HomeSolar PanelHJT210mm Solar Cell Double Glass N-type HJT Solar Panel 630W 650W
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Detail Parameters

210mm Solar Cell Double Glass N-type HJT Solar Panel 630W 650W

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  • High-efficiency 182mm N-type HJT bifacial half-cell modules delivering 485-505W output with improved energy yield and reliability.
  • 210mm N-type dual glass solar modules delivering 630-650W output with high efficiency and durability for industrial applications.
  • 210mm TOPCon N-type bifacial solar panels, 630W-650W output, durable double-glass design for high efficiency & reliability.
  • 630-650W 210mm N-type bifacial modules with anti-corrosion coating, high efficiency, and superior energy yield for demanding environments.
  • High-efficiency 182mm N-type HJT bifacial half-cell modules delivering 485-505W output with improved energy yield and reliability.
  • 210mm N-type dual glass solar modules delivering 630-650W output with high efficiency and durability for industrial applications.
  • 210mm TOPCon N-type bifacial solar panels, 630W-650W output, durable double-glass design for high efficiency & reliability.
  • 630-650W 210mm N-type bifacial modules with anti-corrosion coating, high efficiency, and superior energy yield for demanding environments.
  • 1.Enhanced Efficiency & Power Output
    Integrates gettering and single-side uc-Si technology for higher cell efficiency and increased module power.

    2.Low Temperature Coefficient (-0.26%/°C)
    Delivers stable power generation with superior performance in high-temperature environments.

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

    4.High Bifaciality (Up to 90%) & Advanced Sealing
    Features a symmetrical bifacial structure for enhanced rear-side energy yield, coupled with PIB-based sealant for improved water resistance and extended module durability.
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FAQS

Q :

What technologies are integrated into HJT 2.0 to enhance 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 benefit its performance?

A :

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

Q :

What advantages do SMBB design and Half-Cut Technology provide 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 performance.

Q :

How does HJT 2.0 achieve higher energy yield and durability?

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, extending module lifespan.

Mechanical Parameters

Layout120Cells (6×20)
Dimensions2172 × 1303 × 35mm
Weight35.3kg
Junction boxIP68
Packaging31pcs/box, 558pcs/40'HQ

Electrical Characteristics (STC*)

Module Type: MS-60HB630635640645650
Maximum power (Pmax/W)630635640645650
Open Circuit Voltage (Voc/V)45.3045.4845.6545.8245.99
Short Circuit Current (Isc/A)17.3717.4317.4917.5517.61
Voltage at Maximum power (Vmpp/V)38.0338.1938.3538.5138.67
Current Maximum Power (Impp/A)16.5716.6316.6916.7516.81
Module Efficiency (%)22.2622.4422.6122.7922.97

Electrical Characteristics (NMOT*)

Maximum power (Pmax/W)662667672677683
Module Efficiency STC (%)23.3723.5623.7423.9324.12
Maximum power (Pmax/W)725730736742748
Module Efficiency STC (%)25.6025.8026.0126.2126.41
Maximum power (Pmax/W)788794800806813
Module Efficiency STC (%)27.8328.0528.2728.4928.71

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