HomeSolar PanelHJTN-type HJT Bifacial Half Cut Cell 182mm Solar Panel 485W 495W 505W
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N-type HJT Bifacial Half Cut Cell 182mm Solar Panel 485W 495W 505W

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  • 182mm N-type HJT bifacial half-cell modules, 485-505W output, high efficiency, superior durability and enhanced energy yield.
  • N-type HJT Bifacial 182mm half cell panels: 485-505W output, improved bifacial gain, reduced degradation and superior low light performance for optimised ROI.
  • 182mm N-type HJT bifacial half-cell modules deliver 485-505W and feature dual-side generation, high efficiency and thermal stability for utility/commercial systems.
  • N-type HJT 182mm bifacial half-cell modules deliver 485-505W output with improved efficiency, dual-side energy harvest and optimised durability for utility-scale systems.
  • 182mm N-type HJT bifacial half-cell modules, 485-505W output, high efficiency, superior durability and enhanced energy yield.
  • N-type HJT Bifacial 182mm half cell panels: 485-505W output, improved bifacial gain, reduced degradation and superior low light performance for optimised ROI.
  • 182mm N-type HJT bifacial half-cell modules deliver 485-505W and feature dual-side generation, high efficiency and thermal stability for utility/commercial systems.
  • N-type HJT 182mm bifacial half-cell modules deliver 485-505W output with improved efficiency, dual-side energy harvest and optimised durability for utility-scale systems.
  • 1.High Efficiency & Power Output
    Combines gettering and single-side uc-Si technology for superior cell efficiency and enhanced module power.

    2.Low Temperature Coefficient (-0.26%/°C)
    Ensures stable performance in high-temperature environments, minimizing power loss.

    3.SMBB & Half-Cut Design
    Reduces current transmission distance and resistive losses, optimizing cell efficiency.

    4.90% Bifaciality & Advanced Sealing
    Symmetrical bifacial structure increases rear-side energy yield, while PIB-based sealant improves water resistance and extends module lifespan.
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FAQS

Q :

What technologies are integrated into HJT 2.0 to improve cell efficiency and module power?

A :

HJT 2.0 combines the gettering process and single-side uc-Si technology to achieve higher cell efficiency and increased module power output.

Q :

How does the -0.26%/°C temperature coefficient of HJT 2.0 enhance its performance?

A :

The low temperature coefficient ensures stable power generation, especially in hot climates, with minimal efficiency loss as temperatures rise.

Q :

What are the benefits of SMBB design and Half-Cut Technology in HJT 2.0?

A :

SMBB design and Half-Cut Technology reduce current transmission distance and resistive losses, resulting in higher cell efficiency and improved overall performance.

Q :

How does HJT 2.0 achieve higher energy yield and extended module lifespan?

A :

HJT 2.0 features up to 90% bifaciality for increased rear-side energy yield and uses PIB-based sealant for stronger water resistance and greater air impermeability, ensuring a longer module lifespan.

Mechanical Parameters

Layout120Cells (6×20)
Dimensions1910 × 1134 × 30mm
Weight26.0kg
Junction boxIp68 rated (3 by pass diodes)
Packaging36pcs/box, 216pcs/20'GP, 864pcs/40'HQ

Electrical Characteristics (STC*)

Module Type: MS-60HB485490495500505
Maximum power (Pmax/W)485490495500505
Open Circuit Voltage (Voc/V)44.9345.1545.3745.5945.81
Short Circuit Current (Isc/A)13.5713.4213.4713.5213.57
Voltage at Maximum power (Vmpp/V)37.5437.7838.0238.2638.50
Current Maximum Power (Impp/A)12.9212.9713.0213.0713.12
Module Efficiency (%)22.3922.6222.8523.0823.32

Electrical Characteristics (NMOT*)

Maximum power (Pmax/W)509515520525530
Module Efficiency STC (%)23.5123.7524.0024.2424.48
Maximum power (Pmax/W)558564569575581
Module Efficiency STC (%)25.7526.0226.2826.5526.81
Maximum Power (Pmax/W)606613619625631
Module Efficiency STC (%)27.9928.2828.5728.8629.14

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