Positive power tolerance (0-+5W) guaranteed
High module conversion efficiency (up to22.53%)
Slower power degradation enabled by Low LID technology: first year <1%,0.40% year 2-30
Solid PlD resistance by solar cell process optimization and careful module BOM selection
Reduced resistive loss with lower operating current
Higher energy yield with lower operating temperature
Reduced hot spot risk with optimized electrical design and lower operating current
Positive power tolerance (0-+5W) guaranteed
High module conversion efficiency (up to23.04%)
Slower power degradation enabled by Low LID technology: first year <1%,0.40% year 2-30
Solid PlD resistance by solar cell process optimization and careful module BOM selection
Reduced resistive loss with lower operating current
Higher energy yield with lower operating temperature
Reduced hot spot risk with optimized electrical design and lower operating current
Positive power tolerance (0-+5W) guaranteed
High module conversion efficiency (up to22.53%)
Slower power degradation enabled by Low LID technology: first year <1%,0.40% year 2-30
Solid PlD resistance by solar cell process optimization and careful module BOM selection
Reduced resistive loss with lower operating current
Higher energy yield with lower operating temperature
Reduced hot spot risk with optimized electrical design and lower operating current
Positive power tolerance (0-+5W) guaranteed
High module conversion efficiency (up to23.04%)
Slower power degradation enabled by Low LID technology: first year <1%,0.40% year 2-30
Solid PlD resistance by solar cell process optimization and careful module BOM selection
Reduced resistive loss with lower operating current
Higher energy yield with lower operating temperature
Reduced hot spot risk with optimized electrical design and lower operating current