Innovative EMI shielding boosts 5G performance
To tackle this problem Heraeus developed a new EMI shielding system, which is based on a silver ink printer that ensures a proper functioning of high-frequency on-board chips and their ultra-fast data transmission. The system consists of a special silver ink formula and a manufacturing machine that can apply the shielding coating followed by special ultraviolet and infrared equipment for curing.
“In a 5G world, the Heraeus EMI Shielding Solution is the most cost-effective answer for technology that is going faster, higher and further every day,” says Franz Vollmann, Head of Heraeus Printed Electronics.
The new EMI shielding technology from Heraeus saves considerable costs and effort in comparison to traditional shielding technologies like metal housings or vacuum-based sputtering. In contrast to sputtering, the protective silver layer is applied to the carrier object with sub-micrometer precision by using printing nozzles.
“Our new EMI shielding system will replace sputtering technology. It not only saves material and costs, but it also leads to a much better shielding performance. This is necessary for further miniaturization,” says Franz Vollmann, Head of Heraeus Printed Electronics.
Silver inkjet-printing also offers further decisive advantages over sputtering in terms of cost and efficiency. The investment cost for the new Heraeus system is around US $500,000 (depending on the machine configuration), which is a fraction of the price of a sputtering system. At the same time, the number of units able to be produced per hour is between 12,000 and 15,000 – more than three times the output from a sputtering system.
“Adding the saved investment, our inkjet process is 15 times better at one million parts per year,” explains Vollmann.
Previous inkjet solutions often failed due to unsuitable inks, which irreparably clog the printheads. The Heraeus advantage lies in its innovative ink molecular structure – based on Metal Organic Decomposition (MOD), the silver components are not individual ink nanoparticles, but linked elements of organic molecular chains.
After being applied, the organic parts evaporate through the application of heat – only the silver remains. In this way, the heads remain unclogged by individual particles, which saves considerable costs and effort.
www.heraeus-printed-electronics.com
If you enjoyed this article, you will like the following ones: don't miss them by subscribing to :
