Investigation on the Influence of Injection Molding Parameters on High Frequency Permittivity up to 3 GHz on MID Thermoplastics and Reliability of Permittivity During Environmental Testing
This paper reports on the influence of injection molding parameters and environmental testing on the permittivity of different thermoplastic materials used in MID technology. Permittivity and dielectric loss angle measurements up to frequencies of 3 GHz were performed by using suitable resonator structures on flat test substrates fabricated by LPKF-LDS technology. It was found that the permittivity of LCP is only negligibly affected by injection molding parameters. Furthermore, during environmental tests the best performance was observed for LCP.
%0 Generic
%1 wolfinvestigation
%A Wolf, Marius
%A Janek, Florian
%A Meißner, Thomas
%A Wigger, Benedikt
%A Barth, Maximilian
%A Günther, Thomas
%A Eberhardt, Wolfgang
%A Geneiß, Volker
%A Lübke, Tobias
%A Hedayat, Christian
%A Otto, Thomas Walter
%A Zimmermann, André
%D 2018
%K myown
%T Investigation on the Influence of Injection Molding Parameters on High Frequency Permittivity up to 3 GHz on MID Thermoplastics and Reliability of Permittivity During Environmental Testing
%X This paper reports on the influence of injection molding parameters and environmental testing on the permittivity of different thermoplastic materials used in MID technology. Permittivity and dielectric loss angle measurements up to frequencies of 3 GHz were performed by using suitable resonator structures on flat test substrates fabricated by LPKF-LDS technology. It was found that the permittivity of LCP is only negligibly affected by injection molding parameters. Furthermore, during environmental tests the best performance was observed for LCP.
@conference{wolfinvestigation,
abstract = {This paper reports on the influence of injection molding parameters and environmental testing on the permittivity of different thermoplastic materials used in MID technology. Permittivity and dielectric loss angle measurements up to frequencies of 3 GHz were performed by using suitable resonator structures on flat test substrates fabricated by LPKF-LDS technology. It was found that the permittivity of LCP is only negligibly affected by injection molding parameters. Furthermore, during environmental tests the best performance was observed for LCP.},
added-at = {2019-03-15T09:17:05.000+0100},
author = {Wolf, Marius and Janek, Florian and Meißner, Thomas and Wigger, Benedikt and Barth, Maximilian and Günther, Thomas and Eberhardt, Wolfgang and Geneiß, Volker and Lübke, Tobias and Hedayat, Christian and Otto, Thomas Walter and Zimmermann, André},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2502f79c232b84b1eeece9a0cfeb7fef0/thomasguenther},
eventtitle = {International Congress Molded Interconnect Devices},
interhash = {6a64f6364098221242821d3a5243f897},
intrahash = {502f79c232b84b1eeece9a0cfeb7fef0},
keywords = {myown},
timestamp = {2019-03-15T13:04:02.000+0100},
title = {Investigation on the Influence of Injection Molding Parameters on High Frequency Permittivity up to 3 GHz on MID Thermoplastics and Reliability of Permittivity During Environmental Testing},
venue = {Würzburg},
year = 2018
}