Hosted by IDTechEx
3D Printing Progress
Posted on October 22, 2021 by  & 
External Company Press Release

3D Printed Electronics Solution Increases 5G Signals by up to 100%

3D Printed Electronics Solution Increases 5G Signals by up to 100%
Optomec has introduced a new high performance semiconductor packaging solution for the rapidly growing mm-wave electronics market, in response to demands from its customers in the 5G, Autonomous Vehicle, Defense and Medical segments. Millimeter-wave integrated circuit (IC) use is growing at 27% CAGR, but has been hampered in many applications because the traditional techniques used to connect the ICs to the circuits result in poor circuit performance in the form of low wireless range and/or high power consumption. Optomec's 3D Printed Interconnect solution addresses this deficiency, preserving device performance with low loss connections.
 
Optomec customers have reported up to a 100% increase in transmitted signal power for each circuit connection in the millimeter range. This translates to longer point-to-point range for wireless data transmission, reduced energy consumption and, because lower-power ICs can operate at lower temperatures, increased IC life. The millimeter-wave frequency band comprises 30 to 300 GHz. Whereas today's typical wireless network in the home or office operates at 5 GHz, next generation wireless mm-wave networks will operate at frequencies up to 53 GHz; automotive radar, defense applications and medical imaging sensors operate at even higher frequencies. The older methods of connecting ICs, such as the use of tiny gold wires, is less and less effective as the frequency increases, but the Aerosol Jet® method of printing the connection to ICs is much more efficient, with performance that nearly matches the etched copper traces of circuit boards.​​​​​​ For further information see the IDTechEx report on 5G Technology, Market and Forecasts 2022-2032.
 
 
"Our customers are reporting some very impressive performance improvements for mm-Wave interconnects." said Bryan Germann, Optomec Product Manager. "Customers across many industries using millimeter wave frequency bands are seeing the benefits of printing interconnects in lieu of standard wire or ribbon bonds. The benefit of shorter, better impedance matched transitions lower losses for each die-to-die or die-to-board transition. This leads to improvements in overall device efficiency and performance."
 
The Aerosol Jet process works by jetting extremely fine droplets of nanoparticle conductive inks onto circuit boards and components from a distance of up to 10 mm away, yet it can produce conductive features as fine as 10 microns in width. Optomec's new Aerosol Jet® HD2 printer with ultra-high printing resolution and integrated vision-based alignment has been optimized to support this new IC solution for full production applications. The HD2 supports standardized in-line automation for direct integration into existing packaging lines. Optomec further offers its customers pre-qualified printing recipes and application libraries for a total solution that is production ready.
 
Optomec is a privately-held, rapidly growing supplier of Additive Manufacturing systems. Optomec's patented Aerosol Jet Systems for printed electronics, and LENS and Huffman brand 3D Printers for metal component production and repair, are used by industry to reduce product cost and improve performance. Together, these unique printing solutions work with the broadest spectrum of functional materials, ranging from electronic inks to structural metals and even biological matter. Optomec has delivered more than 500 of its proprietary Additive Manufacturing systems to more than 200 marquee customers around the world, for production applications in the electronics, energy, life sciences and aerospace industries. Our users include countless blue-chip manufacturing companies, such as GE, Samsung, Raytheon, Siemens, Lockheed and LiteOn, as well as the US Air Force, US Navy, US Army and NASA. For more information, visit www.optomec.com External Link.
 
Source and top image: Optomec
 
More IDTechEx Journals