Rogers Corporation Presented & Exhibit at IMS in San Diego, CA
Chandler, Arizona, June 8, 2023——ROGERS Corporation announced Technical Marketing Manager, John Coonrod, gave two presentations on June 14 in the MicroApps Theater at the International Microwave Symposium (IMS) in San Diego, CA. Topics include “3D Printed RF Structures Open the Potential to Think Out of the Box" and "Thermal Stability Consistency is Even More Important at Millimeter-Wave Frequencies."
In addition, Rogers showcased its products in Booth #1635 during IMS, the world’s largest RF and Microwave show, which took place from Tuesday, June 13 through Thursday, June 15. These products include Radix™ 3D Printable Dielectrics and new Anteo™ low loss laminates.
Rogers's new family of Anteo Laminates is designed to offer low-loss RF performance as an alternative to FR-4 in commercial and consumer applications. With a dielectric constant of 4.07 +/- 0.08 and a dissipation factor of .005 at 10GHz, Anteo laminates offer two benefits in comparison to thicker grades of FR-4. For a comparable price, it offers superior performance and enables greater antenna gain and efficiency. But the lower dissipation factor also enables similar or marginally improved performance at one-third to one-half the thickness of FR-4, thus providing significant cost savings and improvement in packaging.
Radix™ 3D Printable Dielectric Materials is the first 3D material featuring a dielectric constant of 2.8 and low loss characteristics at microwave frequencies. These Printable Dielectric Materials give radio frequency (RF) designers unprecedented design freedom in creating new components, eliminating the need to consider typical manufacturing design constraints.
Rogers Corporation’s Radix Printable Dielectric Materials is a proprietary composite material designed for Digital Light Processing (DLP) 3D printing, enabling a scalable, high-resolution printing process for end-use RF dielectric component manufacturing. This printable dielectric material has a targeted dielectric constant of 2.8 and a dissipation factor of 0.0043 at 10GHz when cured.
The material is intended for use as RF material in applications where new geometric freedom can enhance the figure of merits of an RF system, such as gradient dielectric constant (GRIN) structures and other complex three-dimensional parts. The Radix 3D Printable Dielectric offers the industry a way to manufacture systems and components at a scale that could not be made with traditional fabrication methods. Radix materials are available directly from Rogers Corporation and Rogers 3D printing partners.
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