Technology
Reliable, cost-efficient, and easy to integrable solar arrays for tomorrow's satellites.
Embedded Files
Mechanical
Mechanical
We are vertically integrated: All mechanical components, such as joints, hold-down-and-release mechanisms, and inserts, are fully manufactured in-house
Deployable Wing
Sandwich panels with an aluminum honeycomb core and aluminum facing layers
Available in various configurations: Single, dual, or triple-panel setups are possible
Locking Hinge
Locking Hinge
Various mounting configurations available
All hinges feature locking mechanisms
Configurable locking angle
High deployed stiffness
Cells
Cells
All cell types have flight heritage
Silicon-Cell/Module
Silicon-Cell/Module
Available for CubeSats of all sizes
Highly cost-efficient and easy to handle
Flight proven
25% BOL efficien
Fully integrated silicon solar cell with back contacts & polycarbonate encapsulation
GaAs - Cells & Strings
GaAs - Cells & Strings
High efficiency cell for long space missions
30% BOL efficiency
Triple junction cell with bypass diode & cover glass
Superior radiation hardness
Arrays proven on Curium One
Arrays proven on Curium One
Our team designed and built most satellite subsystems, and successfully tested them in orbit
Engineering Model
Curium One
Curium One during illumination & charge testing
Our team designed the cost-efficient 12U satellite bus Curium One and tested it successfully in orbit - Curium One - Space for All.
Most subsystems including Solar Panels as well as Power Conditioning and the On Board Computer were developed from scratch for this mission by our team members on a ~28V architecture.
In Orbit
Demonstration
Deployment of Curium from Ariane 6, Credit @ESA July 2024
Inaugural flight of Ariane 6 Curium One was deployed successfully
All important telemetry obtained to verify the functionality of the satellite bus, thus making the mission a success!
Ready to Power Your Satellite Mission?
Page updated
Report abuse