINS 400 U401 Pin8 PV 640 4 to Pin3 3 3V to gnd Slave Short MAINS 400 CPU U501 PV 640 Pin36 to Pin21 3 3V to gnd 30 10min Inverter shut down immediately No component was damaged No hazards 3 10min Inverter shut down immediately No component
18. L3 ms He Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Page 40 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark Rise in voltage protection U gt Overvoltage protection according to DIN EN 50160 2011 02 Total disconnect Test program lteration time s relay trip Reconnection time 260s time ms ur 9 1 Phase L1 N 585s lt 200ms see connection conditions and synchronisation Fd i 1 Phase L2 N 567s lt 200ms See connection conditions and synchronisation pina 2 1 Phase L3 N 578s lt 200ms See connection conditions and synchronisation 600s Un to 600s Un to 600s Un to or ie 1 Phase L1 N 275s lt 200ms See connection conditions and synchronisation ere ar pun 1 Phase L2 N 278s lt 200ms see connection conditions and synchronisation ur nen 1 Phase L3 N 269s lt 200ms oee connection conditions and synchronisation Remark The switch off time for the test c may vary due to tolerances of the accuracy of measuring the voltage of the NS protection A switch off between 225 s and 375 s after the voltage jump at time within limit deviation 196 Un is the allowed Undervoltage monitoring tolerance verification Disconnect time Transient program Iteration ms Oscilloscope recorded waveforms N A if Trip did Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 41 of 99 TO
19. damage Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Report Reference No 70 409 14 130 01 00 Requirement Test Clause Grid voltage monitoring for S phase R459 Grid voltage monitoring for S phase R460 Grid voltage monitoring for S phase R460 Grid voltage monitoring for T phase R521 Grid voltage monitoring for T phase R522 Grid voltage monitoring for T phase R522 Grid voltage monitoring MAINS 400 PV 640 Open Open MAINS 400 PV 640 Short MAINS 400 PV 640 Open MAINS 400 PV 640 Open MAINS 400 PV 640 Short MAINS 400 PV 640 Open MAINS 400 PV 640 Short MAINS 400 PV 640 Open MAINS 400 PV 640 Open MAINS 400 PV 640 short MAINS 400 PV 640 Pin3 GND MAINS 400 short PV 640 Short MAINS 400 PV 640 for N phase H461 Grid voltage monitoring for N phase H464 Grid voltage monitoring H462 Grid voltage monitoring H150 Grid voltage monitoring C125 Grid voltage monitoring U101A Frequency monitoring C115 Page 27 of 99 Product Service Measuring result Remark Unit disconnect immediately from the grid Error message Consistent failure No hazard no damage Unit disconnect immediately from the grid Error message Vac failure No hazard no damage Unit disconnect immediately from the grid Error message Vac failure No hazard no damage Unit disconnect immediately
20. from the grid Error message Consistent failure No hazard no damage Unit disconnect immediately from the grid Error message Vac failure No hazard no damage Unit disconnect immediately from the grid Error message Vac failure No hazard no damage Unit disconnect immediately from the grid Error message Consistent failure No hazard no damage Unit disconnect immediately from the grid Error message Vac failure No hazard no damage Unit disconnect immediately from the grid Error message Consistent failure No hazard no damage Unit disconnect immediately from the grid Error message Vac failure No hazard no damage Unit disconnect immediately from the grid Error message Consistent failure No hazard no damage Unit disconnect immediately from the grid Error message Utility loss No hazard no damage Unit disconnect immediately from the grid Error message Fac failure No hazard no damage 10min 10min 10min 10min 10min 10min 10min 10min 10min 10min 10min 10min 10min Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Report Reference No 70 409 14 130 01 00 Requirement Test MAINS 400 Frequency monitoring H120 Frequency monitoring C311 Grid voltage monitoring H268 Grid voltage monitoring C114 Grid voltage monitoring Frequency monitoring C113 Frequency monitori
21. 00mA for output power lt 30 kVA Fault Current 10mA per kVA for output power gt maximum 300mA for inverters with continuous output power rating lt 30 kVA maximum 10mA per kVA of rated continuous output power for inverters with continuous output power rating gt 30 kVA This test shall be repeated 5 times and for all 5 tests the time to disconnect shall not exceed 0 3s The test is repeated for each PV input terminal It is not required to test all PV input terminals if analysis of the design indicates that one or more terminals can be expected to have the same result for example where multiple PV string inputs are in parallel Supplementary information PV1 and PV2 used common PV Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Page 98 of 99 Report Reference No 70 409 14 130 01 00 Product Service Clause Requirement Test Measuring result Remark Verdict 43353 nue testordstectonotsutdenchangesinrestualcuren P PV1 to N _ UN Limit gud Disconnection time ms ms Setting 24mA 120ms 30 Setting 48mA 80ms 60 9 foa J d 190 60 9 9 q 100 190 60 1 1 89 H 4J LJZ d 190 60 J J 10 J J 190 60 1 2906 A4 190 Setting 100mA 20ms lt lt UN Limit sis ud Disconnection time ms ms 30 98 30 Setting 48mA 80ms 60
22. 09 14 130 01 00 GOODWE your solar engine TYPE GW20K DT Max PV generator power PV voltage range Vmax PV Isc PV Rated DC voltage MPPT voltage range Max DC current Rated grid voltage Max output current AC grid frequency Rated AC power Power factor range Operating temperature range AC overvoltage category DC overvoltage category IP degree Protective class Grid connected standard VDE AR N 4105 20500W 290 1000Va 1000Va c 27 21 Aa 640Va 260 850Va 22 22Aa c 3 N PE 400 230V 30Aac 50Hz 20kW 1 Nominal power 0 9cap 0 9ind 25 60 C Derating at 45 Category lll Category IP65 Class VDE0126 1 1 MEA amp PEA EN50438 AS4777 2 3 G59 3 NRS097 2 1 ERDF NOI RES 13E Page 6 of 99 e Product Service Gooowe your solar engine TYPE GW25K DT Max PV generator power PV voltage range Vmax PV Isc PV Rated DC voltage MPPT voltage range Max DC current Rated grid voltage Max output current AC grid frequency Max AC apparent power Power factor range Operating temperature range AC overvoltage category DC overvoltage category IP degree Protective class Grid connected standard VDE AR N 4105 VDE0126 1 1 G59 3 25800W 250 1000Va c 1000Va c 32 32Adc 640Va 260 850Vac 27 27 Adc 3 N PE 400 230V 37Aac 50Hz 25kW 1 Nominal power 0 9cap 0 9ind 25 60 C Derating at 45 Category III Categ
23. 2013 TUV Page 15 of 99 Report Reference No 70 409 14 130 01 00 Product Service Clause Requirement Test Measuring result Remark Verdict The following requirements applied to integrated Integrated safety and separated safety disconnect device disconnecting device The disconnection device must disconnect the Inverter does not have internal generator unit from the grid on the AC side with isolated transformer between two switches in series due to the mains and PV circuit 6 pieces VDE approved solar AC relays used each two in series for all current carrying conductors When the contacts fault applied to one relay contact ot one control circuit for two relays alarm an error code in display panel when first initial start up or reconnection also refer to functional safety technical report Voltage and or frequency change of low voltage network DC current feed in into the low voltage network Unintended island operation and Intended island operation with standby network generator Functional safety Fulfil with the reguirements of single fault condition for the purpose of functional safety concept of this standard together with IEC EN 62109 1 2010 annex B programmable equipment and IEC EN 62109 2 201 1 Ix The safety of the functions of automatic disconnection device defined in 4 3 to 4 6 and 4 8 if applicable shall be ensured under all operation conditions It can be instal
24. 360 THU AUG 28 14 04 Product Service 18 2014 4 380 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 79 of 99 Report Reference No 70 409 14 130 01 00 i Product Service Requirement Test Measuring result Remark Iteration THU AUG 28 14 21 09 2014 5 124 Power output level Phase L1 N 259 Balance condition P 2090W Qj 24510VA Oc 4620VA Pown 104VA O 2 19 Disconnecting Oscilloscope recorded waveforms time ms He Agilent Technologies WED AUG 27 16 29 29 2014 g Osc parameter 5 364 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 80 of 99 Report Reference No 70 409 14 130 01 00 Requirement Test Measuring result Remark 2 4 4 280 mr Agilent Technologies WED AUG 27 16 22 Product Service 44 2014 3 o o 464 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 81 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark A Agilent Technologies WED AUG 27 16 06 02 2014 2 2 7 a 196 AX 38 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 82 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuri
25. 414 FRI AUG 29 14 39 Product Service 50 2014 3 94 AX 94 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Report Reference No 70 409 14 130 01 00 i Page 62 of 99 Product Service Requirement Test Measuring result Remark FRI AUG 29 14 50 58 2014 4 92 5 62 Reconnection time and power rise gradient after loss of mains Same as above Iteration Phase L1 N Power output level 50 Balance condition P 4170W OL 9300VA Ocz9380VA Pawr 83VA Q 2 24 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 63 of 99 o Report Reference No 70 409 14 130 01 00 Product Service Clause Requirement Test Measuring result Remark Disconnectin l Osc parameter time ms 9 Oscilloscope recorded waveforms THU AUG 28 16 44 26 2014 o o o 310 x THU AUG 28 16 36 41 2014 4 394 AX 3340 Villy 15 6250 YA 318750 AY 3 125A Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 64 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark THU AUG 28 16 30 16 2014 3 i E a Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 65 of 99 Report Reference No 70 409 14 130 01 00 Product S
26. 6 10 section mm All type of PV inverters with operating time of the type C circuit breaker or fuse is less than 5 seconds wire installation method B2 according to EN 60204 1 2006 annex D cable in conduit cable trunking system Maybe use HO7RN F cord designation 60245 IEC 66 for an ambient temperature of up to 40 C or less and use 90 C rough cable for ambient temperature between 40 C and 60 C If any higher temperature environment used or for decrease the power loss in wire runway it shall increase the conductor current carrying capacity and recalculation 4 Maximum inverter backfeed current form grid to the array is OA based on test circuit topology analysis and manufacturer s declaration And due to design more than three strings can be connected to inverter so backfeed current can form others strings to the fault string when short circuit occurs PV fuse need to be installed in end system according to system requirement based on solar irradiation local temperature and environment e g ratings 1000V 1 5lsc 5 Serial RS485 are used for telecommunication interface ports with circuitry intended for connection to a Network Environment O per manufacturer s instruction manual according to IEC TR 62102 HS 485 circuit is classed to be as SELV Only PELV or SELV voltages may be connected at RS 485 terminals 6 The inverter is intended to be used with appropriate PV generator switchgear SPDs combiner feeder box distribution boa
27. 99 NRS097 2 1 VDE0126 1 1 r IEC62109 2 EN50438 IEC62109 2 MEA PEA RD1699 ERDF NOIRES 13E MEA PEA RD1699 ERDF NOI RES 13E ERDF NOI RES_13E Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 10 of 99 y Report Reference No 70 409 14 130 01 00 Product Service Moe GWO9K DT GWI10K DT GW12K DT GWISKDI GW17K DT GW20K DT GW25K DT Safety IEC62109 1 amp 2 AS3100 EMC EN 61000 6 1 EN 61000 6 2 EN 61000 6 3 EN 61000 6 4 EN 61000 3 11 EN 61000 3 12 General Data Dimensions WxHxD 516 650 203mm Weight kg 39 39 39 Mounting Wall bracket Ambient temperature range 25 60 C gt 45 C derating Relative humidity 0 95 Moisture location category 4K4H Max operating altitude 2000m Protection degree IP65 Environment category Outdoor amp indoor External environment pollution degree Grade1 2 3 Topology Transformerless Night power consumption W lt 1 Cooling Natural Convection Noise emision dB lt 45 Display 5 0 LCD Communication USB2 0 RS485 or WiFi Standard warranty years 5 10 15 20 25 optional Characteristic data Factory JIANGSU GOODWE POWER SUPPLYTECHNOLOGY CO LTD No 189 Kun Lun Shan Road Suzhou New District 215163 Suzhou Jiangsu PEOPLE S REPUBLIC OF CHINA Purpose of the product These devices are transformer less grid connected PV inverters which converts direct current optimized by photovoltaic DC conditioner to alternating c
28. AU 0 WD NO IGBT IGBT 5103 D10 on 3 Di neo rea noe ag a UG ENS 390uF 500 390uF 500 390uF 500 390uF 500 390uF 500 390uF 500 V 4pcs or V 4pcs V 4pcs V 4pcs V 4pcs V 4pcs 40uF 1100 Input Filter Input Filter Cap Cap Mode Uad O100 1200V 40 1200V 40 1200V 40 1200V 40 1200V 40 1200V 40 O101 A A A A A A O105 1200V 25 1200V 25 1200V 40 1200V 40 1200V 40 1200V 40 ai Q106 A A A A A A MOSFET 1200V 18 D112 NC NC 1200V 75 1200V 75 1200V 75 A A A A in parallel Inverter 620W 620W 200W 200W 150W 100W CUMETI sampling resistor PV input Number of connector 4 4 impul in parallel connector groups ggg r terno wern BR Common 141 11005 141 11005 141 11005 141 11005 141 11005 Common choke 141 11007 Choke Extemal Total Clamping Diode Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 12 of 99 Report Reference No 70 409 14 130 01 00 Product Service 200 40 1 Hv Eh i mov wore Inverter Inverter Vocal EU as Tav 90 600V 50A 600V 50A 600V 50A 600V 50A Module sovs sovs Remark NC not EMEN The components DC switch is optional for all models with or without it see specification and user manual An external isolating mean should be provided on the DC side if inverter without integrated DC switch but the parameter of DC switch should not be degraded The opening
29. AX 480 0 VAN 2 0833 0 0A Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 87 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark WED AUG 27 16 02 43 2014 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 88 of 99 Report Reference No 70 409 14 130 01 00 Requirement Test Measuring result Remark 1 432 WED AUG 27 15 17 Product Service 09 2014 2 494 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 89 of 99 Report Reference No 70 409 14 130 01 00 Requirement Test Measuring result Remark 3 526 WED AUG 27 15 40 Product Service 00 2014 4 482 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Report Reference No 70 409 14 130 01 00 i Page 90 of 99 Product Service Requirement Test Measuring result Remark WED AUG 27 15 56 20 2014 5 396 lteration Power output level Phase L3 N 25 Balance condition P 2090W Q 24530VA Oc 4630VA Pown z104VA O 2 19 WED AUG 27 16 36 11 2014 5 418 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 91 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement
30. Max deviation 320 1 0 03 1 Phase to phase i voltage L1 L3 207 L1 N 207 L2 N 321 2 40 30 2 Phase to phase i voltage L1 L3 207 L1 N 207 L2 N 321 2 40 30 3 Phase to phase i i voltage L1 L3 207 L1 N 207 L2 N 321 2 0 30 Min phase to phase voltage L1 L3 V Max deviation 321 2 0 30 1 Phase to phase voltage L2 L3 207 L1 N 320 7 207 L3 N 0 18 2 Phase to phase i voltage L2 L3 207 L1 N 320 7 207 L3 N 0 18 3 Phase to phase i voltage L2 L3 207 L1 N 320 7 207 L3 N 0 18 Min phase to phase voltage L2 L3 V 320 7 0 18 Max deviation lteration break time ms 1 Phase L1 N 172 2 Phase L1 N 178 3 Phase L1 N 171 Max break time L1 Nims 178 1 Phase L2 N 170 2 Phase L2 N 182 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 39 of 99 Report Reference No 70 409 14 130 01 00 Product Service Clause Requirement Test Measuring result Remark 3 Phase L2 N 184 Max break time L2 Nims 184 1 Phase L3 N 180 175 3 Phase L3 N 169 ix U a Co on D i z Max break time L3 Nims 180 1 Phase L1 L2 174 2 Phase L1 L2 18 3 Phase L1 L2 175 Max break time L1 L2 ms en 1 Phase L1 L3 176 2 Phase L1 L3 170 3 Phase L1 L3 173 Max break time L1 L3 ms ue 1 Phase L2 L3 174 2 Phase L2 L3 176 3 Phase L2 L3 179 Max break time L2
31. PV shorted No output no power feed into grid No components damaged no hazard Inverter shows utility lost PV 640 operation which feed power into grid 7 MAINS 400 10min Inverter worked normally input PV 640 and output no obvious changes no component was damaged No hazards MAINS 400 10min Inverter worked normally input PV 640 and output no obvious changes no component was damaged No hazards D100 Short MAINS 400 10min Inverter shut down PV 640 immediately No component was damaged No hazards EDU am PV 640 Q103damangd No hazards 11 Short MAINS 400 10min Inverter worked normally input Boost ZVS PV 640 and output no obvious changes no component was damaged No hazards 13 7 fee pr P Ga aa Boost ZVS PV 640 Q103damangd No hazards mE D S Short MAINS 400 10min Inverter worked normally input Boost ZVS PV 640 and output no obvious changes no component was damaged No hazards D103 Inv Short MAINS 400 10min Inverter worked normally input Drive PV 640 and output no obvious changes no component was damaged No hazards 15 Input Boost Short MAINS 400 10min Inverter shut down choke PV 640 immediately Q106 was damaged No hazards Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Page 22 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark Verdict 16 Q106G S Short MAINS
32. Page 1 of 99 Report Reference No 70 409 14 130 01 00 Product Service TEST REPORT Standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 T V S D Test Report for Automatic disconnection device between a generator and the public low voltage grid Report reference No 70 409 14 130 01 00 2014 10 23 Project handler Kai Zhao TUY SUD BPO TUV SUD Certification and Testing China Co Ltd Shanghai Branch POCIOSS No 88 Heng Tong Road 200070 Shanghai P R CHINA besting lOcallori 4er Nanjing CQC Trusted Testing Technology Co Ltd No 99 Wenlan Road Xianlin University Zone Xianlin Street Qixia District NanJing China Client nnn JIANGSU GOODWE POWER SUPPLYTECHNOLOGY CO LTD Client number ee N A PIDE e O No 189 Kun Lun Shan Road Suzhou New District 215163 Suzhou Jiangsu PEOPLE S REPUBLIC OF CHINA Contact DOrBOI ccn icta as Mrs Xie Jing Date of issue crm SIBI osssearaian a d ds This TUV SUD test report form is based on the following requirements DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TRF onginaled Bys aws awn TUV SUD Certification and Testing China Co Ltd Mr Frank Zhu Copyright blank test report This test report is based on the content of the standard see above The test report
33. Q 29290VA Qc29370VA Po wrR 83VA O 2 24 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 74 of 99 Report Reference No 70 409 14 130 01 00 Requirement Test Measuring result Remark THU AUG 28 16 49 9 o o 384 Product Service 32 2014 496 362 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 75 of 99 Report Reference No 70 409 14 130 01 00 Requirement Test Measuring result Remark THU AUG 28 16 35 3 o o 504 Product Service 12 2014 2 354 THU AUG 28 16 25 g L 28 2014 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 76 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark A Agilent Technologies THU AUG 28 14 28 44 2014 EH 196 THU AUG 28 13 46 16 2014 0 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 77 of 99 Report Reference No 70 409 14 130 01 00 Requirement Test Measuring result Remark 1 428 THU AUG 28 13 52 Product Service 23 2014 2 208 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 78 of 99 Report Reference No 70 409 14 130 01 00 Requirement Test Measuring result Remark 3
34. UV Page 8 of 99 Report Reference No 70 409 14 130 01 00 Product Service aC Ja ICAU ECR A Ml 987 9n CI C220 Geb 900 90MJIS29 0039 Os Sou be sv Ott Soe 003 nai s32909380 l cae be 5H OMlisaeee ba mss ta rh ng y n i ria Usk reg wy 234567 8 941234567 89 1 12 34 lul Ym AY EA YTT mh pulis naut AYN YH PS TEREE ida i Characteristic data Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 9 of 99 Report Reference No 70 409 14 130 01 00 Product Service 6 1 Technical Parameters Model GWO9K DT GWIOK DT GWI2K DT GWISKDT GWIZKOT GW20K DT GW25KDT 9200 10200 12300 15400 17500 20500 25800 1000 1000 1000 1000 1000 1000 1000 260 850 260 850 260 850 260 850 260 850 260 850 260 850 22 11 22 11 2211 22022 2222 2222 27127 9000 10000 12000 15000 17000 20000 25000 9000 10000 12000 15000 17000 20000 25000 42 42 Q 54 54 60 72 Maxefideng fe 98 0 98 0 98 0 98 2 98 2 98 2 98 2 597 596 297 595 gt 97 5 597 595 gt 97 5 597 596 597 596 RI 599 5 599 5 gt 99 5 gt 99 5 gt 99 5 599 596 599 5 Anti islanding protection Certificationsastandards O O Certifications amp Standards Grid regulation VDEO126 1 1 VDE AR N 4105 vDE AR N 4105 G59 3 G59 3 EN50438 VDE AR N 4105 ERDF NOI 59 3 EN50438 NRSO97 2 1 AS4777 2 amp 3 VDEO126 1 1 RES 13E NR30972 1 AS4777 2 amp 3 IEC62109 2 VDEO126 1 1 G59 3 a AS4777 2 amp 3 SD ee VDE0126 1 1 RD16
35. V Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark MI OC 3000 00 2500 00 2000 00 Undervoltage trip setting 1500 00 point minus 1 Un 230V 1 Phase L1 N Trip nM cow to 181 7V 500 00 50 Undervoltage trip setting point plus 1 Un 230V to 1 Phase L1 N N A 186 3V 3000 00 2500 00 2000 00 Undervoltage trip setting 1500 00 point minus 1 Un 230V 1 Phase L2 N Trip E AU to 181 7V HI 50 Undervoltage trip setting point plus 1 Un 230V to 1 Phase L2 N N A 186 3V Undervoltage trip setting 1500 00 point minus 1 Un 230V 1 Phase L3 N Trip m T UN to 181 7V 50 Undervoltage trip setting point plus 1 Un 230V to 1 Phase L8 N N A 186 3V Overvoltage monitoring tolerance verification Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 42 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark Overvoltage trip setting point minus 1 Un 230V 1 Phase L1 N N A Continuous operation to 262 2V 3000 00 Overvoltage trip setting 1500 00 point plus 1 Un 230V to 1 Phase L1 N Trip E 266 8V 500 00 4 Overvoltage trip setting point minus 1 Un 230V 1 Phase L2 N N A to 262 2V Overvoltage trip setting 1500 00 point plus 1 Un 230V to 1 Phase L2 N Trip ip po
36. amp 6 5 DC current monitoring DIN VDE 0126 1 1 VDE V 0126 1 1 X 4 6 amp 6 6 Detection of islanding operation DIN VDE 0126 1 1 VDE V 0126 1 1 X 4 8 Requirement for the integrated disconnection device in photovoltaic converter residual current monitoring and for the isolation monitoring DIN VDE 0126 1 1 VDE V 0126 1 1 amp IEC EN 62109 2 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Copy of marking plate cooowe your solar engine TYPE GW10K DT Max PV generator power PV voltage range Vmax PV Isc PV Rated DC voltage MPPT voltage range Max DC current Rated grid voltage Max output current AC grid frequency Rated AC power Power factor range 0 9cap 0 9ind 29 60 C Derating at 45 Operating temperature range AC overvoltage category DC overvoltage category IP degree Protective class Grid connected standard VDE AR N 4105 VDE0126 1 1 En50438 G59 3 NRS097 2 1 ERDF NOI RES_13E A ANG AN Lli C C Y 9 121612 CCE S N Check Code TEL 86 512 6239 7998 10200W 250 1000Vac 1000Va c 21 20Aa c 640 Va 260 850Vac 22 11 Adc 3 N PE 400 230V 17Aac 90Hz 10kW 1 Nominal power Category lll Category IP65 Class MEA amp PEA AS4777 2 3 EMAIL service goodwe com cn ADD NO 189 KunLunShan Road Suzhou New District Jiangsu China Page 4 of 99 Report Reference No 70 409 14 130 01 00 3 Pro
37. automatic disconnection of supply in the end use application with the agreement of local network operator 11 Island operation can be detected independently for individual unit For multiple units operation the automatic disconnection device should receive break commands via an interface from another protection device with equivalent island network detection A break command must trigger a break within 0 2 s The protection device issuing the break signal and the interface must also fulfill the functional safety requirements 12 Not intended for use with connection to plug socket 13 The following safety parameters are factory set and fixed per IEC EN 62109 2 VDE AR N 4105 2011 and DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Default interface protection settings Parameters Normative requirements Internal threshold setting Maximum Trip limit Maximum Factory setting trip clearance clearance time value time factory setting 400 230V 10 15 CH Phase to neutral Phase to neutral aal 264 5V 264 5V Phase to Phase Phase to Phase medal 460V 460V Under voltage Phase to neutral Phase to neutral Phase to Phase Phase to Phase Reconnection voltage range after a network 85 Unto 110 Over voltage state 10 minutes mean value corresponding to EN 50160 200ms Over voltage stage 2 outage and response Un 340 195 5V 340 195 5V to abnormal 440 253V conditions Reconnection f 475Hzto5005H
38. azard appears Inverter shut down immediately U301 damaged No hazard appears Inverter shut down immediately U301 damaged No hazard appears Inverter shut down R213 Damaged No hazards Inverter worked normally input and output no obvious U301 Short MAINS 400 10min Pin15 Pin19 PV 640 19 D213 SPS Short MAINS 400 diode PV 640 20 TX202 SPS Pin6to MAINS 400 10min PV 640 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 changes no component was damaged No hazards Tuv Report Reference No 70 409 14 130 01 00 T Page 23 of 99 Product Service Requirement Test Measuring result Remark TX202 SPS Pin7 to MAINS 400 PV 640 TX202 SPS MAINS 400 PV 640 TX202 SPS MAINS 400 PV 640 21 Q212 D S Short MAINS 400 PV 640 22 C313 bus Short MAINS 400 10min cap PV 640 4 10min Inverter worked normally input and output no obvious changes no component was damaged No hazards Inverter worked normally input and output no obvious changes no component was damaged No hazards Inverter worked normally input and output no obvious changes no component was damaged No hazards Inverter works normally after 5 mins check the inverter Thermal fuse F203 broken no hazard appears Inverter shutdown immediately no component damaged No hazards Inverter shut down and disconnect from grid immediately No component was damaged No hazards Inv
39. considered selected clauses of the a m standard s and experience gained with product testing It was prepared by TUV SUD Product Service GmbH TUV SUD Group takes no responsibility for and will not assume liability for damages resulting from the reader s interpretation of the reproduced material due to its placement and context L GS XX T V Mark EU Directive C type verification of comformity JOSEP DI OGOODUIG ua ar ess without certification N A N A Non standard test method National deviatioriS uad Number of pages Report 99 Number of pages Attachments See page 3 for detail Compiled by Kai Zhao Approved by Pengdong Yang signature signature Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 2 of 99 Report Reference No 70 409 14 130 01 00 Product Service Test sample Engineering prototype Type of test object PV Grid connected Inverter GOODWE your solar engine Model and or type reference GW10K DT GW12K DT GW15K DT GW17K DT GW20K DT GW25K DT Trademark eere PV input Vmax PV 1000 Vac MPP voltage range 260 850 Vdc Rated DC voltage 640 Vdc Max DC current 22 11 Adc GW10K DT GW12K DT 22 22 Adc GW15K DT GW17K DT GW20K DT 27 27 Adc GW25K DT
40. d 266 8V Overvoltage trip setting point minus 1 Un 230V 1 Phase L8 N N A to 262 2V 3000 00 Overvoltage trip setting 1500 00 point plus 1 Un 230V to 1 Phase L3 N Trip Ue uM 266 8V 64 TABLE Frequency monitoring Test conditions frequency protection f under frequency Limit 47 5Hz Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Report Reference No 70 409 14 130 01 00 T Page 43 of 99 Product Service Requirement Test Measuring result Remark Verdict lteration MAE Variation of Average and each time from set point 1 atUn 47 49 0 02 2 at Un 47 50 3 at Un 47 50 Min frequency Hz 47 49 0 02 deviating 96 Transient program Disconnect time ms 50Hz to 47 4Hz Max Break time ms 5 7 65 frequency protection f gt over frequency Limit 51 5Hz Measured trip frequency Iteration Hz Variation of Average and each time from set point 1 atUn 51 51 0 02 at Un 51 51 0 02 at Un 51 51 0 02 Max frequency Hz deviating 96 Transient program Disconnect time ms 50Hz to 51 6Hz NEN 51 51 0 02 50Hz to 51 6Hz 1 Max Break time ms 62 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Page 44 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark Over frequency monitoring tolerance
41. duct Service GOODWE your solar engine TYPE GW12K DT Max PV generator power PV voltage range Vmax PV Isc PV Rated DC voltage MPPT voltage range Max DC current Rated grid voltage Max output current AC grid frequency Rated AC power Power factor range Operating temperature range AC overvoltage category DC overvoltage category IP degree Protective class Grid connected standard VDE AR N 4105 En50438 AS4777 2 3 ERDF NOI RES 13E C Ee 7 121612 Check Code TEL 86 512 6239 7998 VDE0126 1 1 G59 3 NRS097 2 1 12300W 250 1000Va c 1000Va c 2T 20Aa c 640Va 260 850Vac 22 11Aa 3 N PE 400 230V 19Aac 50Hz 12kW 1 Nominal power 0 9cap 0 9ind 25 60 C Derating at 45 Category III Category IP65 Class AAC AM E BOS r EMAIL service goodwe com cn ADD NO 189 KunLunShan Road Suzhou New District Jianasu Chi Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 5 of 99 Report Reference No 70 409 14 130 01 00 GOODWE your solar engine TYPE GW15K DT Max PV generator power PV voltage range 250 1000Vac Vmax PV 1000Va c Isc PV 27 27 Adc Rated DC voltage 640Va MPPT voltage range 260 850Vac Max DC current 22 22Aa Rated grid voltage 3 N PE 400 230V Max output current 25Aac AC grid frequency 50Hz Rated AC power 15kW 1 Nominal power 15400W Power factor range 0 9cap 0 9i
42. e No hazard no damage 10min Unit disconnect immediately from the grid Error message Consistent failure No hazard no damage 10min Unit disconnect immediately from the grid Error message Utility loss No hazard no damage 10min Unit disconnect immediately from the grid Error message Fac failure No hazard no damage 10min Unit disconnect immediately from the grid Error message Fac failure No hazard no damage Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 29 of 99 Report Reference No 70 409 14 130 01 00 Product Service Measuring result Remark Unit disconnect immediately Requirement Test Clause Frequency MAINS 400 10min monitoring PV 640 C311 C430 MAINS 400 short PV 640 C447 MAINS 400 short PV 640 Pin XRS MAINS 400 Loss power of main CPU U401 Loss power of main CPU U401 Loss power of Slave CPU U501 MAINS 400 PV 640 Open Pin6 GND short MAINS 400 PV 640 MAINS 400 PV 640 MAINS 400 PV 640 U401 pin 96 open Communica tion between CPUs Communica tion between CPUs MAINS 400 PV 640 U401 pin 97 open MAINS 400 PV 640 Test Report based on standard from the grid Error message Fac failure No hazard no damage Unit disconnect immediately from the grid No hazard no defect Unit disconnect immediately from the grid No hazard no defect
43. e Requirement Test Measuring result Remark Verdict 2 Phase to phase i voltage L1 L3 253 L1 N 253 L2 N 459 5 0 13 3 Phase to phase i voltage L1 L3 253 L1 N 253 L2 N 459 5 0 13 Max phase to phase voltage L1 L3 V Max 459 5 0 13 deviation 96 1 Phase to phase f voltage L2 L3 253 L1 N 460 9 253 L3 N 0 23 2 Phase to phase i voltage L2 L3 253 L1 N 460 8 299 L3 N 0 20 3 Phase to phase voltage L2 L3 253 L1 N 460 8 253 L3 N 0 20 Max phase to phase voltage L2 L3 V Max deviation 96 460 9 0 23 lteration Disconnect time ms 1 Phase L1 N 169 2 Phase L1 N 128 3 Phase L1 N 127 Max break time L1 Nims 189 1 Phase L2 N 17 2 Phase L2 N 183 3 Phase L2 N 179 Max break time L2 Nims 183 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Page 36 of 99 Report Reference No 70 409 14 130 01 00 Product Service Clause Requirement Test Measuring result Remark 1 Phase L3 N rad dn time L3 1 Phase L1 L2 NO U 3 Q T D r Q z 2 Phase L1 L2 Max time L1 L2 ms 1 Phase L1 L3 2 Phase L1 L3 Max time L1 L3 ms 1 Phase L2 L3 2 Phase L2 L3 Max time L2 L3 ms Voltage drop protection U lt Iteration Measured voltage V Phase L1 Phase L2 Phase L3 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 deviation from set point Tuv
44. e 403 was damaged No hazard G D Short MAINS 400 10min The inverter can t start to operate Inverter LCD shows Relay Check Failure No U401 Pin 66 to MAINS 400 10min The inverter can t start to GND PV 640 operate Inverter LCD shows short Relay Check Failure No before component was damaged No Start up hazard appears U401 Pin 65 to MAINS 400 10min The inverter can t start to GND PV 640 operate Inverter LCD shows short Relay Check Failure No before component was damaged No start up hazard appears U401 Pin 64 to MAINS 400 10min The inverter can t start to GND PV 640 operate Inverter LCD shows short Relay Check Failure No before component was damaged No start up hazard appears U501 Pin 40 to MAINS 400 10min The inverter can t start to GND PV 640 operate Inverter LCD shows short Relay Check Failure No before component was damaged No start up hazard appears 36 Grid voltage MAINS 400 10min Unit disconnect immediately monitoring PV 640 for R phase from the grid Error message Consistent failure R431 No hazard no damage Grid voltage MAINS 400 10min Unit disconnect immediately monitoring PV 640 from the grid Error message for R phase Vac failure R432 No hazard no damage Grid voltage MAINS 400 10min Unit disconnect immediately monitoring PV 640 for R phase R432 from the grid Error message Vac failure No hazard no
45. e AC supply Note 3 4 4 4 5 Output short circuit Short L to N G short L1 L2 L3 The test was repeated 4 times so that short occurred in the different positions O 90 180 270 of the line cycle When shorting the unit the output source is to be disconnected by a relay or similar device As well one test with all current carrying terminals of the port shorted together conducted Note 4 The equipment was placed on white tissue paper covering a softwood surface and covering the equipment with cheesecloth during the fault testing no emission of molten metal burning insulation or flaming or glowing particles from the fire enclosure and there was no charring glowing or flaming of the cheesecloth Note 5 After test the inverter pass the dielectric test Note 6 No other hazard e g chemical expulsion observed after each test 62 TABLE Connection condition and synchronization short time interruption OP Connection conditions Transient Iteration program Freque Holding time Restore time Power recover ncy connection conditions Underfrequency setp change from 50 00Hz to 4s 47 40Hz N A 47 40 within 1 2 cycle Underfrequency setp change from 47 40 Hz to 120s 047 45Hz Not occured DH T ua 47 45 within 1 2 cycle Return to nominal setp change from 47 45 Hz to 47 55 within 1 2 cycle Heconnection 63s Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Report Refere
46. ement of DIN EN 62109 2 VDE 0126 See IEC EN 62109 2 report 14 2 2012 04 4 8 for the residual current monitoring and for the isolation monitoring of PV generators must be complied General requirements The limits of radio interference shall comply with See separated EMC report DIN EN 61000 6 3 VDE 0839 6 3 The interference immunity are tested according to DIN EN 61000 6 2 VDE 0839 6 2 Type test EU NAM EU HAN disconnection signal generate not from input feeder but from the disconnection device 6 1 Functional safety The test on single fault safety and fault detection with followed disconnection shall comply with VDE 0124 100 5 4 5 2 6 2 Voltage monitoring The tests of connection are re connection shall Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 If not specified in other cases the following tests are applied for integrated and separated disconnection device A separate disconnection device is tested together with a suitable input feeder Here it is to ensure that the Tuv Report Reference No 70 409 14 130 01 00 T Page 18 of 99 Product Service Clause Requirement Test Measuring result Remark Verdict comply with DIN V DIN VDE V 0124 100 VDE V 0124 100 2012 07 5 5 1 and 5 5 2 The test of voltage monitoring shall comply with DIN VDE V 0124 100 VDE V 0124 100 2012 07 5 4 5 3 The test of frequency monitoring shall comply with DIN VDE V 0124
47. erter worked normally input and output no obvious changes no component was damaged No hazards 10min 10min 10min 23 R348 Bus Short MAINS 400 10min sampling R PV 640 Short MAINS 400 PV 640 2 Short MAINS 400 PV 640 Optocoupler Pin3 pin4 Open MAINS 400 PV 640 Open MAINS 400 PV 640 Primary Pin3 25 U201COM Short MAINS 400 M Opto PV 640 coupler Pin2 Pin8 U201COM Short MAINS 400 M Opto PV 640 coupler Pin2 Pin6 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 10min 10min Inverter worked normally input and output no obvious changes no component was damaged No hazards Inverter worked normally input and output no obvious changes no component was damaged No hazards 10min 10min Inverter worked normally input and output no obvious changes no component was damaged No hazards 10min Inverter worked normally input and output no obvious changes no component was damaged No hazards Inverter worked normally input and output no obvious changes no component was damaged No hazards 10min Tuv Page 24 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark U201COM _ Short MAINS 400 M Opto PV 640 coupler Pin2 Pin5 U201COM Short MAINS 400 M Opto PV 640 coupler Pin3 Pin8 U201COM Short MAINS 400 M Opto PV 640 coupler Pin3 Pin6 U201COM Short MAINS 400 M Opto PV
48. ervice Requirement Test Measuring result Remark A Agilent Technologies THU AUG 28 14 23 43 2014 2 196 440 0 344 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 66 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark THU AUG 28 13 48 49 2014 1 l Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 67 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark THU AUG 28 13 59 26 2014 3 i us 496 AX Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 68 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark THU AUG 28 14 15 05 2014 5 380 lteration Power output level Balance condition P 4170W Q 29290VA Qc29380VA Po wr 83VA O 2 24 Y THU AUG 28 16 46 30 2014 596 302 AX 302 YTT 3125A Y 15625A AY 18 750A Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 69 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark yr THU AUG 28 16 39 40 2014 496 250 AX 2500 s WY 12500A YMI 15825A WAY 3125A
49. eviation from set point Phase L1 PhaseL2 PhaseL3 measurement of the phase to neutral voltage 1 Phase to neutral 2 Phase to neutral Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Page 34 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark Verdict 3 Phase to neutral 265 7 230 230 0 52 voltage L1 N Max phase to neutral voltage L1 N V Max 265 7 0 52 deviation 96 40 04 1 Phase to neutral voltage L2 N 230 264 6 230 2 Phase to neutral voltage L2 N 230 264 8 230 3 Phase to neutral voltage L2 N 230 264 6 230 Max phase to neutral voltage L2 N V Max 40 13 40 04 264 8 0 13 deviation 96 1 Phase to neutral voltage L3 N E i 2 Phase to neutral 230 230 266 1 0 70 voltage L3 N 3 Phase to neutral 230 230 266 2 0 74 voltage L3 N Max phase to neutral voltage L3 N V Max 266 2 0 74 deviation 96 measurement of the phase to phase voltages 1 Phase to phase i voltage L1 L2 460 1 253 L2 N 253 L3 N 0 03 2 Phase to phase i voltage L1 L2 460 1 253 L2 N 253 L3 N 0 03 3 Phase to phase i voltage L1 L2 459 9 253 L2 N 253 L3 N 0 03 Max phase to phase voltage L1 L2 V Max 460 1 0 03 deviation 96 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 35 of 99 Report Reference No 70 409 14 130 01 00 Product Servic
50. led as independent device or integrated parts of generation system and must be disconnect in single fault condition and indicate the fault condition gt La Single fault safety Under single fault condition refer to safety function relative circuits This system allows for the safety to always be Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 LI jWH 1m Report Reference No 70 409 14 130 01 00 T Page 16 of 99 Product Service Clause Requirement Test Measuring result Remark Verdict maintained in the event of a single fault some but not all faults o be detected the accumulation of undetected faults to possibly lead to the loss of the safety functions The disconnection device must fulfill the requirement of single fault safety according to VDE AR N 4105 2011 08 A 6 The disconnection device must comply with DIN EN 62109 2 VDE 0126 14 2 2012 04 4 4 4 15 2 in case of integration in a PV converter and VDE AR N 4105 2011 08 6 4 in other cases 4 2 Connection condition The connection which reconnect after a network fault and reconnect after short interruption shall comply with VDE AR N 4105 2011 08 8 3 1 4 3 Voltage monitoring 4 3 1 Voltage decrease U U lt 320 184V The disconnection due to a voltage decrease must comply with VDE AR N 4105 2011 08 6 5 1 and 6 5 2 4 3 2 Voltage increase U gt gt U gt gt 460 264 5V
51. nce No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark FRI AUG 29 14 25 53 2014 78 AX 78 0000 42 AX 42 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 50 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark mr Agilent Technologies FRI AUG 29 14 42 40 2014 El 396 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Product Service Requirement Test Measuring result Remark Page 51 of 99 Report Reference No 70 409 14 130 01 00 FRI AUG 29 14 52 51 2014 Reconnection time gt 60s and power rise gradient lt 10 PEmax min Power gradient dp dt min 30000 00 25000 00 Reconnection time and power rise gradient after loss of 15000 00 mains 20000 00 4 10000 00 5000 00 0 00 13 45 49 g 13 46 18 13 46 47 13 47 16 13 47 45 13 48 14 13 48 43 13 49 12 13 49 41 13 50 10 13 50 39 13 51 08 13 51 37 13 52 06 13 52 35 13 53 04 13 53 33 13 54 02 13 54 31 13 55 00 13 55 29 13 55 58 Iteration Power output level Phase L2 N 100 Balance condition P 8340W Q 219080VA Qc 19140VA Pawr 67VA Q 2 29 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 52 of 99 Report Reference No 70 409 14 130 01 00
52. nce No 70 409 14 130 01 00 T Page 31 of 99 Product Service Requirement Test Measuring result Remark Overfrequency setp change from 50 00Hz to 4s 51 55Hz N A 51 55 within 1 2 cycle Overfrequency setp change from 91 55 Hz to 120s 50 10Hz Not occured Bwer ee cu eT BEN 50 10 within 1 2 cycle Return to Nominal setp change from 50 10 Hz to 50Hz within 1 2 cycle 120s 10 minutes Reconnection 62s 50Hz Transient program lteration Voltage Holding time Restore time Power recover connection conditions Overvoltage setp change from 230V to 266 8v 4999266 8V N A within cycle setp change L1 N from 266 8V to Power rise curve lt 10 PEmax 190 9V within v 120s 0255 3V Not occured cycle Return to 250 V minutes Reconnection 62s Undervoltage setp change from 230V to 4s 181 7V N A 181 7V within 1 2 L2 N cycle Power rise curve lt 10 PEmax setp change from 190 9V to V 120s 190 9V_ Not occured within cycle Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 32 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark 120s 10 Return to 197 8V minutes Reconnection 62s 197 8V Overvoltage setp change from 230V to 266 8V J4SG2668V N A within 1 2 cycle setp change from 266 8V to 255 3V within Je 12090255 3V cycle 120s 10
53. nd 25 60 C Derating at 45 Operating temperature range AC overvoltage category Category lll DC overvoltage category Category IP degree IP65 Protective class Class Grid connected standard VDE AR N 4105 VDE0126 1 1 En50438 AS4777 2 3 G59 3 NRS097 2 1 ERDF NOI RES_13E AATA Lli E Cc RO 2 S N Check Code TEL 86 512 6239 7998 EMAIL service goodwe com cn ADD NO 189 KunLunShan Road Suzhou New District Jiangsu China Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Gooowe your solar engine TYPE GW17K DT Max PV generator power 17500W PV voltage range 250 1000Vac Vmax PV 1000Va c Isc PV 27 27 Adc Rated DC voltage 640Va MPPT voltage range 260 850Vac Max DC current 22 22Aac Rated grid voltage 3 N PE 400 230V Max output current 25Aac AC grid frequency 90Hz Rated AC power 17kW 1 Nominal power Power factor range 0 9cap 0 9ind o 25 60 C perating temperature range Derating at 45 AC overvoltage category Category lll DC overvoltage category Category IP degree IP65 Protective class Class Grid connected standard VDE AR N 4105 VDE0126 1 1 EN50438 AS4777 2 3 G59 3 NRS097 2 1 ERDF NOI RES 13E N ANC S LEN Uli X S N Check Code TEL 86 512 6239 7998 EMAIL service goodwe com cn ADD NO 189 KunLunShan Road Suzhou New District Jiangsu China 3 Product Service Tuv Report Reference No 70 4
54. ng H144 Frequency monitoring C333 Grid voltage monitoring H280 Grid voltage monitoring C103 Grid voltage monitoring Frequency monitoring C149 Frequency monitoring H175 PV 640 MAINS 400 PV 640 MAINS 400 PV 640 MAINS 400 PV 640 MAINS 400 PV 640 MAINS 400 PV 640 MAINS 400 PV 640 MAINS 400 PV 640 MAINS 400 PV 640 MAINS 400 PV 640 MAINS 400 PV 640 MAINS 400 PV 640 MAINS 400 PV 640 Page 28 of 99 Product Service Measuring result Remark 10min Unit disconnect immediately from the grid Error message Fac failure No hazard no damage 10min Unit disconnect immediately from the grid Error message Fac failure No hazard no damage 10min Unit disconnect immediately from the grid Error message Vac failure No hazard no damage 10min Unit disconnect immediately from the grid Error message Consistent failure No hazard no damage 10min Unit disconnect immediately from the grid Error message Utility loss No hazard no damage 10min Unit disconnect immediately from the grid Error message Fac failure No hazard no damage 10min Unit disconnect immediately from the grid Error message Fac failure No hazard no damage 10min Unit disconnect immediately from the grid Error message Fac failure No hazard no damage 10min Unit disconnect immediately from the grid Error message Vac failur
55. ng result Remark WED AUG 27 15 14 51 2014 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 83 of 99 Report Reference No 70 409 14 130 01 00 Requirement Test Measuring result Remark 2 360 WED AUG 27 15 28 Product Service 43 2014 3 488 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Page 84 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark x WED AUG 27 15 46 52 2014 p 500A Bo00 g l x 10007 1000 Stop E8 183A 496 546 UAI l AT 596 500 TA Power output level Iteration Phase L2 N 259 Balance condition P 2090W Q 24520VA Oc 4620VA Pown 104VA O 2 19 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 85 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark WED AUG 27 16 33 03 2014 a 9 o o 434 496 368 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Tuv Clause 3 2 Page 86 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark A Agilent Technologies WED AUG 27 16 16 55 2014 g j 4 E xe i i WED AUG 27 16 07 38 2014
56. of DC switch position on enclosure is sealed for the inverter without DC switch There are two AC connector brands for inverter VACONN Series and Waterproof Coupling Series Firmware version V1 06 08 The following documentations are retained on file Photograph Circuit diagrams PCB layout drawing PCB foil pattern assembly drawing Specification sheets for components Instruction manual Manufacturer s work instruction and declaration for 10096 routing test as required by IEC EN 62109 1 2010 IEC EN62109 2 2011 DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Conditions of acceptability 1 When installing the equipment all requirements of the mentioned standards must be fulfilled 2 In order to protect the installation against electrical and fire hazard all branch circuits in an installation switchgear cables etc must be short circuit and over current protected according to the national international regulations 3 When install PV generation system double reinforced insulation cable required with mechanical protection Recommended conductor cross section area and installation method refer to installation manual Recommended PV input cables copper PV amp PV 2 5 mm 4 mm Max 60 C ambient temperature Recommended AC output cables copper L1 L2 L3 N PE cross section refer to below table Model GW10K DT GW12K DT GW15K DT GW17K DT GW20K DT GW25K DT cross 4 10 4 10 4 10 4 10 6 10
57. or non isolated inverters or inverters with isolation not complying with the leakage current limits in the minimum inverter isolation requirements in Table 30 shall indicate a fault in accordance with 13 9 and shall not connect to the mains the inverter may continue to make the measurement may stop indicating a fault and may connect to the mains if the array insulation resistance has recovered to a value higher than the limit above It is not required to test all PV input terminals if analysis of the design indicates that one or more terminals can be expected to have the same result for example where multiple PV string inputs are in parallel Supplementary information Additional test with first one pole ground fault following an insulation resistance below limit simulated then allow the inverter to start the inverter shall not connect to the mains Also tested with blind spot of PV and PV with low insulation resistance together Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 Page 97 of 99 Report Reference No 70 409 14 130 01 00 Product Service Requirement Test Measuring result Remark 4 8 3 5 TABLE Protection by residual current monitoring Output power KVA 25 Input voltage VDC 640 Test conditions Frequency Hz 50 Output AC Voltage 4 8 3 5 2 Test for detection of excessive continuous residual current NM Fault Current mA Disconnection time ms Limit Measured 3
58. ory IP65 Class AATA 2 CEK Check Code TEL 86 512 6239 7998 EMAIL service goodwe com cn ADD NO 189 KunLunShan Road Suzhou New District Jiangsu China AN ANC S N L8 E Cce2pg t3 x S N Check Code TEL 86 512 6239 7998 EMAIL service goodwe com cn ADD NO 189 KunLunShan Road Suzhou New District Jiangsu China Marking plate material pressure sensitive unprinted label stocks stamped into aluminium surface Suitable for outdoor use with respect to exposure to Ultraviolet Light Water Exposure and thermal transfer printed label stock applications 60 C to 95 C An additional PET film provided to cover label Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 7 of 99 Report Reference No 70 409 14 130 01 00 e Product Service Picture of the product Basic model GW25K DT major difference between individual model refer to Purpose of the product Ltildemaomoorteiliemao devez ilhienecosetz tides 2 e x cillle ase 6 amp KA 46 9 99 lle 0 19 4 p hd ienz9s5vteilld6onzso vrtceilH nzsotertcei e s DEA cooowe ee a eee 3a 667 8 Ott lt OO 7 S OTT 23S F 3 r 2 TVRI iat s eyuoin ss osnso lli a 12 9ff 1 2345678 90 1234567 89 T 1 2 3 4 r 7 8 9r 7349078958 2294 967 8 UI T eo Sat 2345 Ju isedjssfeeisouihsse enaolisaszecisolisse eNnolls2429 Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 T
59. rd electrical protection components and other device to form complete end systems Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 o TUV Page 13 of 99 Report Reference No 70 409 14 130 01 00 Product Service Compliance with safety regulations depends upon installing and configuring inverter correctly including using the specified emergency stop device adjacent to solar inverter The unit must be installed only by professional assemblers who are familiar with requirements for safety and EMC The assembler is responsible for ensuring that the end product or system complies with all the relevant laws in the country where it is to be used Refer to instruction manual 7 Additional equipment connected to the inverter must comply with the respective IEC EN or ISO standards e g IEC EN 60950 for data processing equipment IEC EN 61439 for switchgear 8 To allow maintenance of PV inverter means of isolating the PV inverter from the DC side and the AC side shall be provided at the end use application 9 For safety reasons install the emergency stop devices at station adjacent to solar inverter in the end system Pressing the stop function on the control panel of the inverter does generate an emergency stop and separate the inverter from dangerous potential 10 An additional RCD type B according to IEC 60755 amendment 2 which is located between the inverter and the mains may be provided for fault protection by
60. s 4 8 2 1 Array insulation resistance detection for inverters for ungrounded arrays DC Voltage below DC Voltage for Resistance between Required Insulation Result minimum operating inverter begin ground and PV resistance voltage operation input terminal R VMAX PV V V kO 30mA KO Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 96 of 99 Report Reference No 70 409 14 130 01 00 Product Service Clause Requirement Test Measuring result Remark Verdict ISO setting 100KO m 9 mo 9 PV MPP tracker 1 NO C CO 33 3 33 3 33 3 33 3 33 3 NO C CO o o O o C2 o o NO C CO PV MPP tracker 1 NO O o CO 33 3 33 3 33 3 33 3 33 3 NO C CO o o NO C CO NO DO O1 O1 O O CO CO OIO O O PV MPP tracker 2 NO C 300 300 300 300 300 33 3 33 3 33 3 NIN O1 O oO O no O o v Co no O o v oa Co PV MPP tracker 2 NO NO O C o o OO o o o o o Oo Q2 4v v gv gv v Co NO C CO Q2 o Co NO C CO v d av NO C CO Note For isolated inverters shall indicate a fault in accordance with 13 9 operation is allowed the fault indication shall be maintained until the array insulation resistance has recovered to a value higher than the limit above F
61. t to operate Inverter LCD shows Relay Check Fail No component was damaged No hazard appears Relay Short MAINS 400 10min contacts Start up Relay Short MAINS 400 10min contacts Start up Relay Short MAINS 400 10min contacts Start up Relay Short MAINS 400 10min contacts Start up Relay Short MAINS 400 10min contacts Start up Relay C E Short MAINS 400 10min contacts Start up Relay Short MAINS 400 10min RY407 before PV 640 contacts start up Ls line Open MAINS 400 10min sampling before PV 640 resistor start up R437 before RY400 Q402 D S MAINS 400 10min short PV 640 before start up Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 The inverter can t start to operate Inverter LCD shows Relay Check Failure No component was damaged No hazard appears Tuv Report Reference No 70 409 14 130 01 00 T Page 26 of 99 Product Service Requirement Test Measuring result Remark component was damaged No hazard appears Q402 G S Short MAINS 400 10min The inverter can t start to before PV 640 operate Inverter LCD shows start up Relay Check Failure No component was damaged No hazard appears D415 MAINS 400 10min The inverter can t start to PV 640 operate Inverter LCD shows Relay Check Failure Q406 was damaged No hazard D414 MAINS 400 10min The inverter can t start to PV 640 operate Inverter LCD shows Relay Check Failur
62. tion tests O P ambient temperature CC eeessseess N A at the prevailing Ma ydr temperature ll test rag hk duse fault test time iid Result table of heating test No other overload MAINS 400 5 hours Refer to table 4 3 heating hazard test For equipment in which DC to DC reverse MAINS 400 10min The inverter did not start to PV 640 operate The inverter protected by short circuit diode in boost circuit No output no power feed into grid No other components damage no hazard iT the output voltage is designed to collapse when a specified overload current is reached the overload is slowly increased to the point of maximum output power before the point which causes the output voltage to collapse No excessive temperature observed pls refer to above oan L1 to Short MAINS 400 10 min The external circuit breaker PV 640 operated Unit shutdown Inverter shows utility lost No component was damaged No hazard appears uad L1 to Short MAINS 400 10 min The external circuit breaker PV 640 operated Unit shutdown Inverter shows utility lost No component was damaged No hazard appears uad L2 to Short MAINS 400 10 min The external circuit breaker PV 640 operated Unit shutdown Inverter shows utility lost No component was damaged No hazard appears Output L1 to Short MAINS 400 10 min The external circuit breaker N G PV 640 operated Unit shutdown
63. ults confirmed to the requirements of the standard Attachments This test report comprises 99 oages which shall be used in conjunction with the following test reports Test report Pages IEC EN 62109 1 2010 test report 62109 1 2010 test report HL IEC EN 62109 1 2010 testrepon RT IEC EN 62109 2 2011 test report together with equipments list VDE AR N 4105 2011 and DIN VDE V 0124 100 VDE V 0124 100 2012 test report 4 Data form for electrical and electronic 22 component CDF Functional safety technical report General remarks see remark refers to a remark appended to the report see appended table refers to a table appended to the report Throughout this report a comma is used as the decimal separator The test results presented in this report relate only to the object tested This report shall not be reproduced except in full without the written approval of the testing laboratory Summary of testing deviation s found x no deviations found Individual inverter assessed based on component basis Test items below according to DIN VDE 0126 1 1 VDE V 0126 1 1 all tests were conducted on GW25K DT x 4 1 amp 6 1 Functional safety DIN VDE 0126 1 1 VDE V 0126 1 1 X 4 2 Connection condition DIN VDE 0126 1 1 VDE V 0126 1 1 X 4 3 amp 6 2 amp 6 3 Voltage monitoring DIN VDE 0126 1 1 VDE V 0126 1 1 X 4 4 amp 6 4 Frequency monitoring DIN VDE 0126 1 1 VDE V 0126 1 1 X 4 5
64. urrent and it is intended to be connected in parallel with the low voltage mains to supply common load They are intended for professional incorporation into PV system and they are assessed on a component test basis GW25K DT basic model GW20K DT technical similar as basic model except for type name and parameters refer to rating label GW17K DT technical similar as basic model except for type name and parameters refer to rating label GW15K DT technical similar as basic model except for type name and parameters refer to rating label GW12K DT technical similar as basic model except for type name and parameters refer to rating label GW10K DT technical similar as basic model except for type name and parameters refer to rating label For different components refer to below table Reference GW10K GW12K GW15K GW17K GW20K GW25K Commen Position DT DT DT DT DT DT LR LS LT 141 10012 141 10012 141 10011 141 10011 141 10011 141 10035 A Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 o TUV Page 11 of 99 Report Reference No 70 409 14 130 01 00 Product Service Ow Pdi Inverter Bus Capacitor ale oe a a EU 800V 50u F 6pcs F 8pcs F 10pcs F 12pcs F 12pcs F 14pcs 180 00017 180 00004 180 00004 180 00004 180 00004 180 00004 4530 00016 L100 L101 141 141 8001 141 141 8001 141 141 8001 141 141 8001 141 141 8001 NC Pow DE LS Q10 oo T0009 TEU W
65. verification Disconnect time ms Transient program lteration Oscilloscope recorded waveforms N A if Trip did not occur Overfrequency trip setting point minus 0 1 Fn 50Hz to 51 45Hz Phase L1 L2 and Continuous operation L3 3000 00 2500 00 2000 00 Overfrequency trip Phase setting point plus 19eFn L1 L2 and 50Hz to 51 55Hz L3 1500 00 1000 00 500 00 0 00 ALALILA LLI LOA DULI LOA ALI AA DADI DAA AULAE AAL ADUA AUL ALIAD ALDIAN ALIAL AUI DOULA Under frequency monitoring tolerance verification Disconnect time ms Transient program Iteration Oscilloscope recorded waveforms N A if Trip did not occur 3000 00 2500 00 Underfrequency trip Phase 2000 00 setting point minus 1500 00 0 1 Fn 50Hz to pie and 47 45Hz L3 00 00 0 00 miT TETTETETETTETETTTET TTE TETTE 1000 00 Underfrequency trip setting point plus 0 1 Fn 50Hz to 47 55Hz Phase L1 L2 and Continuous operation L3 65 TABLE DC current monitoring Power output level Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 A TUV Report Reference No 70 409 14 130 01 00 T Page 45 of 99 Product Service Requirement Test Measuring result Remark 100 Test sequence Disconnecting time L1 N current direction positive L2 N current direction positive L3 N current direction positive ing time ms 16 14 15 Test sequence Disconnecting time ms L1 N 16
66. z 47 5Hz 50 05Hz 433 253V Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1 2013 TUV Page 14 of 99 Report Reference No 70 409 14 130 01 00 Product Service frequency range after a network outage and response to abnormal conditions Automatic reconnection after a network outage and response to abnormal conditions 2 3s Automatic reconnection after a network outage and response to short term interruption lt 3s PV array Insulation resistance measurement before starting operation Islanding detection Max 5s Loss of mains 200ms Loss of mains Alteration of the above settings or full setting range of the interface protection may cause a breach of the type certificate marking Unauthorised access to factory safety parameters setting and software should be prohibited A reset to the safety parameters requires retest and verification in conjunction with the end use system Possible test case verdicts test case does not apply to the test object N A not included in the order test object does meet the requirement 3 P ass test object does not meet the requirement l F ail Possible suffixes to the verdicts suffix for detailed information for the client l C omment suffix for important information for factory inspection M anufacturing Test Report based on standard DIN VDE 0126 1 1 VDE V 0126 1 1
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