Zobrazeno 1 - 10
of 17
pro vyhledávání: '"Ruben Perrone"'
Publikováno v:
Additional Conferences (Device Packaging, HiTEC, HiTEN, and CICMT). 2015:002015-002040
Electronics packaging for complex medical devices demands innovation and advanced capabilities, but achieved in a manner which ensures reliability and performance. The evolution of
Autor:
Irina Vendik, Ruben Perrone, Jens Mueller, Stefan Humbla, Dmitry Kholodnyak, Polina Kapitanova, Matthias Hein
Publikováno v:
International Journal of Microwave and Wireless Technologies. 1:323-329
Metamaterial transmission lines can be realized as a combination of right- and left-handed transmission line (TL) sections exhibiting positive and negative dispersion. This approach gives additional degrees of freedom for improving the performance of
Autor:
Polina Kapitanova, Jens Mueller, Ruben Perrone, Stefan Humbla, Irina Vendik, Dmitry Kholodnyak, Matthias Hein
Publikováno v:
Microwave and Optical Technology Letters. 51:629-633
The combination of right-handed and left-handed transmission line sections enables a novel design strategy for miniature dual-band resonators and filters in the GHz-range with a wide stopband at higher frequencies. The design procedure is described,
Autor:
Ralf Stephan, A. Molke, A.F. Jacob, P. Uhlig, D. Schwanke, Jens Muller, T. Baras, Matthias Hein, Jurgen Pohlner, R. Kulke, G. Reppe, Ruben Perrone, K.-H. Drue, J.F. Trabert
Publikováno v:
Journal of Microelectronics and Electronic Packaging. 4:99-104
Low-temperature co-fired ceramic (LTCC) are widely acknowledged for wide-band and microwave circuits. Within the project consortium KERAMIS, implementation of higher functionality in LTCC substrates is being investigated. Among the applications consi
Publikováno v:
Journal of Microelectronics and Electronic Packaging. 2:155-161
This paper presents some results of our investigations in the integration of coils in LTCC using the Fodel® Technology as line patterning technology. Planar as well as 3-D inductors were simulated, manufactured, measured and modeled. The structures
Autor:
Polina Kapitanova, Stefan Humbla, Matthias Hein, Jens Mueller, Irina Vendik, Dmitry Kholodnyak, Ruben Perrone
Publikováno v:
IEEE EUROCON 2009.
Design of microwave devices based on a combination of traditional right-handed transmission line sections with positive dispersion and metamaterial left-handed transmission line sections with negative dispersion is considered. Compared to homogeneous
Autor:
Dmitry Kholodnyak, Ruben Perrone, Irina Vendik, Jens Muller, Stefan Humbla, Polina Kapitanova, Matthias Hein
Publikováno v:
2008 38th European Microwave Conference.
This paper focuses on applications of the metamaterial left-handed transmission lines to the design of novel Wilkinson-type power dividers. Novel configurations of broadband 180deg Wilkinson power dividers suitable for practical implementation are pr
Autor:
Dmitry Kholodnyak, Irina Vendik, Matthias Hein, Polina Kapitanova, Stefan Humbla, Ruben Perrone, Jens Mueller
Publikováno v:
2008 38th European Microwave Conference.
Metamaterial transmission lines can be realized as a combination of transmission line sections with positive and negative dispersion. Such lines, which are also known as right- and left-handed transmission lines, exhibit different dispersion characte
Autor:
Heiko Thust, Ruben Perrone, J.F. Trabert, Matthias Hein, A. Molke, R. Kulke, Jens Muller, Jurgen Pohlner, G. Reppe, C. Kutscher, P. Uhlig, K.-H. Drue, Ralf Stephan, D. Schwanke, T. Baras, A.F. Jacob
Publikováno v:
2006 1st Electronic Systemintegration Technology Conference.
Low temperature co-fired ceramics (LTCC) is being widely used for microwave circuits. The BMBF funded R&D-project KERAMIS focuses on larger implementation of functionality in LTCC substrates to allow designs with "standard" MMICs. Target applications
Publikováno v:
2005 European Microwave Conference.
For satellite communication downlinks in the Ku/K-band we have integrated active semiconductor switching circuits with high-resolution passive components into a ceramic module for a 4 /spl times/ 4 single-pole multi-throw reconfigurable switch matrix