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AM is reshaping electronics education and enabling rapid, high-performance development for real-world applications.

The concept of affordable 3D-printed sensor coils integrated as an assembly with the electronics has evolved.

DragonFly is helping prototype the first fully functional Time-of-Flight Computed Tomography (ToF-CT). This would reduce the amount of time that a patient is exposed to x-ray, making patients less prone to side effects, and allowing for more frequent scanning.

The medical implant field is critical, fascinating and evolving. Our new case study detail the inroads one of our customers is making with the help of our DragonFly AME system.

Dr. Yang and his team at UTS discovered a unique AME solution for 5G mm-wave circuit-in-package (CiP) designs

The Center for Biomolecular Nanotechnologies (CBN ITT) develops micro and nanotechnologies for monitoring and controlling health, wellness, sport performance and living environments.

Electromagnets are important components of a wide range of devices. With the DragonFly Pro 3D printer's ability to make rapid prototyping affordable, limitless electromagnet designs can be created to accommodate specific project needs and enable greater precision.

IoT sensors help provide full interconnectivity between a wide range of objects. Learn more about how the DragonFly Pro 3D printer was used to create this temperature and humidity sensor that can be incorporated into many applications.

Molded Interconnect Devices (MIDs) provides a high degree of design flexibility and miniaturization. With the DragonFly Pro 3D printer’s ability to print both dielectric and conductive inks concurrently, not only is production time kept low, but conductive traces can now be printed within the insulating materials.