Professur für Rechnergestützten Schaltungsentwurf

Address:
Cauerstraße 7/9
91058 Erlangen


Publications (Download BibTeX)

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Lomakin, K., Gold, G., & Helmreich, K. (2017). Transmission Line Model for Rectangular Waveguides accurately incorporating Loss Effects. In 21st IEEE Workshop on Signal and Power Integrity (SPI 2017). Baveno, IT.
Lomakin, K., Sippel, M., Gold, G., Rochholz, P., Helmreich, K., Ankenbrand, M.,... Franke, J. (2017). Additive Fertigung in der Hochfrequenztechnik – Potenziale und Herausforderungen. PLUS - Produktion von Leiterplatten und Systemen.
Distler, F., Gold, G., Thurn, K., Schür, J.S., & Vossiek, M. (2017). Crosstalk Simulation of Multiple Insulated Twisted Pairs based on Transmission Line Theory. In 21st IEEE Workshop on Signal and Power Integrity (SPI 2017).
Gold, G., & Helmreich, K. (2016). Modeling of Transmission Lines with Multiple Coated Conductors. In Proceedings of the 46th European Microwave Week. London, GB.
Gold, G. (2016). Modeling Surface Roughness in CST Microwave Studio. Strasbourg.
Sippel, M., Gold, G., & Helmreich, K. (2016). Signal propagation properties of anisotropic conducting polymers up to 110 GHz and their applicability in test fixtures. Institute of Electrical and Electronics Engineers Inc..
Talai, A., Gold, G., Frank, M., Mann, S., Weigel, R., & Kölpin, A. (2016). A Coplanar Waveguide Resonator Based In-Line Material Characterization Sensor for Bulk and Metallized Dielectrics. Frequenz, 0(0). https://dx.doi.org/10.1515/freq-2016-0201
Gold, G. (2016). Modellierung rauher Oberflächen und Materialcharakterisierung für den Entwurf von Leiterplatten für Hochfrequenzanwendungen (Dissertation).
Helmreich, K., & Gold, G. (2016). Erzeugung von 3D-Funktionsstrukturen für Hochfrequenzanwendungen durch Druckverfahren. PLUS - Produktion von Leiterplatten und Systemen, 12, 2417-2419.
Gold, G., & Helmreich, K. (2015). Surface Impedance Concept for Modeling Conductor Roughness. In Proceedings of the IEEE MTT-S International Microwave Symposium 2015 (IMS 2015) (pp. 1-4). Phoenix, Arizona, USA.
Gold, G., & Helmreich, K. (2015). Measuring Design-DK and True Permittivity of PCB Materials up to 20 GHz. In Proceedings of the 9th German Microwave Conference (GeMiC2015) (pp. 154-157). Nuremberg, Germany, DE.
Gold, G., & Helmreich, K. (2014). Effective Conductivity Concept for Modelling Conductor Surface Roughness. In Proceedings. Santa Clara (CA), USA: DesignCon 2014.
Gold, G., & Helmreich, K. (2013). Measuring Dielectric Properties of PCB Material in the Two-Digit GHz-Range. In Abstract Book (pp. 34-36). Chemnitz.
Gold, G., & Helmreich, K. (2013). PCB Design up to 67 GHz (W32) - PCBs for Microwave Applications up to 40 GHz and Beyond: Material Characterization, Surface Roughness Consideration, Modeling and Design Perspectives. In 43th European Microwave Week. Nuremberg, Germany, DE.
Gold, G., & Helmreich, K. (2013). PCBs for Microwave Applications up to 40 GHz and Beyond: Material Characterization, Surface Roughness Consideration, Modeling and Design Perspectives. In Workshop Proceedings W32: PCB Design up to 67 GHz (pp. W32-2). Nürnberg.
Gold, G., & Helmreich, K. (2012). A physical model for skin effect in rough surfaces. Amsterdam, NL.
Helmreich, K. (2011). Measuring Signal Integrity. IEEE Microwave Magazine, 12(5), 75-82. https://dx.doi.org/10.1109/MMM.2011.941415
Glaser, D., Müller, A., Lu, P., Uygur, G., & Helmreich, K. (2010). Standardized Characterisation of Device Power Supplies for Automated Test Generation and Simulation. In Tagungsband (pp. 85-90). Erfurt: Berlin, Offenbach: VDE-Verlag.
Lu, P., Glaser, D., Uygur, G., & Helmreich, K. (2009). A Novel Approach to Entirely Integrate Virtual Test into Test Development Flow. In Proceedings (pp. 797-802). Nice, France, FR.
Lu, P., Glaser, D., Weichslgartner, S., Uygur, G., Helmreich, K., & Lechner, A. (2009). Bridge the Gap between Simulation and Test: An OSA-Compliant Virtual Test Environment. In Proceedings (pp. 214-219). Anaheim, California.

Last updated on 2019-24-04 at 10:28