May 19, 2020
HENSOLDT and Nano Dimension Achieve Breakthrough in Electronics 3D Printing
Munich, Germany and Nano Dimension’s USA HQ, South Florida (Nasdaq, TASE: NNDM), May 19, 2020 – Sensor solutions provider HENSOLDT together with the leading Additively Manufactured Electronics (AME) / Printed Electronics (PE) provider, Nano Dimension, has achieved a major breakthrough on its way to utilizing 3D printing in the development process of high-performance electronics components. Utilizing a newly developed dielectric polymer ink and conductive ink from Nano Dimension, HENSOLDT succeeded in assembling the world-wide first 10-layer printed circuit board (PCB) which carries high-performance electronic structures soldered to both outer sides. Until now, 3D printed boards could not bear the soldering process necessary for two-sided population of components.
“Military sensor solutions require performance and reliability levels far above those of commercial components.” said HENSOLDT CEO, Thomas Müller. “To have high-density components quickly available with reduced effort by means of 3D printing gives us a competitive edge in the development process of such high-end electronic systems.”
“Nano Dimension’s relationship with HENSOLDT is the type of partnership with customers we are striving for,” commented Yoav Stern, Nano Dimension President & CEO. “Working together and learning from HENSOLDT led us to reach a first-of-its-kind in-depth knowledge of polymer materials applications. Additionally, it guided us in the development of Hi-PEDs (High Performance Electronic Device) that create competitive edges by enabling unique implementations with shortest time to market.”
AMEs are useful to verify a new design and functionality of specialized electronic components before production. AME is a highly agile and individual engineering methodology to prototype a new electronic circuitry. This leads to significant reduction of time and cost in the development process. Furthermore, AME gives a verified and approved design before production starts, leading to higher quality of the final product.
HENSOLDT started working with Nano Dimension’s DragonFly 3D printing system in 2016, in order to examine the possibilities of 3D printing electronics. Last year, HENSOLDT successfully implemented the DragonFly Lights-Out Digital Manufacturing (LDM) printing technology, the industry’s only additive manufacturing platform for round-the-clock 3D printing of electronic circuitry.
HENSOLDT is a pioneer of technology and innovation in the field of defence and security electronics. Based in Taufkirchen near Munich, the company is a German Champion with strategic leadership positions in the field of sensor solutions for defence and non-defence applications. HENSOLDT develops new products to combat a wide range of threats based on innovative approaches to data management, robotics and cyber security. With approximately 5,500 employees, HENSOLDT generated revenues of 1.14 billion euros in 2019. www.hensoldt.net
About Nano Dimension
Nano Dimension (Nasdaq, TASE: NNDM) is a provider of intelligent machines for the fabrication of Additively Manufactured Electronics (AME). High fidelity active electronic and electromechanical subassemblies are integral enablers of autonomous intelligent drones, cars, satellites, smartphones, and in vivo medical devices. They necessitate iterative development, IP safety, fast time-to-market and device performance gains, thereby mandating AME for in-house, rapid prototyping and production. Nano Dimension machines serve cross-industry needs by depositing proprietary consumable conductive and dielectric materials simultaneously, while concurrently integrating in-situ capacitors, antennas, coils, transformers and electromechanical components, to function at unprecedented performance. Nano Dimension bridges the gap between PCB and semiconductor integrated circuits. A revolution at the click of a button: From CAD to a functional high-performance AME device in hours, solely at the cost of the consumable materials.
For more information, please visit www.nano-di.com.
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