POLYCRYSTALLINE MODULES


Polycrystalline solar panels are made up of multiple crystals. Instead of going through the slow and very expensive process of creating a single crystal, manufacturers simply put a crystal seed in a cast of molten silicon and allow it to cool. Due to this casting method, the crystal surrounding the seed isn’t uniform and grows into multiple small crystals.





MAIN FEATURES



  • High efficiency and reliable crystalline silicone solar cells to ensure product output stability.
  • High Transmission low iron tempered glass having strong mechanical resistance.
  • Low Voltage-Temperature coefficient result in higher output at high temperature conditions.
  • Anti aging EVA and anti climate back sheet.
  • Anodized aluminium frames for improved load resistance in heavy wind conditions.
  • Water proof standard junction box.
  • High endurance to different weather conditions.



Specification

Module Type GS150P
Maximum Power (Pmax) 150W
Cell Type Polycrystalline 156x156mm
Front Glass 3.2mm high transmission tempered glass
Frame Anodized aluminium alloy
Junction Box IP65 with Bypass diodes
Connector Type MC4 Compatible
Output Cables 900mm, 4mm
Dimensions 1480x670x35mm
Weight 12KG


Performance AT STC: 1000 W/M2, 250C, AM 1.5

Maximum Power at STC (Pmax) 150 W
Maximum Power Voltage (Vmmp) 18 V
Maximum Power Current (Impp) 8.34 A
Open Circuit Voltage (Voc) 20.5 V
Short Circuit Current (Isc) 9.0 A
Cell Efficiency 18%
Module Efficiency 16%
Power Efficiency +- 3%


Performance at NOCT: 800 W/M2, 45 (+/- 3) °C, AM 1.5




Maximum Power at NOCT (Pmax) 110.1 W
Maximum Power Voltage (Vmp) 16.2 V
Maximum Power Current (Imp) 6.3 A
Open Circuit Voltage (Voc) 20.6 V
Short Circuit Current (Isc) 7.1 A


Minor reduction in efficiency under partial load conditions at 25°C: at 200 W/m², 100% (+/-2%) of the STC efficiency (1000 W/m²) is achieved.



PARAMETERS FOR OPTIMAL SYSTEM INTEGRATION



Maximum System Voltage
Operating Temperature
Maximum Series Fuse
Maximum Reverse Current
Maximum Static Loading
Conductivity at Ground
Number of Bypass Diodes

1000V-DC
-40 + 850C
16A
21.5A
5400/Pa
≤ 0.1Ω
3



TEMPERATURE COEFFICIENT


NOCT 450C ±3
Temperature Coefficient of Pmax -0.4% / 0C
Temperature Coefficient of Voc -0.31% / 0C
Temperature Coefficient of Isc -0.06% / 0C


Physical Characteristics


Specification

Module Type GS250P
Cells Per Module 60
Maximum Power (Pmax) 250W
Cell Type Polycrystalline 156x156mm
Front Glass 3.2mm high transmission tempered glass
Frame Anodized aluminium alloy
Junction Box IP65 with Bypass diodes
Connector Type MC4 Compatible
Output Cables 900mm, 4mm
Dimensions 1640x992x40mm
Weight 18KG


Performance at standard test condition (STC: 1000 W/M2, 250C, AM 1.5

Maximum Power at STC (Pmax) 184.4 W
Maximum Power Voltage (Vmmp) 30.58 V
Maximum Power Current (Impp) 8.17 A
Open Circuit Voltage (Voc) 36.72 V
Short Circuit Current (Isc) 8.76 A
Cell Efficiency 18%
Module Efficiency 16%
Power Efficiency +- 3%


Performance at NOCT: 800 W/M2, 45 (+/- 3) °C, AM 1.5




Maximum Power at NOCT (Pmax) 110.1 W 184.4 W 221.1 W
Maximum Power Voltage (Vmp) 16.2 V 27.6 V 33.5 V
Maximum Power Current (Imp) 6.3 A 6.7 A 6.6 A
Open Circuit Voltage (Voc) 20.6 V 34.2 V 42.1 V
Short Circuit Current (Isc) 7.1 A 7.2 A 7.2 A


Operating Conditions



Maximum System Voltage
Operating Temperature
Maximum Series Fuse
Maximum Reverse Current
Maximum Static Loading
Conductivity at Ground
Number of Bypass Diodes

1000V-DC
-40 + 85C
16A
21.5A
5400/Pa
≤ 0.1Ω
3

TEMPERATURE COEFFICIENT


NOCT 45C ±3
Temperature Coefficient of Pmax -0.4% / C
Temperature Coefficient of Voc -0.31% / C
Temperature Coefficient of Isc -0.06% / C


Physical Characteristics


Specification

Module Type GS300P
Cells Per Module 72
Maximum Power (Pmax) 300W
Cell Type Polycrystalline 156x156mm
Front Glass 3.2mm high transmission tempered glass
Frame Anodized aluminium alloy
Junction Box IP65 with Bypass diodes
Connector Type MC4 Compatible
Output Cables 900mm, 4mm
Dimensions 1950x990x45mm
Weight 23KG


Performance at STC: 1000 W/M2, 250C, AM 1.5

Maximum Power at STC (Pmax) 300 W
Maximum Power Voltage (Vmmp) 36 V
Maximum Power Current (Impp) 8.3 A
Open Circuit Voltage (Voc) 42.48 V
Short Circuit Current (Isc) 9.2 A
Cell Efficiency 18%
Module Efficiency 16%
Power Efficiency +- 3%


Performance at NOCT: 800 W/M2, 45 (+/- 3) °C, AM 1.5




Maximum Power at NOCT (Pmax) 110.1 W 184.4 W 221.1 W
Maximum Power Voltage (Vmp) 16.2 V 27.6 V 33.5 V
Maximum Power Current (Imp) 6.3 A 6.7 A 6.6 A
Open Circuit Voltage (Voc) 20.6 V 34.2 V 42.1 V
Short Circuit Current (Isc) 7.1 A 7.2 A 7.2 A


Operating Conditions



Maximum System Voltage
Operating Temperature
Maximum Series Fuse
Maximum Reverse Current
Maximum Static Loading
Conductivity at Ground
Number of Bypass Diodes

1000V-DC
-40 + 85C
16A
21.5A
5400/Pa
≤ 0.1Ω
3

TEMPERATURE COEFFICIENT


NOCT 45C ±3
Temperature Coefficient of Pmax -0.4% / C
Temperature Coefficient of Voc -0.31% / C
Temperature Coefficient of Isc -0.06% / C


Physical Characteristics

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