Lomakin K, Herold S, Simon D, Sippel M, Sion A, Vossiek M, Helmreich K, Gold G (2019)
Publication Language: English
Publication Type: Conference contribution, Conference Contribution
Publication year: 2019
DOI: 10.1109/MWSYM.2019.8700864
This work proposes a fabrication approach for 3D printed waveguide paths based on a combination of an optimized electroless silver plating process with a waveguide-specific design rule for general metal plating by introducing large scale non-radiating slots into the broad and narrow waveguide walls with a periodicity shorter than quarter of the guided wavelength. Experimental fabrication of straight sections of the proposed slotted waveguide with various gap dimensions yields an optimum gap size as result of a trade-off between silver plating quality and leakage losses through the sidewall gaps Moreover, a successful practical application of the proposed approach is presented in terms of a 3D printed multiple bend waveguide interconnect in three different space dimensions which imposes a complex task for conventional manufacturing techniques due to the need of multiple cutting planes for split block assembly. The proposed approach benefits of low cost, moderate handling effort and independence of the concrete geometry to manufacture making it therefore especially interesting for distribution and feeding networks in the context of rapid prototyping, automotive and space related applications.
APA:
Lomakin, K., Herold, S., Simon, D., Sippel, M., Sion, A., Vossiek, M.,... Gold, G. (2019). 3D Printed Slotted Rectangular Hollow Waveguides. In Proceedings of the IEEE MTT-S International Microwave Symposium, Boston, USA, Juni, 2019.. Boston, MA, US.
MLA:
Lomakin, Konstantin, et al. "3D Printed Slotted Rectangular Hollow Waveguides." Proceedings of the IEEE MTT-S International Microwave Symposium, Boston, USA, Juni, 2019., Boston, MA 2019.
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