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Bösch, Wolfgang
Graz University of Technology
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (8/8 displayed)
- 2023On the Difficulties to Determine the Intrinsic Material Parameters for MnZn Ferritescitations
- 2023Experimental analysis of grounded coplanar waveguide structures based on different PCB processes with uncertainty analysiscitations
- 2022mm-Wave Complex Permittivity Extraction of LTCC Substrate Under the Influence of Surface Roughnesscitations
- 2022Complex Permittivity Measurement of Dielectric Substrates at Millimeter-wave Frequencies
- 2021Additive Manufacturing of Non-homogenous Dielectric Waveguide Structures and Filterscitations
- 2020A D-band 3D printed antennacitations
- 2019Compact broadband frequency selective microstrip antenna and its application to indoor positioning systems for wireless networkscitations
- 2018Emerging technologies and concepts for 5G applications - A. making additive manufactured ceramic microwave filters ready for 5Gcitations
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document
Emerging technologies and concepts for 5G applications - A. making additive manufactured ceramic microwave filters ready for 5G
Abstract
<p>Additive manufacturing (AM) techniques for filter applications have proven to be vital in enabling a variety of forms and shapes best suitable for 5G application. However, in order to guarantee a good RF performance of the passive components, certain aspects have to be taken into account. When it comes to dielectric resonators manufactured in ceramic AM, the quality of the metallization is crucial. Based on a simple prototype, this paper reports on the performance when using an advanced coating technique applied to a 3D printed ceramic body.</p>