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YTG585-605P-60/D

PERC technology

  • Rated maximum power Pmax (W):605
  • Open Circuit Voltage-Voc(V): 41.76
  •  Short-Circuit Current-Isc(A): 18.38
  • Maximum power voltage Vmp (V):34.86
  • Dimensions:2172mm x 1303mm x 35mm

DESCRIPTION

High quality; 100% inspected and packed very well, 12-year warranty, oem wholesale distributor factory.

Adopting PERC technology on G12 wafer, perfectly matches the mainstream system design.

Lower voltage brings higher string power, thus lower system cost.

Advanced module technologies are adopted like multi-busbar, half cell, non-destructive cutting, and intelligent soldering.

Bifacial modules bring additional power generation gain to the system.

Products characteristic:

High Power Outpu

Low LCOE

Better Mechanical Performance

Long-term Reliability

Warranty:

Product warranty 12 Years

Linear power warranty 30 Years

1st year degradation ≤2%

Annual degradation ≤0.45%

Certificates:

IEC 61215, IEC 61730

ISO 9001:2015 Quality management systems

ISO 14001:2015 Environmental management systems

ISO 45001:2018 Occupational health and safety management systems

Mechanical Parameters

Cell type

Mono TOPCon

No. of cells

144 (6*24)

Junction box

IP68, 3 diodes

Cable

4mm2; 300mm(+)/400mm(-) or customized

Glass

Dual glass, 2.0mm/2.0mm

Frame

Anodized aluminum alloy frame

Weight

31.4kg±3%

Dimensions

2278mm x 1134mm x 30mm

Packaging

36 pcs/pallet, 720 pcs/40HQ container

Electrical Parameters

Module type

YTG585P-60/D

YTG590P-60/D

YTG595P-60/D

YTG600P-60/D

YTG605P-60

STC

NMOT

STC

NMOT

STC

NMOT

STC

NMOT

STC

NMOT

Rated maximum power Pmax (W)

585

443

590

447

595

451

600

455

605

459

Open circuit voltage Voc (V)

41.03

38.22

41.21

38.38

41.39

38.55

41.57

38.72

41.76

38.90

Short circuit current Isc (A)

18.14

14.85

18.20

14.90

18.26

14.95

18.32

15.00

18.38

15.05

Maximum power voltage Vmp (V)

34.18

31.74

34.36

31.90

34.52

32.08

34.70

32.24

34.86

32.40

Maximum power current Imp (A)

17.12

13.96

17.18

14.02

17.24

14.07

17.30

14.12

17.36

14.17

Module efficiency (%)   

   20.7   

 20.8

   21.0

    21.2

    21.4

Bifacial gain 10%                                        

  YTG585P-60/D

 YTG590P-60/D

 YTG590P-60/D

YTG600P-60/D  

   YTG605P-60/D

Rated maximum power Pmax (W)

 644 649 655 660 666

Open circuit voltage Voc (V)

 41.03 41.21 41.39 41.57 41.76

Short circuit current Isc (A)

 19.95 20.02 20.09 20.15 20.22

Maximum power voltage Vmp (V)

 34.18 34.36 34.52 34.7 34.86

Maximum power current Imp (A

 18.83 18.9 18.96 19.03 19.10

Temperature Coecients

Temperature coefficient α_Isc

+0.045%/℃

Temperature coefficient β_Voc

-0.275%/℃

Temperature coefficient γ_Pmax

-0.30%/℃

Operating Conditions

Operating temperature

Pmax, Voc, Isc tolerance

Power selection

-40℃~+70℃

Nominal operating cell temperature       

45±2℃

±3%

Front side Max. static test loading            

5400 Pa

0~+5W

Rear side Max. static test loading               

2400 Pa

Maximum system voltage

Maximum series fuse rating

1500V DC

35A

  

FAQs

  • How does an alkaline electrolytic bath function

    As a mature electrolysis technology, alkaline water electrolysis (AWE) plays a dominant role. The diaphragm of an electrolytic bath for alkaline water electrolysis to produce hydrogen is mainly composed of polymer materials, for the purpose of separating out gases. Both the anode and cathode are made of metal alloys, such as Ni-Mo. Water molecules are decomposed into H+ and OH- at the anode, and then H+ becomes hydrogen atoms afterwards with electrons, and further becomes hydrogen molecules (H2). OH-, under the effect of electric field between the anode and cathode, passes through the porous diaphragm to reach the anode, and then it produces one water molecule and one oxygen molecule after losing the electrons. The electrolytic bath is the core of the alkaline electrolysis device. A transformer and rectifier cabinet are needed in front of the bath to convert HV AC power into the DC power necessary for the electrolytic bath, so that electrolysis of water can be performed in the electrolytic bath.

  • Are there transparent modules from ABC?

    Because of the issue of light leakage in the gaps between he solar cells in double-glass modules, ABC generally uses glazed semi-tempered glass for the backside panel of the double-glass module, with a glazed layer formed into grids where the cells are placed. Because the requirement for accuracy and shading of the glazed layer on the back panel of the cell should be reduced, a certain amount of light leakage is allowed in the industry, without any effect on the quality and energy yield of the product. The inconsistency in light transmittance on the back panel of the single-glass module is caused by differences in light transmittance caused by variations in each model of the back panel of the module. However, when the quality of the back panel meets the certification criteria, there will be no effect on energy yield. Agents will preferentially load the same batch of modules and ship them to the downstream customers.

  • How does one operate and maintain ABC PARK?

    You can check out its operation status and make timely alarms on the mobile app. There's no need for scheduled duty shifts. It requires minimal O&M except for periodic cleaning because the equipment and materials used are made by top-tier, reliable companies.

  • How long is the service life of ABC BRIGHT products?

    The service life is 30 years, with lifetime power degradation not below 85%.

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