HomeSolar PanelHJTHigh Efficiency 210mm 132Cells N-type HJT Bifacial Dual Glass Solar Panels
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High Efficiency 210mm 132Cells N-type HJT Bifacial Dual Glass Solar Panels

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  • 23.02% efficient HJT N-type solar panel with 210mm cells, delivering superior performance and reliability for advanced photovoltaic systems.
  • 23.02% efficient N-type HJT solar module with 210mm cells, delivering superior performance and reliability for advanced photovoltaic systems.
  • 210mm N-type HJT solar panel delivers 23.02% efficiency, providing superior performance and reliability for advanced photovoltaic applications.
  • 23.02% efficient N-type HJT solar module with 210mm cells, delivering superior performance and reliability for advanced photovoltaic applications.
  • 23.02% efficient HJT N-type solar panel with 210mm cells, delivering superior performance and reliability for advanced photovoltaic systems.
  • 23.02% efficient N-type HJT solar module with 210mm cells, delivering superior performance and reliability for advanced photovoltaic systems.
  • 210mm N-type HJT solar panel delivers 23.02% efficiency, providing superior performance and reliability for advanced photovoltaic applications.
  • 23.02% efficient N-type HJT solar module with 210mm cells, delivering superior performance and reliability for advanced photovoltaic applications.
  • 1.HJT 2.0 Technology
    Combining gettering process and single -sideuc -Si technology to ensure higher cell ecency ond higher mocule power.

    2.-0.26%/°C Pmax temperature coefficient
    More stable power generation perormance and even better inhot climate.

    3.SMBB design with Half-Cut Technology
    Shorter curent tmnsmission cistanoe, less resis tive loss andhigher cell effciency.

    4.Up to 90% Bifaciality
    Natruel symmetrical bifocial structure bringing moreenergy yield from the backside. S5.ealing with PlB based sealant Stronger water sesistanoe, greater ar impermeabilityto extent mocule lifespan.
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FAQS

Q :

What technologies are combined in 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 ensure higher cell efficiency and higher module power.

Q :

What is the temperature coefficient of HJT 2.0, and how does it benefit performance in hot climates?

A :

The temperature coefficient of HJT 2.0 is -0.26%/°C, which ensures more stable power generation performance and better efficiency in hot climates.

Q :

How do SMBB design and Half-Cut Technology contribute to higher cell efficiency?

A :

The SMBB design and Half-Cut Technology reduce current transmission distance and resistive loss, leading to higher cell efficiency.

Q :

What are the advantages of HJT 2.0's bifacial structure and PIB-based sealant?

A :

The natural symmetrical bifacial structure provides up to 90% bifaciality, increasing energy yield from the backside. The PIB-based sealant offers stronger water resistance and greater air impermeability, extending the module lifespan.

Mechanical Parameters

Layout132Cells (6×22)
Dimensions2384 × 1303 × 35mm
Weight38.7kg
Junction boxIP68
Packaging31pcs/box, 558pcs/40'HQ

Electrical Characteristics (STC*)

Module Type: MS-66HB700705710715720
Maximum power (Pmax/W)700705710715720
Open Circuit Voltage (Voc/V)50.1350.2950.4450.5950.74
Short Circuit Current (Isc/A)17.4317.4917.5517.6117.67
Voltage at Maximum power (Vmpp/V)42.1042.2542.3942.5442.68
Current Maximum Power (Impp/A)16.6316.6916.7516.8116.87
Module Efficiency (%)22.5322.7022.8623.0223.18

Electrical Characteristics (NMOT*)

Maximum power (Pmax/W)735740746751756
Module Efficiency STC (%)23.6623.8324.0024.1724.34
Maximum power (Pmax/W)805811817822828
Module Efficiency STC (%)25.9126.1026.2826.4726.66
Maximum power (Pmax/W)875881888894900
Module Efficiency STC (%)28.1728.3728.5728.7728.97

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