We present an accurate modeling of complex vertically integrated structures based on the new LTTC (low-temperature cofired ceramic) multilayer technology. The EM analysis is performed by means of different electromagnetic full-wave solvers in the time- and frequency-domains, namely: i) finite difference time-domain (FDTD); ii) transmission line matrix (TLM); iii) transmission line matrix integral equation (TLM-IE); iv) generalized transverse resonance diffraction (GTRD). We analyze a stacked patch antenna and a spiral inductor. The calculated S-parameters and Q-factors are compared to measured data showing good agreement
Comparison of Electromagnetic Solvers for the Analysis of LTCC Components / Pierantoni, Luca; Farina, Marco; Rozzi, Tullio; Coccetti, F.; Russer, P.; Bushyager, N.; Tentzeris, M.. - 1:(2003), pp. 733-736. (Intervento presentato al convegno 2003 IEEE International Antennas and Propagation Symposium and USNC/CNC/URSI North American Radio Science Meeting tenutosi a Columbus, OH, USA nel 22-27 June 2003) [10.1109/APS.2003.1217565].
Comparison of Electromagnetic Solvers for the Analysis of LTCC Components
PIERANTONI, Luca;FARINA, Marco;ROZZI, TULLIO;
2003-01-01
Abstract
We present an accurate modeling of complex vertically integrated structures based on the new LTTC (low-temperature cofired ceramic) multilayer technology. The EM analysis is performed by means of different electromagnetic full-wave solvers in the time- and frequency-domains, namely: i) finite difference time-domain (FDTD); ii) transmission line matrix (TLM); iii) transmission line matrix integral equation (TLM-IE); iv) generalized transverse resonance diffraction (GTRD). We analyze a stacked patch antenna and a spiral inductor. The calculated S-parameters and Q-factors are compared to measured data showing good agreementI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.