The BlackContact module provides numerous benefits to customers seeking a high-quality product with exceptional performance and aesthetic, captivating design.
The “BlackContact'' series module utilizes N-Type cell technology in conjunction with a rear connection method known as BackContact. As a result, there is 0% front grid shadow loss, which increases the PV module’s yield.
Due to reduced shading on the front of the cell, the module maximizes total cell area, realizing higher efficiency and resulting in a fast return on investment.
Hetero Junction (HJT) photovoltaic module is a Ground breaking Technology, HJT technology guarantees high performance and low degradation of the PV module, substantially improving the results and the yield in the time.
“Heterojunction Technology” Series module is the ideal solution for end users who want a Quality PV & reliable product over time and a fast turnaround on their investments.
N-Type solar cells (TOPCon) are seen as the technology of the future.
N-Type (TOPCon) technology guarantees and adopts multiple efficiency improving strategies to achieve higher efficiency, lower degradation of the PV module, lower temperature coefficient, higher bifaciality rate and better low light performance.
The OPENAX “TOPCon Technology” module is the ideal solution for end users who want a Quality PV & reliable product over time and a fast turnaround on their investments.
Shingled technology eliminates traditional ribbon connection with shingles connected in series.
By removing the soldered ribbons, the active area of the module is improved and thermal stresses are reduced - resulting in exceptional efficiency and reliability over standard interconnections.
Ground breaking technology; higher power output, improved system performance - the ideal solution for end users who want a fast turnaround on their investments.
A fully certified premium quality and high efficiency module made with A Grade materials.
The Half-Cut Technology reduces the influence of shadow on the module power generation, the performance under shadow occlusion is greatly improved.
