Innovative Solutions for Wireless Energy Transmission in Space

Advancing Space Power with SiC Technology

By optimizing power converters and laser configurations, we are overcoming conventional limitations and setting new standards for wireless energy transmission in the most challenging environments, making deep space exploration more efficient and sustainable than ever before.

Innovative Power Converters
Innovative Power Converters

By integrating new SiC-based power converters and optimizing laser configurations, RePowerSiC sets new standards for wireless power transfer, specifically engineered for challenging space environments.

Cutting-Edge Technology Development
Cutting-Edge Technology Development

Our development process pushes the boundaries of power transmission, laying the foundation for future applications in space exploration.

Advanced SiC Materials
Advanced SiC Materials

Leveraging Silicon Carbide (SiC) materials, our high-power laser beaming system redefines efficiency, sustainability, and capability for spacecraft power transmission.

Reducing Conventional Limitations
Reducing Conventional Limitations

RePowerSiC overcomes limitations of conventional power systems, reducing dependency on batteries and solar panels, while expanding possibilities for deep space missions.

Expanding Mission Possibilities
Expanding Mission Possibilities

Our technology supports lunar explorations, deep space missions, and operations in challenging environments.

A Paradigm Shift in Space Exploration
A Paradigm Shift in Space Exploration

RePowerSiC represents a paradigm shift, paving the way for efficient and sustainable space exploration, pushing the boundaries of human capability.

The Core of Our Innovation

Why SiC?

Silicon Carbide (SiC) is at the core of our innovation because it offers unique advantages for space applications. SiC has a wide bandgap, making it highly efficient in converting laser energy even under extreme conditions. Unlike traditional materials such as GaAs, SiC is more resistant to radiation, capable of operating at high temperatures, and allows for a much smaller and more compact power conversion unit.

These characteristics make SiC ideal for achieving our mission objectives:

  • Higher Efficiency. SiC enables power conversion efficiencies that surpass traditional materials, essential for powering spacecraft over long distances.
  • Durability in Space. With its resistance to radiation and high temperatures, SiC is well-suited for the harsh environment of space, providing long-term stability.
  • Local Marketing. SiC allows for the development of smaller, lighter receivers, which increases payload capacity and reduces launch costs.

By choosing SiC, RePowerSiC is paving the way for more efficient, sustainable, and capable space missions, ultimately expanding the horizons of what we can achieve in space exploration.