
Funded projects
Research and a strong commitment to innovation have been part of Prima Electro's DNA since its foundation. Thanks to its significant technological know-how and the ability to design and develop cutting-edge embedded electronics, in the last 10 years Prima Electro has taken part in many funded projects in different industrial fields.
Find out which
HVPS (High Voltage Power Supply)
Design, production and testing of a high voltage power supply family (higher than 30 kV) used for driving the discharge currents of high-power CO2 laser resonators.
IQONIC
Innovative strategies, sensing and process chains for increased Quality, re-configurability, and recyclability of Manufacturing OptolectrONICs. The target of the project is to develop a scalable zero defect manufacturing platform covering the overall process chain to achieve flexibility, zero-defect production, and sustainability.
GREENFACTORY4COMPO
The project aims to find innovative manufacturing solutions to increase the use of high-performance composite polymeric materials in an environmentally friendly manner, combining cost-effective, sustainable energy and environmental benefits.
DIODEFAB
Development of high-power laser diodes, 100 and 200 Watts, for use as an optical pumping unit for the active fiber in a high-power laser source for industrial applications.
WHITE’R
Development, production and test of an integrated modular solution consisting of a physical production cell empowered by an innovative software infrastructure for the production of high value added optoelectronic components. This integrated solution is entitled white’R – white room based on Reconfigurable robotic island for optoelectronics.
PULSED
The project, carried out by Prima Electro in collaboration with ChiLab (branch of the Politecnico di Torino based in Chivasso), developed the command and control electronics for the current driving of laser diodes purchased from third parties for optical pumping of a laser resonator prototype made with ytterbium-doped active fiber.
ENERMAN
Energy Efficient Manufacturing System Management - The project aims to manage energy consumption in a more efficient way by creating an energy sustainability management framework collecting data from the factory to be used to predict energy trends using industrial processes, equipment and energy cost models, suggesting implementations useful to reach the energy consumption sustainability KPIs.
MESOMORPH
Development of a new generation of all-in-one machine integrating hybrid technologies to achieve throughput targets that compete against the high-volume scale manufacturing of high valued-added optoelectronics.