Project Tinker focuses on additive manufacturing of RADAR and LiDAR sensor packages for self-driving cars. To enable such mass-production of printed electronics, PV Nano Cell developed a complete solution of Digital Conductive Inks, Printers and the Printing Process. The presentation describes PV Nano Cell’s complete solution, its components and how they are used to achieve groundbreaking results in the Automotive, Embedded Passive Components, Solar and other markets.
Continue reading “Complete Additive Manufacturing Solution for Mass-Production Printed Electronics”Multimaterial Inkjet Printing for Radar Waveguide Antennas
In this presentation, the printed waveguide antennas investigated in the TINKER project are considered from both a technical and an economic point of view. The printed antennas have high potential to reduce production costs and weight as well as to increase functional integration.
Continue reading “Multimaterial Inkjet Printing for Radar Waveguide Antennas”The H2020 TINKER project (VIDEO)
The project TINKER targets the development of a new reliable, accurate, functional, cost-affordable and resource-efficient pathway for RADAR and LiDAR sensor package fabrication, following 2 main objectives: Establishing the TINKER platform based on Additive Manufacturing {AM} and Fabrication of RADAR and LiDAR sensor packages as use cases.
Continue reading “The H2020 TINKER project (VIDEO)”Fabrication of Sensor Packages enabled by Additive Manufacturing – TINKER
Autonomous driving and self-driving cars represent one prominent example for the use of microelectronics and sensors, most importantly RADAR and LiDAR sensors. Their respective markets have a big potential, e.g. it is estimated that the market size of LiDAR in automotive will double itself in the next two years (within 2020 to 2022).
Continue reading “Fabrication of Sensor Packages enabled by Additive Manufacturing – TINKER”