- PROLLiON designs, develops, industrializes and manufactures cells and battery systems based on the most innovative lithium-ion technologies.
These systems offer breakthrough performances and are intended to the most constrained environments:
- High energy density
- High specific power
- Extreme temperatures
- Explosive environments
- Complex integration
High energy density
The use of innovative electrochemical materials developed through research programs allows for significant gains in energy density.
Solutions with an energy density of 250 Wh/kg are currently undergoing qualification testing.
They are particularly suitable for applications requiring significant autonomy.
High specific power
The battery systems developed by PROLLiON are particularly intended for applications requiring high specific power. This is achieved by means of mechanically, electrically and thermally tailored solutions.
Specific electrochemistry is used to adjust the power-energy ratio, and to optimize the weight-volume ratio of the battery system.
Our solutions can achieve a power density of more than 3kW/kg.
Extreme temperatures
PROLLiON selects the electrochemical materials best suited for the target application temperature range.
- extremely cold temperatures: < -20°C;
- hot temperatures: > +40°C;
- extremely hot temperatures: > +100°C.
The mechanical, thermal, electronic and electrotechnical architecture of our battery systems is specifically developed to meet temperature constraints and power, autonomy, lifetime and safety requirements.
Explosive environments
PROLLiON develops battery systems for applications in explosive environments.
The use of tailored components and specific cells within a dedicated architecture allows for the development of reliable and stable solutions with improved intrinsic safety characteristics.
Complex integration
PROLLiON develops battery systems optimally suited for complex and space-constrained integration.
The custom design of these systems is based on the following:
- selection or adaptation of cell format;
- modular architecture.
