Metawolf Solar HJT
Higher Efficiency, Lower Carbon
Metawolf Solar
Higher Efficiency, Lower Carbon
23.34%
Max. Module Efficiency
40%
Less Carbon Footprint
30
Years
Power Warranty
30
Years
Product Warranty
Product Highlights
Higher Efficiency
Module Efficiency: 22%-23%
Metawolf HJT technology uses amorphous silicon thin-film layers, which can capture a broader spectrum of light and convert it into electricity efficiently, meaning that they can convert a greater percentage of sunlight into electricity compared to traditional solar panels.
Higher Bifaciality
Higher Bifaciality
up to 90%
up to 90%
Metawolf HJT solar modules have a higher bifaciality of up to 90%, which is much higher than the 70% of PERC panels. This feature increases energy production, especially in scenarios where sunlight can be reflected onto the rear side of the panel.
Metawolf HJT solar modules have a higher bifaciality of up to 90%, which is much higher than the 70% of PERC panels. This feature increases energy production, especially in scenarios where sunlight can be reflected onto the rear side of the panel.
Optimized Temperature Coefficient
Optimized Temperature Coefficient
-0.26%/ ℃
-0.26%/ ℃
HJT modules are less susceptible to efficiency losses as temperatures rise. Our Metawolf HJT solar module features a superior temperature coefficient of -0.26% / ℃ compared to the -0.35% / ℃ of P-type modules. As a result, when the cell temperature reaches 60 ℃, our HJT solar module generates an 3.15% more power compared to PERC modules.
HJT modules are less susceptible to efficiency losses as temperatures rise. Our Metawolf HJT solar module features a superior temperature coefficient of -0.26% / ℃ compared to the -0.35% / ℃ of P-type modules. As a result, when the cell temperature reaches 60 ℃, our HJT solar module generates an 3.15% more power compared to PERC modules.
Lower Decay Rate
≤ 1%
1st year degradation
≤ 0.375%
1st year degradation
≥ 88%
Power output in the 30th year.
Certification
Certification
Junction Box Protection
IP68
Lower Carbon Footprint
Thinner and Using Less Silicon
HJT Cell is only 100 μm while PERC is 160 μm in thickness.
Manufactured under Lower Temperature
HJT solar cells are produced at temperatures below 230 ℃, while PERC solar cells require high-temperature processes exceeding 900 ℃.
Fewer Cell Production Processes
HJT solar cells are produced in just four steps, whereas PERC cells require eight steps for manufacturing.
