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High Power PERC Solar Panel N Type Silicon Module Cells Tier 1

High Power Solar Panels

High Power PERC Solar Panel N Type Silicon Module Cells Tier 1

450W PERC solar panels of half cut PV cells, the PERC technology engineered MBB cells provide highest efficiency in harnessing the solar energy.


Brief Parameters of PERC Solar Panel 450W:

  • Cell Amount 60*2 pcs
  • Maximum System Voltage 1500V
  • Junction Box IP68
  • Frame Aluminum Alloy
  • Output Tolerance 0~+5W
  • Fuse Current 20A
  • Operating Temperature -40°C~+85°C
  • Wind Load/Snow Load 2400pa/5400pa
  • Cable 4mm²/300mm
  • Connector MC4 Compatible
  • Weight 23.0kg
  • Dimensions 1909mm*1134mm*30mm
  • Packing 36 pcs/pallet. 40HQ loading 864 pcs, 24 pallets

Features of PERC Solar Panel N Type Silicon Module Cells

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PERC PV Cell

Highest PV efficiency PERC Technology of P Type mono crystalline cells

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11 MBB Half-Cut

The multi-busbar design can decrease the risk of the cell micro- cracks and fingers broken.

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460 Watts Output

440W ~ 460W rated solar power output under STC and BSTC conditions.

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G19 182mm Wafer

Half-cut G10 182mm wafer, enhanced performance in current, resistance and temperature.

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High PV Conversion

High conversion efficiency and more power output per square meter harvesting.

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Sturdy Metallica Frame

Withstand wind / snow load up to 2400pa/5400pa.

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No Bo-lid

Complying IEC 62804, our PV modules have demonstrated resistance against PID (Potential Induced Degradation), which translates to security for your investment.

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Minimized Shading Losses

Advanced half-cut technology minimizes shading losses. Rated solar power output 350W under STC and BSTC conditions.

Brief Introduction of PERC Solar Panel N Type Silicon Module Cells

JM Industry PERC half-cut mono crystalline solar panels assembled with PERC PV cells, the PERC half-cell configuration of the modules offers the advantages of higher power output, Cell temperature dependent performance, reduced shading effect on the energy generation, lower risk of hot spot, as well as enhanced tolerance for mechanical loading. JM Solar Perc Solar Panel 460W adopts the PERC technology process, offers the advantages of higher power output, better temperature-dependent performance, reduced shading effect on the energy generation, lower risk of hot spot, as well as enhanced tolerance for mechanical loading.Brief Introduction of PERC Solar Panel N Type Silicon Module Cells

 Technical Advantage of PERC Solar Panel N Type Silicon Module Cells

● Efficient 182 MBB cells: Better current collection capacity, larger power generation area, beautiful appearance, more suitable for roof installation.
● High output power: Adopting PERC cell structure technology (low resistance characteristic), mono module has a maximum output power of 600W (module conversion efficiency up to 22%).
● Low light performance: Excellent surface velvet technology for glass and battery cells, excellent performance can be achieved in low light environments.
● Adaptability to harsh environments: Certified for high salt spray and high ammonia corrosion testing, capable of adapting to harsh and complex environments. 

Technical Specification of Half-cut PERC Solar Panels (P type Mono)

Here is the technical data for PERC Solar Panels 440W ~ 460W.

Technical Specification of Half-cut PERC Solar Panels (P type Mono)

Drawings & Dimensions of PERC Solar Panel 450W (Mono crystalline P Type)

Here is the dimension drawings for PERC solar module JPT450W.Drawings & Dimensions of PERC Solar Panel 450W (Mono crystalline P Type)

Packing of Mono PERC Solar Panel P Type Module

Packing of Mono PERC Solar Panel P Type Module

Life-span and quality guarantee of P Type PERC Solar Modules

The design life-span of N Type PERC Solar Modules is 30 years. We provide quality guarantee of 12 years for our products.

What is PERC (Passivated Emitter and Rear Cell) in Solar Industry?

PERC (Passivated Emitter and Rear Cell) technology represents a significant advancement in solar panel design, enhancing the efficiency and performance of photovoltaic modules. It's considered a refinement of traditional solar cell structures, primarily aimed at improving light absorption and energy conversion rates. By passivating the rear surface, PERC technology reduces electron losses and enhances the cell's ability to harness sunlight, thereby increasing its efficiency. This improvement enables PERC solar panels to produce more electricity from the same amount of sunlight compared to conventional solar cells.

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