The modules can be as light as 1 Kg/m2, as thin as 1 mm, and bendable up to a radius of 300 mm.
By combining world's leading materials and knowledge, our modules belong to the most efficient the world.
Our solar modules are build up from different layers. For each layer there are different options available. In each project we carefully select a combination of layers so that the resulting module fits its purpose at its best. Besides in-house experimentation with new (combinations of) materials, we also work with world's leading solar cell manufacturers and collaborate with students and researchers of the Delft University of Technology. This enables us to produce the most efficient solar panels commercially available while being flexibele, light weight, durable and resistant to extreme weather conditions.
Our top layer is designed to have a high light transmission, low dust adhesion, and strong protective characteristics
We use adhesive and protective layers that prevent damage and guarantee a durable solution
The backlayer can be highly reflective for solar panel efficiency or be chosen in any colour (including transparent) for aesthetic purposes.
When desired the top layer can also be coloured, antislip, or made of transparant or coloured Kromatix glass
We can work with all different type of solar cells, including monocrystalline backcontact (Sunpower) and space-grade GaAs cells
The modules can be flexible, such that the shape of the underground can be perfectly followed. The modules are not limited to straight edges, but can fit a special shape.
The modules can be as thin as 1 mm and as light as 1000 g/m2.
In order to get the most out of the sun, we can design the optimal combination of maximum power point trackers, converters and batteries.
Depending on the project, the optimal materials, solar cells and electrical components are selected. When using our standard lightweight materials, the solar systems have the following technical specifications:
Cell spacing: 1mm
Cell to module edge spacing: 2mm
Max. bending radius: 300mm
Partial discharge: > 1000 VDC
Breakdown voltage: > 17 kV
Energy: 254 kWh/m2/year (Based on 1200 sunhours)
Material: Coated copper ribbon
Dimensions: 5mm wide, 0.15mm thick
SunPower monocrystalline silicon cells (IBC)
Efficiencies can reach 25%